Statutory Instruments
1996 No. 1350
ATOMIC ENERGY AND RADIOACTIVE SUBSTANCES
The Radioactive Material (Road Transport) (Great Britain) Regulations 1996
Made
20th May 1996
Laid before Parliament
29th May 1996
Coming into force
20th June 1996
The Secretary of State for Transport, in exercise of the powers conferred on him by section 2(1), (2), (3) and (6) of the Radioactive Material (Road Transport) Act 1991(1) hereby makes the following Regulations:—
Citation and Commencement
1. These Regulations may be cited as the Radioactive Material (Road Transport) (Great Britain) Regulations 1996 and shall come into force on 20th June 1996.
Interpretation
2.—(1) In these Regulations, unless the context otherwise requires—
“A1” means the maximum activity of special form radioactive material permitted in a Type A package, calculated in accordance with Schedule 1;
“A2” means the maximum activity of radioactive material other than special form radioactive material permitted in a Type A package, calculated in accordance with Schedule 1;
“accident conditions of transport” means conditions of transport involving more than minor mishaps;
“ADR” means the 1995 edition of the “European Agreement concerning the International Carriage of Dangerous Goods by Road (ADR)” (1995) produced by the Department of Transport and published by HMSO (ISBN 011-551265-9);
“the Act” means the Radioactive Material (Road Transport) Act 1991;
“carrier” means a person undertaking the transport of radioactive material, and includes both a carrier for hire or reward and a carrier on own account;
“competent authority” means the Secretary of State, or any national authority of a state other than the United Kingdom or any international authority designated or otherwise recognised as a competent authority for any purpose in connection with the International Safety Regulations as they apply to road transport;
“competent authority identification mark” means a mark assigned by a competent authority in accordance with Schedule 23;
“consignee” any person who receives a consignment;
“consignment” means any package or packages, or load of radioactive material, presented by a consignor for transport;
“consignor” means any person who presents a consignment for transport and who is named as consignor in the transport documents, or a freight forwarder acting as agent for such a person;
“containment system” means the assembly of components of the packaging specified by the designer as intended to retain and form the boundary of the radioactive material during transport;
“contamination” means the contamination of any surface or any part of absorbent material by any radioactive material, and “contaminated” and “decontaminated” shall be construed accordingly;
“conveyance” means any vehicle, any seagoing vessel or inland waterway craft used for carrying cargo, any hold, compartment or deck area of any such vessel or craft, or any aircraft;
“the Dangerous Goods Recommendations” means the eighth revised edition of the “The United Nations Recommendations on the Transport of Dangerous Goods” prepared by the United Nations Committee of Experts on the Transport of Dangerous Goods published by HMSO (ISBN 92-1-139042-7);
“depleted uranium” means uranium containing a lesser mass percentage of uranium-235 than in natural uranium;
“design” means, in relation to any package, packaging or special form radioactive material, a description which enables that package, packaging or material to be fully identified and which may include specifications, engineering drawings, reports demonstrating compliance with regulatory requirements, and other relevant documentation;
“driver” means, in relation to a trailer, the driver of the vehicle by which the trailer is drawn;
“excepted package” means a package which meets the requirements of paragraphs 1 to 9 and 12 of Schedule 2 and—
(a)
is a package containing radioactive material of limited activity which meets the requirements of Schedule 3;
(b)
is a package containing instruments or manufactured articles which meets the requirements of Schedule 4; or
(c)
is an empty packaging which meets the requirements of Schedule 5.
“exclusive use” means the sole use, by a single consignor, of a conveyance or of a large freight container with a minimum length of 6 metres, in respect of which all initial, intermediate, and final loading and unloading is carried out in accordance with the directions of the consignor or consignee;
“fissile material” means uranium-233, uranium-235, plutonium-238, plutonium-239, plutonium-241, or any combination thereof, and does not include unirradiated natural uranium, unirradiated depleted uranium, or natural uranium or depleted uranium which has been irradiated in thermal reactors only;
“fissible package” means a package which meets the requirements of Schedule 7;
“fixed contamination” means contamination which is not non-fixed contamination;
“freight container” means an article of transport equipment designed to facilitate the transport of goods, either packaged or unpackaged, by one or more modes of transport without intermediate reloading, which is of a permanent enclosed character, rigid and strong enough for repeated use, and fitted with devices facilitating its handling particularly in transfer between conveyances and from one mode of transport to another;
“goods compartment” means a part of a vehicle intended or adapted for the transport of goods or burden;
“industrial package” means an industrial package Type 1 (IP-1), an industrial package Type 2 (IP-2) or an industrial package Type 3 (IP-3);
“industrial package Type 1 (IP-1)” means a package meeting the requirements of Schedule 9, Part I;
“industrial package Type 2 (IP-2)” means a package meeting the requirements of Schedule 9, Part II;
“industrial package Type 3 (IP-3)” means a package meeting the requirements of Schedule 9, Part III;
“the International Safety Regulations” means the “Regulations for the Safe Transport of Radioactive Material 1985 edition (As amended 1990)” published by the International Atomic Energy Agency, Vienna 1990, Safety Series No. 6 (ISBN 92-0-123890-8);
“the ISO classification document” means the International Organisation for Standardisation document, “Sealed radioactive sources—Classification” published by the British Standards Institution and HMSO (Reference No. ISO 2919-1980 (E));
“the ISO freight containers document” means the International Organisation for Standardisation document, “Series 1 Freight Containers—Specifications and Testing—Part 1: General Cargo Containers” published by the British Standards Institution and HMSO (Reference No. ISO 1496/1-1978);
“the ISO leak test document” means the International Organisation for Standardisation document, “Sealed Radioactive Sources—Leak Test Methods” published by the British Standards Institution and HMSO (Reference No. ISO/TR 4826-1979 (E));
“large freight container” means a freight container which is not a small freight container;
“low specific activity material” means radioactive material which by its nature has a limited specific activity, or for which limits of estimated average specific activity, disregarding external shielding materials surrounding the radioactive material, apply;
“LSA material” means low specific activity material;
“LSA-I” means LSA material comprising—
(i)
ores containing naturally occurring radionuclides (such as uranium and thorium), and uranium or thorium concentrates of such ores;
(ii)
solid unirradiated natural uranium or depleted uranium or natural thorium or their solid or liquid compounds or mixtures; or
(iii)
radioactive material, other than fissile material, for which the A2 value is unlimited;
“LSA-II” means LSA material comprising—
(i)
water with tritium concentration up to 0.8 TBq/L; or
(ii)
other material in which the activity is distributed throughout and the estimated average specific activity does not exceed 10−4 A2/g for solids and gases, and 10−5 A2/g for liquids;
“LSA-III” means LSA material comprising solids (such as consolidated wastes and activated materials) in which:
(i)
the radioactive material is distributed throughout a solid or a collection of solid objects, or is essentially uniformly distributed in a solid compact binding agent (such as concrete, bitumen, ceramic, etc.);
(ii)
the radioactive material is relatively insoluble, or it is intrinsically contained in a relatively insoluble matrix; and
(iii)
the estimated average specific activity of the solid, excluding any shielding material, does not exceed 2×10−3 A2/g;
and which is of such a nature that if the entire contents of a package containing the material were subjected to the test specified in Part I of Schedule 15 the activity in the water used in the test would not, at the end of the test, exceed 0.1 A2;
“low toxicity alpha emitter” means thorium-228 in ores or physical or chemical concentrates, natural uranium, depleted uranium, natural thorium, uranium-235, uranium-238, thorium-232, or an alpha emitter with a half-life of less than ten days;
“maximum normal operating pressure” means the maximum pressure above atmospheric pressure at mean sea level that would develop in the containment system in a period of one year under the conditions of temperature and solar radiation corresponding to environmental conditions of transport in the absence of venting, external cooling by an ancillary system, or operational controls during transport;
“multilateral approval” means approval by the competent authority both of the state of origin of the design or shipment and of each state through or into (but not by air over) which the consignment is to be transported;
“naturally occurring distribution of uranium isotopes” means approximately 99.28% uranium-238 and 0.72% uranium-235 by mass, but including a very small mass percentage of uranium-234;
“natural uranium” means chemically separated uranium containing the naturally occurring distribution of uranium isotopes;
“non-fixed contamination” means contamination that can be removed from a surface during normal handling;
“normal conditions of transport” means conditions of transport including minor mishaps;
“the Northern Ireland Regulations” means regulations for the time being in force for Northern Ireland under an Order in Council under paragraph 1(1)(b) of Schedule 1 to the Northern Ireland Act 1974(2) which contains the statement specified in section 8 of the Act;
“overpack” means an enclosure, such as a box or bag, which is used by a single consignor to consolidate into one handling unit a consignment of two or more packages for convenience of handling, stowage and transport;
“package” means packaging with the radioactive contents thereof as presented for transport;
“packaging” may, in particular, include service equipment for filling, emptying, venting and pressure relief, and devices for cooling, for absorbing mechanical shocks, for providing handling and tie-down capability, for thermal insulation and service devices integral to the package, and may be a box, drum or similar receptacle, or a freight container or tank;
“personnel compartment” means a driver’s compartment in a vehicle or a part of a vehicle intended or adapted for the carriage of persons in the vehicle;
“quality assurance programme” means a systematic programme of controls, inspections and training applied by any organisation or body involved in the transport of radioactive material, including designers and manufacturers of packagings, consignors and carriers, to ensure compliance with the requirements of the International Safety Regulations applicable to packages and consignments;
“radiation level” means the corresponding dose equivalent rate expressed in millisieverts per hour (“mSv/h”);
“radioactive contents” means radioactive material together with any contaminated solids, liquids and gases within the packaging;
“radioactive material” does not include radioactive material which is an integral part of the means of transport of that material;
“road”: (a) in relation to England and Wales, means any highway and any other road to which the public has access, and (b) in relation to Scotland has the same meaning as in the Roads (Scotland) Act 1984(3);
“routine transport” means incident free conditions;
“shipment” means the specific movement of a consignment from origin to destination where that movement includes transport in Great Britain;
“small freight container” means a freight contrainer which has either any overall outer dimension less than 1.5 metres, or an internal volume of not more than 3.0 m3;
“special arrangement” means provisions approved under regulation 15;
“special form radioactive material” means an indispersible solid radioactive material or a sealed capsule containing radioactive material, which meets the requirements of Schedule 6;
“specific activity” means the activity of a radionuclide per unit mass of that nuclide, the specific activity of a material in which the radionuclide is essentially uniformly distributed being the activity per unit mass of that material;
“surface contaminated object” means a solid object which is not itself radioactive but which has radioactive material distributed on its surfaces;
“SCO” means a surface contaminated object;
“SCO-I” means an SCO on which:
(i)
the non-fixed contamination on the accessible surface averaged over 300 cm2 (or the area of the surface if less than 300 cm2) does not exceed 4 Bq/cm2 for beta and gamma emitters and low toxicity alpha emitters, or 0.4 Bq/cm2 for all other alpha emitters; and
(ii)
the fixed contamination on the accessible surface, averaged over 300 cm2 (or the area of the surface if less than 300 cm2) does not exceed 4×104 Bq/cm2 for beta and gamma emitters and low toxicity alpha emitters, or 4×103 Bq/cm2 for all other alpha emitters; and
(iii)
the non-fixed contamination plus the fixed contamination on the inaccessible surface, averaged over 300 cm2 (or the area of the surface if less than 300 cm2) does not exceed 4×104 Bq/cm2 for beta and gamma emitters and low toxicity alpha emitters, or 4×103 Bq/cm2 for all other alpha emitters;
“SCO-II” means an SCO on which either the fixed or non-fixed contamination on the surface exceeds the applicable limits specified for SCO-I in the definition of that term and on which:
(i)
the non-fixed contamination on the accessible surface averaged over 300 cm2 (or the area of the surface if less than 300 cm2) does not exceed 400 Bq/cm2 for beta and gamma emitters and low toxicity alpha emitters, or 40 Bq/cm2 for all other alpha emitters; and
(ii)
the fixed contamination on the accessible surface, averaged over 300 cm2 (or the area of the surface if less than 300 cm2) does not exceed 8×105 Bq/cm2 for beta and gamma emitters and low toxicity alpha emitters, or 8×104 Bq/cm2 for all other alpha emitters; and
(iii)
the non-fixed contamination plus the fixed contamination on the inaccessible surface averaged over 300 cm2 (or the area of the surface if less than 300 cm2) does not exceed 8×105 Bq/cm2 for beta and gamma emitters and low toxicity alpha emitters, or 8×104 Bq/cm2 for all other alpha emitters;
“tank” means a tank container, portable tank, a road tank vehicle, a rail tank wagon or a receptacle with a capacity of not less than 450 litres to contain liquids, powders, granules, slurries or solids which are loaded as gas or liquid and subsequently solidified, and not less than 1000 litres to contain gases;
“tank container” means a container capable of being carried on land or on sea and of being loaded and discharged without the need of removal of its structural equipment, possessing stabilising members and tie-down attachments external to the shell, and capable of being lifted when full;
“transport” means transport by road and includes all operations and conditions associated with and involved in the movement of radioactive material by road, including—
(a)
the design, fabrication and maintenance of packaging,
(b)
the preparation, consigning, handling, carriage, storage in transit and receipt at the final destination of packages,
(c)
normal and accident conditions of transport by road encountered in carriage and in storage during transit, and
(d)
transport by road which is incidental to the use of the radioactive material;
“Transport Index (TI)” means a single number determined in accordance with Schedule 17 and assigned to a package, overpack, tank or freight container, or to unpackaged LSA-I or SCO-I;
“Type A package” means a package containing an activity up to A1, if special form radioactive material, or up to A2 if not special form radioactive material, meeting the requirements of Schedule 11;
“Type B package” means a package containing an activity that may be in excess of A1, if special form radioactive material, or in excess of A2 if not special form radioactive material, which is either a Type B(M) package or a Type B(U) package;
“Type B(M) package” means a package meeting the requirements of Schedule 14;
“Type B(U) package” means a package meeting the requirements of Schedule 13;
“uncompressed gas” means gas at a pressure not exceeding ambient atmospheric pressure at the time the containment system is closed;
“unilateral approval” means an approval of a design which is required to be given by the competent authority of the state of origin of the design alone;
“unirradiated thorium” means thorium containing not more than 10−7 g of uranium-233 per gram of thorium-232;
“unirradiated uranium” means uranium containing not more than 10−6 g of plutonium per gram of uranium-235 and not more than 9 MBq of fission products per gram of uranium-235;
“vehicle” means a road vehicle, including an articulated vehicle, and, except for the purposes of regulation 34, each trailer shall be considered as a separate vehicle;
“visiting force” means any such body, contingent or detachment of the forces of any state to which the provisions of the Visiting Forces Act 1952(4) apply by virtue of section 1(1)(a) or section 1(1)(b), and any Order in Council under section 1(2), of that Act.
(2) These Regulations give effect to the International Safety Regulations and, unless the context otherwise requires, other expressions used in these Regulations which are also used in those Regulations have the meaning they bear in those Regulations.
(3) In these Regulations, unless the context otherwise requires, any reference to—
(a)a numbered regulation or a numbered schedule is a reference to the regulation or schedule bearing that number in these Regulations;
(b)a numbered paragraph is a reference to the paragraph bearing that number in the regulation or schedule in which the reference appears;
(c)a numbered table is a reference to the table bearing that number in Schedule 36.
Application of the Regulations
3.—(1) Subject to paragraph (2), these Regulations apply to the transport in Great Britain of any radioactive material.
(2) These Regulations do not apply to—
(a)the transport of radioactive material contained in the body of any person as a result of the implantation in that person of a radioisotopic cardiac pacemaker or other device, or the diagnosis or treatment of that person with radiopharmaceuticals;
(b)the transport of radioactive material in a vehicle which—
(i)is engaged in an international transport operation within the meaning of ADR,
(ii)complies with the conditions contained in Annexes A and B to ADR, and
(iii)is certified pursuant to ADR as complying with it;
(c)a transport operation which is subject to a special bilateral or multilateral agreement under the terms of Article 4 of ADR to which the United Kingdom is a Contracting Party;
(d)the transport of radioactive material which is or forms part of an instrument of war or is required for research into or development or production of any such instrument or part of such an instrument or is produced in the course of or in connection with such a development or production, when the transport is on behalf of a Department of the Government of the United Kingdom or is in connection with the execution of a contract made with any such Department;
(e)the transport of radioactive material which is or forms part of an instrument of war when the transport is on behalf of a visiting force or is in connection with the execution of a contract made with any such force;
(f)the transport of luminous devices worn by a person or luminous devices as part of the vehicle;
(g)the transport in any one vehicle of no more than 500 smoke detectors for domestic use with an individual activity not exceeding 40 KBq;
(h)the transport of gaseous tritium light devices with an individual activity not exceeding 10 GBq when no more than five such devices are transported in the vehicle.
Knowledge of radioactivity
4. These Regulations shall not apply to a person in relation to radioactive material if that person does not know or does not have reasonable grounds to believe that the material is radioactive.
General prohibitions
5. No person shall transport or cause to be transported any radioactive material except in accordance with these Regulations.
6. No person shall—
(a)transport radioactive material in a vehicle which is a public service vehicle within the meaning of the Public Passenger Vehicles Act 1981(5) or a tramcar or trolley vehicle within the meaning of the Road Traffic Act 1988(6); or
(b)transport radioactive material in a vehicle which is carrying any explosive substance within the meaning of the Road Traffic (Carriage of Explosives) Regulations 1989(7) except under special arrangement in accordance with regulation 15; or
(c)transport any package in a vehicle if he knows or has reason to believe that the package has or may have been damaged, unless the consignor of the package or his agent has made a declaration in the terms set out in paragraph 20 of Schedule 20 after the incident giving rise to the damage or possibility of damage, and that declaration is transported with the package; or
(d)transport in a vehicle any packaging bearing a label described in Schedule 18 which does not correspond to the contents of that packaging.
7. No person shall be a carrier of radioactive material unless—
(a)he is the consignor of that material; or
(b)he holds transport documents for that material issued in accordance with regulation 27; or
(c)the material is in the course of its first transport in Great Britain since being imported into Great Britain from Northern Ireland, and he knows, or has reasonable grounds to believe, that it meets the requirements of the Northern Ireland Regulations as to its labelling and transport documents.
8. Subject to regulation 15, no person shall transport or cause to be transported any radioactive material except—
(a)in a package which is—
(i)an excepted package,
(ii)an industrial package,
(iii)a Type A package, or
(iv)a Type B package,
and which is also, if the radioactive material is fissile material and the package does not fall within Schedule 8, a fissile package; or
(b)unpackaged LSA-I or SCO-I, in accordance with the conditions prescribed in paragraph 3 of Schedule 10.
9.—(a) No person shall transport or cause to be transported any other goods in a tank which is being or has at any time been used for the storage or transport of radioactive material.
(b)No person shall transport or cause to be transported any liquid radioactive material in a tank unless—
(i)the tank opening is above the level of the liquid; and
(ii)the piping or pipe connections of the shell walls are below the level of the liquid.
General obligation
10. The consignor and the carrier of radioactive material in a vehicle, and the driver of the vehicle, shall exercise reasonable care to ensure that the material shall not, in the course of transport, cause any injury to health, or any damage to property or to the environment.
Tampering with, and securing of, packages
11.—(1) No person shall wilfully damage, or open without reasonable cause, any package in the course of transport.
(2) No person other than the carrier of radioactive material shall remove the material from the vehicle transporting it while in the course of transport, or alter the position of any package in the vehicle, except in accordance with the instructions of the carrier, the consignor or the consignee, or for reasonable cause.
(3) The carrier of any package shall exercise all reasonable care to ensure that the package is secured against unlawful removal from the vehicle transporting it and is securely stowed in the vehicle during transport.
Tampering with labels
12. No person shall—
(a)remove without reasonable cause from a package in the course of transport any label attached to or warning sign or mark displayed on or within the package in accordance with the requirements of these Regulations, or wilfully deface any such label, sign or mark; or
(b)remove without reasonable cause from a vehicle carrying radioactive material any label, notice, placard or plate carried by that vehicle in accordance with the requirements of these Regulations, or wilfully deface any such label, notice, placard or plate.
Contents limits
13. Subject to regulation 15, no person shall transport or cause to be transported any package unless the quantity of radioactive material in the package is within the contents limits specified for that type of package in Schedule 16.
Transport Index (TI) limits
14.—(1) No person shall transport or cause to be transported any package, overpack, tank, freight container or unpackaged LSA-I or SCO-I unless the Transport Index (TI) for that item has been determined by the consignor in accordance with Schedule 17.
(2) Subject to regulation 15, no person shall transport or cause to be transported any package or overpack with a Transport Index (TI) greater than 10 except under exclusive use.
(3) No person shall transport or cause to be transported in a conveyance any radioactive material (other than a consignment consisting entirely of LSA-I material) if the total sum of the Transport Indexes (TI) of the packages, overpacks, tanks and freight containers aboard that conveyance is greater than 50, except under exclusive use.
(4) No person shall transport or cause to be transported in a conveyance under exclusive use any packages or overpacks containing fissile material if the total sum of the Transport Index (TI) of such packages or overpacks is greater than 100.
Special arrangement
15.—(1) Radioactive material whose transport is otherwise prohibited by regulation 8 or 13 or prohibited except under exclusive use by regulation 14(2) may be transported under special arrangement with multilateral approval.
(2) Approval may not be given by the Secretary of State to the transport of a consignment by special arrangement unless the provisions for such transport are adequate to ensure that the overall level of safety in transport and in-transit storage is at least equivalent to that which would have been achieved if all the applicable requirements of these Regulations had been met.
(3) Application for approval by the Secretary of State of a shipment under special arrangement shall be made in accordance with the provisions of Schedule 28.
(4) The approval of a shipment by the Secretary of State under this regulation shall be given by the issue of a special arrangement approval certificate.
(5) The approval by the competent authority of another state of a shipment under special arrangement shall be evidenced by a special arrangement approval certificate issued by that competent authority.
Radiation level limits for consignments under exclusive use
16. No person shall transport or cause to be transported any consignment under exclusive use unless the radiation level of the consignment is within the limits specified in Schedule 32.
Special form radioactive material
17.—(1) No person shall transport or cause to be transported any special form radioactive material without unilateral approval of the design for that material.
(2) Where the design for special form radioactive material originates in the United Kingdom, application for the approval of the design by the Secretary of State shall be made in accordance with Schedule 22.
(3) The approval by the Secretary of State of a design for special form radioactive material shall be given by the issue of a special form radioactive material approval certificate.
(4) Where the design for special form radioactive material originated in a state other than the United Kingdom, unilateral approval of the design shall be evidenced by a special form radioactive material approval certificate issued by the competent authority of the state of origin of the design.
Fissile material
18.—(1) No person shall transport or cause to be transported any fissile material, other than fissile material contained in a package falling within Schedule 8, without multilateral approval of the package design for that material.
(2) Application for the approval of a package design for fissile material by the Secretary of State shall be made in accordance with Schedule 24.
(3) The approval by the Secretary of State of a package design for fissile material shall be given by the issue of a certificate, and the approval by another competent authority of a package design for such material shall be evidenced by a certificate issued by that authority.
Type B(U) packages
19.—(1) No person shall transport or cause to be transported any Type B(U) package without unilateral approval of the package design for that package or, in the case of a package containing fissile material and requiring approval under regulation 19(1), multilateral approval of the package design for that package.
(2) Application for approval of a package design for a Type B(U) package by the Secretary of State shall be made in accordance with Schedule 25.
(3) The approval by the Secretary of State of a package design for a Type B(U) package shall be given by the issue of a certificate stating that the package design meets the requirements of Schedule 13.
(4) The approval by a competent authority other than the Secretary of State of a package design for a Type B(U) package shall be evidenced by a certificate issued by that authority stating that the package design meets requirements equivalent to those of Schedule 13.
Type B(M) packages
20.—(1) No person shall transport or cause to be transported any Type B(M) package without multilateral approval of the package design for that package.
(2) Application for approval of a package design for a Type B(M) package by the Secretary of State shall be made in accordance with Schedule 26.
(2) The approval by the Secretary of State of a package design for a Type B(M) package shall be given by the issue of a certificate stating that the package design meets the requirements of Schedule 14.
(4) The approval by a competent authority other than the Secretary of State of a package design for a Type B(M) package shall be evidenced by a certificate issued by that authority stating that the package design meets requirements equivalent to those of Schedule 14.
Contamination levels
21.—(1) The non-fixed contamination on the external surfaces of package shall be kept as low as reasonably practicable and, under conditions likely to be encountered in routine transport, shall not exceed the levels spedified in Table III of Schedule 36.
(2) Except as provided in paragraph (5), the level of non-fixed contamination on the external and the internal surfaces of overpacks, freight containers and tanks shall not exceed the limits specified in Table III of Schedule 36.
(3) A conveyance and equipment used routinely for the transport of radioactive material shall be periodically checked to determine the level of contamination. The frequency of such checks shall be related to the likelihood of contamination and the extent to which radioactive material is transported.
(4) Except as provided in paragraph (5), any conveyance, or equipment, or part thereof which has become contaminated above the limits specified in Table III of Schedule 36 or which shows a radiation level in excess of 5 μ Sv/h, in the course of the transport of radioactive material shall be decontaminated as soon as possible and shall not be re-used unless the non-fixed radioactive contamination does not exceed the levels specified in Table III of Schedule 36, and the radiation level resulting from the fixed contamination on surfaces after decontamination is less than 5 μ Sv/h.
(5) An overpack, freight container or conveyance dedicated to the transport of LSA material or SCO under exclusive use shall be excepted from the requirements of paragraphs (2) and (4) solely with regard to its internal surfaces and only for as long as it remains under that specific exclusive use.
Saving and transitional provision for designs approved under earlier international regulations or under previous Regulations
22.—(1) Subject to the following provisions of this regulation, notwithstanding the provisions of regulations 18 to 20, or regulation 41, packaging whose construction begins before 1st January 1996 and which is manufactured to a design approved by a competent authority under the 1973 edition of the “Regulations for the Safe Transport of Radioactive Material” published by the International Atomic Energy Agency, Vienna 1973, Safety Series No. 6 (STI/PUB 323), the 1973 (as amended) edition of those Regulations, published by the International Atomic Energy Agency, Vienna 1979, Safety Series No. 6 (ISBN 92-0-623179-0), or the Regulations revoked by these Regulations may continue to be used in the transport of radioactive material.
(2) The use of any packaging falling within paragraph (1) shall require multilateral approval.
(3) Before use, any packaging falling within paragraph (1) shall be legibly and durably marked with a serial number assigned in accordance with the provisions of paragraph 3 of Schedule 18.
(4) Paragraph (1) shall not apply where changes which have been made in the design of the packaging or in the nature or quantity of the authorised radioactive contents are likely to affect safety.
Shipments requiring approval
23.—(1) No person shall send or make a shipment of any of the following without multilateral approval of the shipment:
(a)a Type B(M) package especially designed to allow controlled intermittent venting;
(b)a Type B(M) package containing radioactive material with an activity greater than 3×103 A1 or 3×103 A2, as appropriate, or 1000 TBq, whichever is the lower;
(c)packages containing fissile materials if the sum of the Transport Indexes (TI) of the individual packages exceeds 50.
(2) Application for approval by the Secretary of State of a shipment falling within paragraph (1) shall be made in accordance with Schedule 27.
(3) The approval of a shipment by the Secretary of State under this regulation shall be given by the issue of a certificate.
(4) The approval of the competent authority of another state of a shipment shall be evidenced by a certificate issued by that competent authority.
Quality assurance programmes
24.—(1) It shall be the duty of the designer, manufacturer, consignor, carrier and user of any package, packaging or special form radioactive material to establish and maintain an adequate quality assurance programme to ensure that he complies with the requirements of these Regulations in relation to the design, manufacture, testing, documentation, use, maintenance, inspection, transport and in-transit storage of that package, packaging or material.
(2) Where these Regulations require a design or a shipment to be approved by the Secretary of State, no such approval shall be given until the Secretary of State is satisfied as to the adequacy of the quality assurance programme for that design or shipment.
(3) It shall be the duty of the designer, manufacturer, consignor and user of any package design, when so requested by the Secretary of State:
(a)to provide the Secretary of State with facilities to inspect the packaging during construction and use;
(b)to demonstrate to the Secretary of State that the construction methods and materials used for the construction of the packaging are in accordance with the approved design specifications; and
(c)to demonstrate to the Secretary of State that all packagings or special form radioactive material built to an approved design are periodically inspected and, as necessary, repaired and maintained in good condition so that they continue to comply with all the requirements of these Regulations, even after repeated use; and
(d)in the case of a design specification which has been fully implemented, to produce a certificate to that effect to the Secretary of State.
Test procedures
25.—(1) Any test required of a package or special form radioactive material by or under these Regulations shall be made in accordance with the provisions of paragraphs 1 to 5 of Part III, and Part IV, of Schedule 15.
(2) The Secretary of State may require such additional tests as he considers necessary to be made on any package or special form radioactive material required by these Regulations to be tested.
Retention and production of information
26.—(1) The consignor of any consignment shall retain for 2 years from the date on which the transport of that consignment begins any information in his possession derived from measurements of contamination of that consignment.
(2) The designer, manufacturer, owner and user of any package, packaging or special form radioactive material shall retain any information in his possession relating to the design, manufacture, testing, use and maintenance of that package, packaging or material, including (without prejudice to the generality of the foregoing) specifications, calculations, test results, quality assurance programmes and manufacturing records, for so long as the package, packaging or material is in use for the transport of radioactive material.
(3) An inspector may require the designer, manufacturer, owner, consignor or user of any package, packaging or special form radioactive material to produce such information in his possession relating to that package, packaging or material as the inspector may specify.
Transport documents
27.—(1) The consignor of any consignment for transport, other than a consignment comprising excepted packages only or a consignment in respect of which he holds a regular consignment certificate under regulation 28, shall, before the transport begins, give to the carrier of the consignment or, where the consignor is the carrier, to the driver of the vehicle in which the consignment is to be transported, the following transport documents:
(a)a document meeting the requirements of Schedule 20; and
(b)a statement for the carrier in accordance with Schedule 21, covering all the radioactive material in the consignment.
(2) The consignor of a consignment comprising excepted packages only shall, before the transport begins, give to the carrier of the consignment or, where the consignor is the carrier, to the driver of the vehicle in which the consignment is to be transported a document containing the information listed in paragraphs 2, 3, 7 and 15 of Schedule 20 and the declaration listed in paragraph 20 of that Schedule covering all the radioactive material in the consignment.
(3) The consignor of any consignment shall, on request, make available to the carrier for inspection before the loading, unloading or any transshipment of the consignment all certificates of approval required by these Regulations for the transport of the consignment.
(4) No consignor shall prepare a package for shipment until he has in his possession a copy of each certificate of approval required by these Regulations for the shipment, and a copy of the instructions for the proper closing of the package and other preparations for shipment.
(5) The consignor of any consignment falling within paragraph (1) or (2) shall retain a copy of the document described in paragraph (1)(a) or, as the case may be, paragraph (2), or a record of the number and type of packages and the total number of transport indexes for each package type consigned for 2 years from the date on which the transport of that consignment begins.
Transport documents for regular consignments
28.—(1) Where the same packaging with the same radioactive contents is consigned as a package on a regular basis by the same consignor, who is also the carrier of that package, the Secretary of State may issue a regular consignment certificate for that package in accordance with the provisions of Schedule 35.
(2) The consignor of any package in respect of which he holds a current regular consignment ceritificate issued under paragraph (1) shall carry in the vehicle in which the consignment is transported a document containing a statement that the consignment is covered by a regular consignment certificate issued under this regulation, the date and contents of that certificate, a record (including destinations and dates) of all consignments made under that certificate, and an expiry date for the document not later than 3 months after the date of the declaration contained in that certificate.
(3) The consignor of any package falling within paragraph (2) shall retain a copy of the document described in paragraph (2), or a complete record of the contents of that document, for 2 years from the date on which the transport of that package begins.
Production of documents
29. An examiner, an inspector or a constable in uniform may require the carrier of any radioactive material or the driver of any vehicle transporting radioactive material to produce for inspection such documents relating to that material and required by these Regulations as the examiner, inspector or constable may specify.
Marking, labelling and placarding
30.—(1) Except where the consignment consists solely of excepted packages, the consignor of any consignment for transport shall comply with the requirements of paragraphs 1 to 8 of Schedule 18 and the carrier of the consignment shall comply with paragraphs 9 to 16 of that Schedule.
(2) Any placards or plates required by paragraph (1) to be displayed on the vehicle shall be removed when the vehicle is no longer transporting the consignment to which they relate.
Package inspection prior to shipment
31.—(1) No person shall send or make the first shipment of any package unless the package meets the requirements of Schedule 29.
(2) No person shall send or make any shipment of any package unless the package meets the requirements of Schedule 30.
Stowing for transport
32.—(1) The carrier of any consignment shall comply with the requirements of Schedule 33 as to stowing for transport.
(2) No carrier shall load a conveyance for transport in such a way that the radiation level under conditions likely to be encountered in routine transport exceeds 2 mSv/h at any point on, or 0.1 mSv/h at 2 metres from, the external surface of the conveyance.
Notification of competent authorities
33.—(1) No consignor shall make the first shipment of any package requiring the approval of any competent authority under these Regulations until copies of each approval certificate required for the package design of that package have been submitted to the competent authority of each state through or into which the consignment is to be transported.
(2) No consignor shall make any shipment:
(a)of a Type B(U) package containing radioactive material with an activity greater than 3×103 A1 or 3×103 A2, as appropriate, or 1000 TBq, whichever is the lower;
(b)of a Type B(M) package; or
(c)comprising transport under special arrangement, without giving notice in accordance with Schedule 31 to the competent authority of each state through or into which the consignment is to be transported.
Restrictions on travel in vehicles transporting radioactive materials
34.—(1) No person shall travel in a vehicle which is transporting radioactive material unless:
(a)he is the carrier of the material or travels with the permission of the carrier of the material;
(b)he travels in a personnel compartment; and
(c)the material is transported in a goods compartment.
(2) No person except the driver and his assistant or assistants may travel in a vehicle transporting a package, overpack, tank or freight container bearing category II-YELLOW or III-YELLOW labels in accordance with Schedules 18 and 19.
(3) In this regulation reference to travelling in a vehicle transporting a package, overpack, tank or freight container shall, where the vehicle transporting the package, overpack, tank or freight container is a trailer, include reference to the vehicle by which the trailer is drawn.
(4) Except where a vehicle is solely transporting a consignment of excepted packages, to which the provisions of marginal 10 240 (1)(a) shall apply, no person shall travel in a vehicle which is transporting radioactive material unless the vehicle is equipped with firefighting appliances in accordance with marginal 10 240 of ADR.
(5) Paragraph (4) shall not apply where no more than 10 packages are transported in one vehicle at any one time and the sum of the Transport Indexes (TI) for the packages does not exceed 3.
Storage in transit
35. The carrier of any consignment shall comply with the requirements of Schedule 34 as to storage of the consignment in transit.
Duties of driver during transport
36. The driver of a vehicle transporting radioactive material:
(a)shall exercise reasonable care to ensure that none of the material shall in the course of transport be lost, or escape or be unlawfully removed from the vehicle or from any package;
(b)shall not without reasonable cause leave the vehicle unattended in a place to which the public has access;
(c)shall not park the vehicle for a continuous period of longer than one hour in any place, unless when it is parked there is a clear space of at least 2 metres on both sides and at both ends of the vehicle, or unless the only radioactive material in the vehicle is contained in excepted packages, industrial packages or Type A packages bearing category I-WHITE labels in accordance with Schedules 18 and 19; and
(d)keep on the vehicle the transport document issued in accordance with regulation 27 or 28 until the package to which the document relates has been delivered to the consignee.
Undeliverable consignments
37. The carrier of any consignment which proves to be undeliverable shall place it in a safe location, inform the Secretary of State as soon as possible and ask for his approval of further action.
Duties of driver and carrier in the event of an incident
38.—(1) The driver of a vehicle transporting radioactive material who discovers or has reason to believe that:
(a)any of that material has been lost, escaped or unlawfully removed from the vehicle; or
(b)any package carried by the vehicle has been opened or otherwise damaged whether or not the package is still in or on the vehicle; or
(c)the vehicle has overturned (including being turned on its side), or has suffered serious damage, or is involved in a fire,
shall immediately notify the police and the consignor.
(2) A carrier of radioactive material in a vehicle who becomes aware of an incident falling within paragraph (1) shall immediately notify the police, the Secretary of State and the consignor of the incident (unless the driver of the vehicle has already done so) and shall as soon as reasonably practicable arrange for the examination of the load carried in the vehicle so as to determine whether radioactive contamination has occurred, and if it has, arrange for the safe disposal of any part of the load which has been contaminated and cause the vehicle to be decontaminated.
(3) A package which has been involved in an incident falling within paragraph (1) shall not be transported or caused to be transported unless the consignor or his agent has examined it, he is satisfied that it still complies with the requirements of these Regulations and he issues a certificate to that effect.
Notification and registration of serial numbers
39.—(1) The manufacturer of any packaging manufactured after the date of these Regulations to a design approved by the Secretary of State under regulation 18(3), 19(3) or 20(3) or falling within regulation 22(1) shall promptly notify the Secretary of State of the serial number assigned to that packaging.
(2) The owner of any other packaging manufactured to a design approved by the Secretary of State under regulation 18(3), 19(3) or 20(3) or falling within regulation 22(1) shall promptly notify the Secretary of State of the serial number assigned to that packaging.
(3) The Secretary of State shall maintain a register of the serial numbers notified to him under paragraphs (1) and (2).
Evaluation of radiation emissions
40. For the purpose of ensuring that the transport of radioactive material does not cause any injury to health, or any damage to property or to the environment, the Secretary of State shall arrange for periodic assessments to be carried out to evaluate the radiation emissions arising from such transport.
Revocation of existing Regulations
41. The Radioactive Substances (Carriage by Road) (Great Britain) Regulations 1974(8) and the Radioactive Substances (Carriage by Road) (Great Britain) (Amendment) Regulations 1985(9) are hereby revoked.
Signed by the authority of the Secretary of State
Steven Norris
Parliamentary Under Secretary of State,
Department of Transport
20th May 1996
Regulation 2(1)
SCHEDULE 1Determination of A1 and A2 values
1. Values of A1 and A2 for individual radionuclides are those given in Table I of Schedule 36.
2. For individual radionuclides whose identities are known, but which are not listed in Table I of Schedule 36, the determination of the values of A1 and A2 shall require the approval of the Secretary of State or, for international transport, multilateral approval. Alternatively, the values of A1 and A2 in Table II of Schedule 36 may be used without obtaining competent authority approval.
3. In the calculations of A1 and A2 for a radionuclide not in Table I of Schedule 36, a single radioactive decay chain in which the radionuclides are present in their naturally occurring proportions and in which no daughter nuclide has a half-life either longer than 10 days or longer than that of the parent nuclide shall be considered as a single radionuclide, and the activity to be taken into account and the A1 or A2 value to be applied shall be those corresponding to the parent nuclide of that chain. In the case of radioactive decay chains in which any daughter nuclide has a half-life either longer than 10 days or greater than that of the parent nuclide, the parent and such daughter nuclides shall be considered as mixtures of different nuclides.
4. An A value for a mixture of radionuclides whose identities and respective activities are known may be determined as follows:
(a)for special form radioactive material:
(b)for other forms of radioactive material:
where
f(i) is the fraction of activity of nuclide in the mixture and A1(i) and A2(i) are the respective A1 and A2 values for nuclide i.
5. When the identity of each radionuclide is known but the individual activities of some of the radionuclides are not known, the radionuclides may be grouped and the lowest A1 or A2 value, as appropriate, for the radionuclides in each group may be used in applying the formulae in paragraph 4 above. Groups may be based on the total alpha activity and the total beta/gamma activity when these are known, using the lowest A1 or A2 values for the alpha emitters or beta/gamma emitters, respectively.
6. For individual radionuclides or for mixtures of radionuclides for which relevant data are not available, the values shown in Table II of Schedule 36 shall be used.
Regulation 2(1)
SCHEDULE 2General requirements for packages and packaging
1. A package shall be so designed in relation to its mass, volume and shape that it can easily and safely be handled and transported and so that it can be properly secured in or on the conveyance during transport.
2. The design of a package shall be such that any lifting attachments on it will not fail when used in the intended manner and such that, if failure of the attachments should occur, the ability of the package to meet other requirements of these Regulations would not be impaired, taking into account appropriate safety factors to cover snatch lifting.
3. Any attachment or other feature on the outer surface of a package which could be used to lift it but is not designed to support its mass in accordance with paragraph 2 above shall be removed or otherwise rendered incapable of being used during transport.
4. As far as reasonably practicable, packaging shall be so designed and finished that the external surfaces are free from protruding features and can easily be decontaminated.
5. As far as reasonably practicable, the outer layer of a package shall be so designed as to prevent the collection and retention of water.
6. No feature, not forming an integral part of a package, shall be added to the package at the time of transport if it will reduce the safety of the package.
7. A package shall be capable of withstanding the effects of any acceleration, vibration or vibration resonance which may arise under conditions likely to be encountered in routine transport without any deterioration in the effectiveness of the closing devices on the various receptacles or in the integrity of the package as a whole, and in particular nuts, bolts, and other securing devices shall be so designed as to prevent them from becoming loose or being released unintentionally, even after repeated use.
8. The materials of packaging and any components or structures thereof shall be physically and chemically compatible with each other and with the radioactive contents, taking into account their behaviour under irradiation.
9. All valves through which radioactive contents could otherwise escape shall be protected against unauthorised operation.
10. A package shall not contain any other items except such articles and documents as are necessary for the use of the radioactive material. This requirement shall not preclude the transport of LSA material or SCO with other items. The transport of such articles and documents in a package, or of LSA material or SCO with other items may be permitted, provided that there is no interaction between them and the packaging or its contents that would reduce the safety of the package.
11. The transport of other goods with consignments being transported under exclusive use shall be permitted provided the arrangements are controlled only by the consignor and it is not prohibited by any other provision of these Regulations.
12. In addition to the radioactive properties, any other dangerous properties of the contents of a package, such as explosiveness, flammability, pyrophoricity, chemical, toxicity, corrosiveness and (as in the case of UF6) the possibility of the formation of products having dangerous properties by interaction of the contents with the atmosphere or with water shall be taken into account.
13. Except for packages or overpacks transported under exclusive use under the conditions specified in paragraph (a) of Schedule 32 the maximum radiation level at any point on any external surface of a package or overpack shall not exceed 2 mSv/h.
14. The following additional requirements shall apply to overpacks:
(a)Packages of fissile material for which the transport index for nuclear criticality control is 0 and packages of non-fissile radioactive material may be combined together in an overpack for transport, provided that each package contained therein meets the applicable requirements of these Regulations.
(b)No package of fissile material for which the transport index for nuclear criticality control exceeds 0 shall be carried in an overpack.
(c)Only the original consignor of the packages contained within an overpack shall be permitted to use the method of direct measurement of radiation level to determine the Transport Index (TI) of a rigid overpack.
Regulation 2(1)
SCHEDULE 3Requirements for excepted packages of limited activity
1. The package shall comply with paragraphs 1 to 9 and 12 of Schedule 2.
2. If the package contains fissile material it must fall within one of the paragraphs of Schedule 8.
3. The radiation level at any point of the external surface of the package shall not exceed 5 μ Sv/h.
4. The non-fixed contamination on any external surface of the package shall not exceed the levels specified in Table III of Schedule 36.
5. Radioactive material which is not enclosed in or forming a component part of an instrument or manufactured article may be transported in an excepted package if the activity of the material does not exceed the limit specified in column 4 of Table IV of Schedule 36 for material in that physical state.
6. The package shall retain its contents under conditions likely to be encountered in routine transport.
7. The package shall bear the marking “Radioactive” on an internal surface in such a manner that a warning of the presence of radioactive material is visible on opening the package.
8. If the gross mass of the package exceeds 50 kg, the permissible gross mass shall be legibly and durably marked on the outside of the packaging.
Regulation 2(1)
SCHEDULE 4Requirements for excepted packages containing instruments or other manufactured articles
1. The radioactive material shall be enclosed in or form a component part of an instrument or other manufactured article.
2. The package and its packaging shall comply with Schedule 3.
3. The activity of the instruments or articles, and of the package, shall not exceed the limits specified in columns 2 and 3 respectively of Table IV of Schedule 36.
4. The radiation level at 10 cm from any point on the external surface of any unpackaged instrument or article shall not exceed 0.1 mSv/h.
5. Each instrument or article (except radioluminescent time-pieces or devices) shall bear the marking “Radioactive”.
6. In the case of a manufactured article in which the sole radioactive material is unirradiated natural uranium, unirradiated depleted uranium or unirradiated natural thorium, the outer surface of the uranium or thorium must be enclosed in an inactive sheath made of metal or some other substantial material.
Regulation 2(1)
SCHEDULE 5Requirements for excepted packages which are empty packagings
1. The package and its packaging shall comply with Schedule 3.
2. The package shall be in a well maintained condition and securely closed.
3. The outer surface of any uranium or thorium in the structure of the package shall be covered with an inactive sheath made of metal or some other substantial material.
4. The level of internal non-fixed contamination shall not exceed one thousand times the levels specified in Table III of Schedule 36.
5. Any labels which may have been displayed on the package in conformity with paragraph 5 of Schedule 18, must no longer be visible.
Regulation 2(1)
SCHEDULE 6Requirements for special form radioactive material
1. Special form radioactive material shall have at least one dimension not less than 5 mm.
2. Special form radioactive material shall be of such a nature or shall be so designed that if it is subjected to the tests specified in Part II of Schedule 15, it meets the following requirements:
(a)it would not break or shatter under the impact, percussion and bending tests in paragraphs 4, 5, 6 and 8(a) of that Part of that Schedule as applicable;
(b)it would not melt or disperse in the heat test in paragraphs 7 and 8(b) of that Part of that Schedule as applicable; and
(c)the activity in the water from the leaching tests specified in paragraphs 9 and 10 of that Part of that Schedule would not exceed 2 kBq; or alternatively for sealed sources, the leakage rate for the volumetric leakage assessment test specified in the ISO leak test document would not exceed the applicable acceptance threshold acceptable to the Secretary of State.
3. When a sealed capsule constitutes part of the special form radioactive material, the capsule shall be so constructed that it can be opened only by destroying it.
Regulation 2(1)
SCHEDULE 7Requirements for packages containing fissile material
1. Fissile material shall be packaged and shipped in such a manner that subcriticality is maintained under conditions likely to be encountered during normal and accident conditions of transport. The following contingencies shall be considered:
(a)Water leaking into or out of packages;
(b)The loss of efficiency of built-in neutron absorbers or moderators;
(c)Possible rearrangement of the radioactive contents either within the package or as a result of loss from the package;
(d)Reduction of spaces between packages or radioactive contents;
(e)Packages becoming immersed in water or buried in snow; and
(f)Possible effects of temperature changes.
2. A packaging for fissile material shall be so designed that, if it were subjected to the tests specified in paragraphs 6–11 of Part III of Schedule 15:
(a)Neither the volume nor any spacing on the basis of which nuclear criticality control for the purpose of paragraph 6(a) has been assessed would suffer more than 5% reduction, and the construction of the packaging would prevent the entry of a 10 cm cube; and
(b)Water would not leak into or out of any part of the package unless water in-leakage into or out-leakage from that part, to the optimum foreseeable extent, has been assumed for the purposes of paragraphs 5 and 6; and
(c)The configuration of the radioactive contents and the geometry of the containment system would not be altered so as to increase the neutron multiplication significantly.
3. For the purposes of this Schedule the following words have the following meanings:
“undamaged”, in relation to a package, means the condition of the package as it is designed to be presented for transport; and
“damaged”, in relation to a package, means the evaluated or demonstrated condition of the package if it had been subjected to whichever of the following combination of tests is the more limiting—
(a)
the tests specified in paragraphs 6–11 of Part III of Schedule 15 followed by the tests specified in paragraphs 13 to 15 of that Part of that Schedule and completed by the tests specified in paragraphs 18–20 of that Part of that Schedule (the mechanical test of paragraph 14 of that Part of that Schedule shall be that required by paragraph 8 of Schedule 12); or
(b)
the tests specified in paragraphs 6–11 of Part III of Schedule 15 followed by the test in paragraph 16 of Part III of Schedule 15.
4. In determining the subcriticality of individual packages in isolation for the purposes of this Schedule, it shall be assumed that water can leak into or out of all void spaces of the package, including those within the containment system. However, if the design incorporates special features to prevent such leakage of water into or out of certain void spaces, even as a result of human error, absence of leakage may be assumed in respect of those void spaces. Special features shall include the following:
(a)Multiple high standard water barriers, each of which would remain leaktight if the package were damaged; a high degree of quality control in the production and maintenance of packagings; and special tests to demonstrate the closure of each package before shipment; or
(b)Other features given multilateral approval.
5. The individual package damaged or undamaged shall be subcritical under the conditions specified in paragraphs 3 and 4 taking into account the physical and chemical characteristics including any change in those characteristics which could occur when the package is damaged and with the conditions of moderation and reflection as specified below:
(a)For all material within the containment system: the material arranged in the containment system
(i)in the configuration and moderation that results in maximum neutron multiplication; and
(ii)with close reflection of the containment system by water 20 cm thick (or equivalent) or such greater reflection of the containment system as may additionally be provided by the surrounding material of the packaging; and, in addition
(b)If any part of the material escapes from the containment system: that material arranged in
(i)the configuration and moderation that results in maximum neutron multiplication; and
(ii)with close reflection of that material by water 20 cm thick (or equivalent).
6. An array of packages shall be subcritical. A number, “N” shall be derived assuming that if packages were stacked together in any arrangement with the stack closely reflected on all sides by water 20 cm thick (or its equivalent) both of the following conditions would be satisfied:
(a)Five times “N” undamaged packages without anything between the packages would be subcritical; and
(b)Two times “N” damaged packages with hydrogenous moderation between packages to the extent which results in the greatest neutron multiplication would be subcritical.
7. In evaluating the subcriticality of fissile material in its transport configuration, the following shall apply:
(a)The determination of subcriticality for irradiated fissile material may be based on the actual irradiation experience, taking into account significant variations in composition.
(b)For irradiated fissile material of unknown irradiation experience the following assumptions shall be made in determining subcriticality:
(i)If its neutron multiplication decreases with irradiation, the material shall be regarded as unirradiated;
(ii)If its neutron multiplication increases with irradiation, the material shall be regarded as irradiated to the point corresponding to the maximum neutron multiplication; and
(c)For unspecified fissile material, such as residues or scrap, whose fissile composition, mass, concentration, moderation ratio or density is not known or cannot be identified, the assumption shall be made in determining subcriticality that each parameter that is not known has the value which gives the maximum neutron multiplication under credible conditions of transport.
Regulations 8 and 18
SCHEDULE 8Packages excepted from the requirements for fissile material
1. A package containing individually not more than 15 g of fissile material, provided that its smallest external dimension is not less than 10 cm. For unpackaged material, the quantity limitation applies to the consignment being carried in or on the conveyance.
2. A package containing homogeneous hydrogenous solutions or mixtures satisfying the conditions listed in Table XII of Schedule 36. For unpackaged material, the quantity limitations in Table XII of Schedule 36 shall apply to the consignment being transported in or on the conveyance.
3. A package containing uranium enriched in uranium-235 to a maximum of 1% by mass, and with a total plutonium and uranium-233 content not exceeding 1% of the mass of uranium-235, provided that the fissile material is distributed essentially homogeneously throughout the material; provided also that if uranium-235 is present in metallic, oxide, or carbide forms, it does not form a lattice arrangement within the package.
4. A package containing not more than 5 g of fissile material in any 10 litre volume, provided that the radioactive material is contained in packages which will maintain the limitations on fissile material distribution under conditions likely to be encountered during routine transport.
5. A package containing individually not more than 1 kg of total plutonium, of which not more than 20% by mass may consist of plutonium-239, plutonium-241, or any combination of those radionuclides.
6. A package containing liquid solutions of uranyl nitrate enriched in uranium-235 to a maximum of 2% by mass, with a total plutonium and uranium-233 content not exceeding 0.1% of the mass of uranium-235, and with a minimum nitrogen to uranium atomic ratio (N/U) of 2.
Regulation 2(1)
SCHEDULE 9Requirements for industrial packages
PART IRequirements for an industrial package Type 1 (IP-1)
An industrial package Type 1 (IP-1) is a packaging, tank or freight container containing LSA material or an SCO that meets the requirements of Schedule 2 and—
(a)has a smallest overall external dimension of not less than 10 cm., and
(b)meets the requirements of Schedule 10.
PART IIRequirements for an industrial package Type 2 (IP-2)
An industrial package Type 2 (IP-2) is a packaging, tank or freight container containing LSA material or an SCO that meets the requirements of Schedules 2 and 10 and—
(a)in the case of a package, its smallest overall external dimension is not less than 10 cm, and, if it were subjected to the tests specified in paragraphs 9 and 10 of Part III of Schedule 15 or alternatively to the tests specified for packaging group III in the Dangerous Goods Recommendations, it would prevent:
(i)the loss or dispersal of the radioactive contents; and
(ii)the loss of shielding integrity which would result in more than a 20% increase in the radiation level at any external surface of the package; or
(b)in the case of a tank container it is:
(i)designed to conform to the standards prescribed in Chapter 12 of the Dangerous Goods Recommendations, or other requirements at least equivalent to those standards, and are capable of withstanding a test pressure of 265 kPa; and
(ii)it is designed so that any additional shielding which is provided shall be capable of withstanding the static and dynamic stresses resulting from normal handling and routine conditions of transport and of preventing a loss of shielding which would result in more than a 20% increase in the radiation level at any external surface of the tank container; or
(c)in the case of a tank other than a tank container, it is used for transporting LSA-I or LSA-II liquids or gases as prescribed in Table V of Schedule 36, and conforms to standards at least equivalent to those required in the case of tank containers by paragraph (b); or
(d)in the case of a freight container, it is designed to conform to the requirements prescribed in the ISO freight containers document, and if it were subjected to the tests prescribed in that document it would prevent:
(i)loss or dispersal of the radioactive contents; and
(ii)loss of shielding which would result in more than a 20% increase in the radiation level at any external surface of the freight container; and
(e)in the case of a package containing uranium hexafloride complies with the provisions of marginal 3771 of ADR.
PART IIIRequirements for an industrial package Type 3 (IP-3)
An industrial package Type 3 (IP-3) is a packaging, tank or freight container containing LSA material or an SCO that meets the requirements of Schedules 2 and 10, and—
(a)in the case of a package it meets the requirements of paragraphs 2 to 15 of Schedule 11; or
(b)in the case of a tank container,
(i)it is designed to conform to the standards prescribed in Chapter 12 of the Dangerous Goods Recommendations, or other requirements at least equivalent to those standards, and are capable of withstanding a test pressure of 265 kPa; and
(ii)it is designed so that any additional shielding which is provided shall be capable of withstanding the static and dynamic stresses resulting from normal handling and routine conditions of transport and of preventing a loss of shielding which would result in more than a 20% increase in the radiation level at any external surface of the tank container; or
(c)in the case of a tank other than a tank container, it is used for transporting LSA-I or LSA-II liquids or gases as prescribed in Table V of Schedule 36, and conforms to standards at least equivalent to those required in the case of tank containers by paragraph (b) above; or
(d)in the case of a freight container, it is designed to conform to the requirements prescribed in the ISO freight containers document, and if it were subjected to the tests prescribed in that document it would prevent:
(i)loss or dispersal of the radioactive contents; and
(ii)loss of shielding which would result in more than a 20% increase in the radiation level at any external surface of the freight container; and
(e)in the case of a package containing uranium hexafloride complies with the provisions of marginal 3771 of ADR.
Regulation 8
SCHEDULE 10Additional requirements and controls for transport of LSA material and SCO in industrial packages and requirements and controls for transport of unpackaged LSA material and SCO
1. The quantity of LSA material or SCO in a single industrial package Type 1 (IP-1), industrial package Type 2 (IP-2), industrial package Type 3 (IP-3), or object or collection of objects, whichever is appropriate, shall be so restricted that the external radiation level at 3 metres from the unshielded material or object or collection of objects does not exceed 10 mSv/h.
2. LSA material and SCO which is or contains fissile material shall meet the applicable requirements of Schedule 7.
3. LSA material and SCO in groups LSA-I and SCO-I may be transported unpackaged under the following conditions:
(a)all unpackaged material other than ores containing only naturally occurring radionuclides shall be transported in such a manner that under conditions likely to be encountered in routine transport there will be no escape of the contents from the conveyance nor will there be any loss of shielding;
(b)each conveyance shall be under exclusive use, except when only transporting SCO-I on which the contamination on the accessible and the inaccessible surfaces is not greater than ten times the applicable level specified in table III of Schedule 36; and
(c)for SCO-I where it is suspected that non-fixed contamination exists on inaccessible surfaces in excess of the values specified in paragraph (i) of the definition of “SCO-I” in regulation 2(1) measures shall be taken to ensure that the radioactive material is not released into the conveyance.
4. LSA material and SCO, except as otherwise specified in paragraph 3, shall be packaged in accordance with the package integrity levels specified in Table V of Schedule 36. LSA-II, LSA-III and SCO-II shall not be transported unpackaged.
5. The total activity of LSA material and SCO in any single conveyance shall not exceed the limits shown in Table VI of Schedule 36.
Regulation 2(1)
SCHEDULE 11Requirements for Type A packages
1. A Type A package shall meet the requirements of Schedule 2 and of this Schedule.
2. The smallest overall external dimension of the package shall not be less than 10 cm.
3. The outside of the package shall incorporate a feature such as a seal, which is not readily breakable and which, while intact, will be evidence that it has not been opened.
4. Any tie-down attachments on the package shall be so designed that, under both normal and accident conditions of transport, the forces in those attachments shall not impair the ability of the package to meet the requirements of these Regulations.
5. The design of the package shall take into account temperatures ranging from −40°C to 70°C, giving special attention to freezing temperatures for liquid contents and to the potential degradation of packaging materials within the given temperature range.
6. The design, fabrication and manufacturing techniques shall be in accordance with national or international standards, or other requirements, acceptable to the Secretary of State.
7. The design shall include a containment system securely closed by a positive fastening device which cannot be opened unintentionally or by a pressure which may arise within the package.
8. Special form radioactive material may be considered as a component of the containment system.
9. If the containment system forms a separate unit of the package, it shall be capable of being securely closed by a positive fastening device which is independent of any other part of the packaging.
10. The design of any component of the containment system shall take into account, where applicable, the radiolytic decomposition of liquids and other vulnerable materials and the generation of gas by chemical reaction and radiolysis.
11. The containment system shall retain its radioactive contents under a reduction of ambient pressure to 25 kPa.
12. All valves, other than pressure relief valves, shall be provided with an enclosure to retain any leakage from the valve.
13. A radiation shield which encloses a component of the package specified as a part of the containment system shall be so designed as to prevent the unintentional release of that component from the shield. Where the radiation shield and such component within it form a separate unit, the radiation shield shall be capable of being securely closed by a positive fastening device which is independent of any other packaging structure.
14. A package shall be so designed that if it were subjected to the tests specified in paragraphs 6 to 11 of Part III of Schedule 15, it would prevent:
(a)Loss or dispersal of the radioactive contents; and
(b)Loss or shielding integrity which would result in more than a 20% increase in the radiation level at any external surface of the package.
15. The design of a package intended for liquid radioactive material shall make provision for ullage to accommodate variations in the temperature of the contents, dynamic effects and filling dynamics.
16. A Type A package designed to contain liquids shall, in addition:
(a)be adequate to meet the conditions specified in paragraph 14 if the package is subjected to the tests specified in paragraph 12 of Part III of Schedule 15; and
(b)either
(i)be provided with sufficient absorbent material to absorb twice the volume of the liquid contents. Such absorbent material must be suitably positioned so as to contact the liquid in the event of leakage; or
(ii)be provided with a containment system composed of primary inner and secondary outer containment components designed to ensure retention of the liquid contents, within the secondary outer containment components, even if the primary inner components leak.
17. In the case of a Type B package which has been designed and approved for liquids and which is consigned as a Type A package containing the same liquids and not exceeding the A2 limit for those liquids, the requirements of paragraph 16(b) above shall not apply.
18. A package designed for compressed gases or uncompressed gases shall prevent loss or dispersal of the radioactive contents if the package were subjected to the tests specified in paragraph 12 of Part III of Schedule 15. A package designed for contents not exceeding 40 TBq of tritium or for noble gases in gaseous form with contents not exceeding A2 shall be excepted from this requirement.
19. In the case of a package containing uranium hexafloride the package shall comply with the provisions of marginal 3771 of ADR.
Regulation 2(1)
SCHEDULE 12General requirements for Type B packages
1. A Type B package shall meet the requirements of Schedule 2, and of paragraphs 2 to 13, and 15, of Schedule 11, and of paragraph 14 of Schedule 11 except as specified in paragraph 8(a) below, and the requirements of this Schedule.
2. A package shall be so designed that, if it were subjected to the tests in paragraphs 13–16 of Part III of Schedule 15, it would retain sufficient shielding to ensure that the radiation level at 1 metre from the surface of the package would not exceed 10 mSv/h with the maximum radioactive contents which the package is designed to carry.
3. A package shall be so designed that, under the ambient conditions specified in paragraphs 5 and 6, heat generated within the package by the radioactive contents shall not, under normal conditions of transport, as demonstrated by the tests in paragraphs 6–11 of Part III of Schedule 15, adversely affect the package in such a way that it would fail to meet the applicable requirements for containment and shielding if left unattended for a period of one week. Particular attention shall be paid to the effects of heat which may:
(a)alter the arrangement, the geometrical form or the physical state of the radioactive contents or, if the radioactive material is enclosed in a can or receptacle (for example, clad fuel elements), cause the can, receptacle or radioactive material to deform or melt; or
(b)lessen the efficiency of the packaging through differential thermal expansion or cracking or melting of the radiation shielding material; or
(c)in combination with moisture, accelerate corrosion.
4. A package shall be so designed that, under the ambient condition specified in paragraph 5, the temperature of its accessible surfaces shall not exceed 50 °C, unless the package is transported under exclusive use.
5. In applying paragraphs 3 and 4, the ambient temperature shall be assumed to be 38°C.
6. In applying paragraph 3 above, the solar insolation conditions shall be assumed to be as specified in Table XI of Schedule 36.
7. A package which includes thermal protection for the purpose of satisfying the requirements of the thermal test specified in paragraph 15 of Part III of Schedule 15 shall be so designed that such protection will remain effective if the package is subjected to the tests specified in paragraphs 6–11 and 14(a) and (b) or 14(b) and (c) of Part III of Schedule 15, as appropriate. Any such protection on the exterior of the package shall not be rendered ineffective by conditions likely to be encountered in routine handling or routine transport, or in accident conditions of transport, and which are not simulated in the tests referred to above, e.g., by ripping, cutting, skidding, abrasion, or rough handling.
8. A package shall be so designed that, if it were subjected to:
(a)the tests specified in paragraphs 6–11 of Part III of Schedule 15, it would restrict the loss of radioactive contents to not more than 10−66 A2 per hour; and
(b)the tests specified in paragraphs 13, 14(b), 15 and 16 of that Part of that Schedule and the test in paragraph—
(i)14(c) of that Part of that Schedule, when the package has a mass not greater than 500 kg, an overall density not greater than 1000 kg/m3 based on the external dimensions, and radioactive contents greater than 1000 A2 not as special form radioactive material, or
(ii)14(a) of that Part of that Schedule for all other packages,
it would restrict the accumulated loss of radioactive contents in a period of one week to not more than 10 A2 for krypton-85 and not more than A2 for all other radionuclides.
Where mixtures of different radionuclides are present, the provisions of paragraphs 4 to 6 of Schedule 1 shall apply except that for krypton-85 an effective A2 value equal to 100 TBq may be used.
For the purposes of sub-paragraph (a) above, the evaluation shall take into account the requirements of Regulation 21.
9. In the case of a package containing uranium hexafloride the package shall comply with the provisions of marginal 3771 of ADR.
Regulations 2(1) & 19
SCHEDULE 13Requirements of Type B(U) packages
1. A Type B(U) package shall meet the requirements of Schedule 12 and the requirements of this Schedule.
2. A package for irradiated nuclear fuel with activity greater than 37 PBq shall be so designed that if it were subjected to the water immersion test specified in paragraph 17 of Part III of Schedule 15, there would be no rupture of the containment system.
3. Compliance with the permitted activity release limits shall depend neither upon filters nor upon a mechanical cooling system.
4. A package shall not include a pressure relief system from the containment system which would allow the release of radioactive material to the environment under the conditions of the tests specified in paragraphs 6–11 and 13–16 of Part III of Schedule 15.
5. A package shall be so designed that if it were at the maximum normal operating pressure and it were subjected to the tests specified in paragraphs 6–11 and 13–16 of Part III of Schedule 15, the level of strains in the containment system would not attain values which would adversely affect the package in such a way that it would fail to meet the applicable requirements.
6. A package shall not have a maximum normal operating pressure in excess of a gauge pressure of 700 kPa.
7. The maximum temperature of any surface readily accessible during transport of a package shall not exceed 85°C in the absence of insolation under the ambient condition specified in paragraph 5 of Schedule 12 and the package shall be carried under exclusive use, as specified in paragraph 4 of Schedule 12, if the maximum temperature exceeds 50°C. Account may be taken of barriers or screens to give protection to transport workers without the need for the barriers or screens being subject to any test.
8. A package shall be designed for an ambient temperature range from −40°C to +38°C.
Regulations 2(1) & 20
SCHEDULE 14Requirements for Type B(M) packages
1. A Type B(M) package shall meet the requirements of Schedule 12, except that for packages to be transported between the United Kingdom and another state, conditions other than those given in paragraphs 5 and 6 of that Schedule and paragraph 8 of Schedule 13 may be assumed with the approval of the Secretary of State and the competent authority of any state through or to which it is be transported. As far as reasonably practicable the requirements of Schedule 13 shall be met.
2. Intermittent venting of Type B(M) packages may be permitted during transport, provided that the operational controls for venting are acceptable to the Secretary of State.
Regulations 2(1) & 25
SCHEDULE 15TEST PROCEDURES
PART I—TEST FOR LSA-III MATERIAL
Solid material representing no less than the entire contents of the package shall be immersed for 7 days in water at ambient temperature. The volume of water to be used in the test shall be sufficient to ensure that at the end of the 7-day test period, the free volume of the unabsorbed and unreacted water remaining shall be at least 10% of the volume of the solid test sample itself. The water shall have an initial pH of 6–8 and a maximum conductivity of 1 mS/m at 20°C. The total activity of the free volume of water shall be measured following the 7-day immersion of the test sample.
PART II—TESTS FOR SPECIAL FORM RADIOACTIVE MATERIAL
General
1. The tests which shall be performed on specimens that comprise or simulate special form radioactive material are: the impact test, the percussion test, the bending test, and the heat test.
2. A different specimen may be used for each of the tests.
3. After each test specified in paragraphs 4–8 below, a leaching assessment or volumetric leakage test shall be performed on the specimen by a method no less sensitive than the methods given in paragraph 9 below for indispersable solid material and paragraph 10 below for encapsulated material.
Test methods
4. Impact test: The specimen shall drop onto the target from a height of 9 metres. The target shall be a flat, horizontal surface of such a character that any increase in its resistance to displacement or deformation upon impact by the specimen would not significantly increase the damage to the specimen.
Percussion test:
5. The specimen shall be placed on a sheet of lead which is supported by a smooth solid surface and struck by the flat face of a steel billet so as to produce an impact equivalent to that resulting from a free drop of 1.4 kg through 1 metre. The flat face of the billet shall be 25 mm in diameter with the edges rounded off to a radius of (3.0±0.3)mm. The lead, of hardness number 3.5 to 4.5 on the Vickers scale and not more than 25 mm thick, shall cover an area greater than that covered by the specimen. A fresh surface of lead shall be used for each impact. The billet shall strike the specimen so as to cause maximum damage.
Bending test:
6. The test shall apply only to long, slender sources with both a minimum length of 10 cm and a length to minimum width ratio of not less than 10. The specimen shall be rigidly clamped in a horizontal position so that one half of its length protrudes from the face of the clamp. The orientation of the specimen shall be such that the specimen will suffer maximum damage when its free end is struck by the flat face of a steel billet. The billet shall strike the specimen so as to produce an impact equivalent to that resulting from a free vertical drop of 1.4 kg through 1 metre. The flat face of the billet shall be 25 mm in diameter with the edges rounded off to a radius of (3.0±0.3)mm.
Heat test:
7. The specimen shall be heated in air to a temperaturte of 800°C and held at that temperature for a period of 10 minutes and shall then be allowed to cool.
8. Specimens that comprise or simulate radioactive material enclosed in a sealed capsule may be excepted from:
(a)The tests prescribed in paragraphs 4 and 6 provided they are alternatively subjected to the Class 4 impact test prescribed in the ISO classification document; and
(b)The test prescribed in paragraph 7 provided they are alternatively subjected to the Class 6 temperature test specified in the ISO classification document.
Leaching and volumetric leakage assessment methods
9. For specimens which comprise or simulate indispersable solid material, a leaching assessment shall be performed as follows:
(a)The specimen shall be immersed for 7 days in water at ambient temperature. The volume of water to be used in the test shall be sufficient to ensure that at the end of the 7-day test period, the free volume of the unabsorbed and unreacted water remaining shall be at least 10% of the volume of the solid test sample itself. The water shall have an initial pH of 6–8 and a maximum conductivity of 1 mS/m at 20°C.
(b)The water with specimen shall then be heated to a temperature of (50±5)°C and maintained at this temperature for 4 hours.
(c)The activity of the water shall then be determined.
(d)The specimen shall then be stored for at least 7 days in still air of relative humidity not less than 90% at 30°C.
(e)The specimen shall then be immersed in water of the same specification as in (a) above and the water with the specimen heated to (50±5)°C and maintained at this temperature for 4 hours.
(f)The activity of the water shall then be determined.
10. For specimens which comprise or simulate radioactive material enclosed in a sealed capsule, either a leaching assessment or a volumetric leakage assessment shall be performed as follows:
(a)the leaching assessment shall consist of the following steps:
(i)The specimen shall be immersed in water at ambient temperature. The water shall have an initial pH of 6–8 with a maximum conductivity of 1 mS/m at 20°C.
(ii)The water and specimen shall be heated to a temperature of (50±5)°C and maintained at this temperature for 4 hours.
(iii)The activity of the water shall then be determined.
(iv)The specimen shall then be stored for at least 7 days in still air at a temperature not less than 30°C.
(v)The process in (i), (ii) and (iii) shall be repeated.
(b)The alternative volumetric leakage assessment shall comprise any of the tests prescribed in the ISO leak test document which are acceptable to the Secretary of State.
PART III—TESTS FOR PACKAGES
Preparation of a specimen for testing
1. All specimens shall be examined before testing in order to identify and record faults or damage including the following:
(a)divergence from the design;
(b)defects in construction;
(c)corrosion or other deterioration; and
(d)distortion of features.
2. The containment system of the package shall be clearly specified.
3. The external features of the specimen shall be clearly identified so that reference may be made simply and clearly to any part of such specimen.
Testing the integrity of the containment system, shielding and criticality safety
4. After the applicable tests specified in paragraphs 6–20 below:
(a)Faults and damage shall be identified and recorded;
(b)It shall be determined whether the integrity of the containment system and shielding has been retained to the extent required in Schedules 2, 7, 9, 11, 12 and 13 for the packaging under test; and
(c)For packages containing fissile material, it shall be determined whether the assumptions made in paragraphs 1 to 6 of Schedule 7 regarding the most reactive configuration and degree of moderation of the fissile contents, of any escaped material, and of one or more packages are valid.
Target for drop tests
5. The target for the drop tests specified in paragraphs 9, 12(a) and 14 shall be a flat, horizontal surface of such a character that any increase in its resistance to displacement or deformation upon impact by the specimen would not significantly increase the damage to the specimen.
Test for demonstrating ability to withstand normal conditions of transport
6. The tests are: the water spray test, the free drop test, the stacking test, and the penetration test. Specimens of the package shall be subjected to the free drop test, the stacking test and the penetration test, preceded in each case by the water spray test. One specimen may be used for all the tests, provided that the requirements of paragraph 7 are fulfilled.
7. The time interval between the conclusion of the water spray test and the succeeding test shall be such that the water has soaked in to the maximum extent, without appreciable drying of the exterior of the specimen. In the absence of any evidence to the contrary, this interval shall be taken to be two hours if the water spray is applied from four directions simultaneously. No time interval shall elapse, however, if the water spray is applied from each of the four directions consecutively.
Water spray test:
8. The specimen shall be subjected to a water spray test that simulates exposure to rainfall of approximately 5 cm per hour for at least one hour.
Free drop test:
9. The specimen shall drop on to the target so as to suffer maximum damage in respect of the safety features to be tested and—
(a)The height of drop measured from the lowest point of the specimen to the upper surface of the target shall be not less than the distance specified in Table XIII of Schedule 36 for the applicable mass. The target shall be as defined in paragraph 5 above.
(b)For packages containing fissile material the free drop test specified above shall be preceded by a free drop from a height of 0.3 metres on to each corner or, in the case of a cylindrical package, on to each of the quarters of each rim.
(c)For rectangular fibreboard or wood packages not exceeding a mass of 50 kg, a separate specimen shall be subjected to a free drop on to each corner from a height of 0.3 metres.
(d)For cylindrical fibreboard packages not exceeding a mass of 100 kg, a separate specimen shall be subjected to a free drop on to each of the quarters of each rim from a height of 0.3 metres.
Stacking test:
10. Unless the shape of the packaging effectively prevents stacking, the specimen shall be subjected, for a period of 24 hours, to a compressive load equal to the greater of the following:
(a)The equivalent of 5 times the mass of the actual package; and
(b)The equivalent of 13 kPa multiplied by the vertically projected area of the package.
The load shall be applied uniformly to two opposite sides of the specimen, one of which shall be the base on which the package would normally rest.
Penetration test:
11. The specimen shall be placed on a rigid, flat, horizontal surface which will not move significantly while the test is carried out.
(a)A bar of 3.2 cm in diameter with a hemispherical end and a mass of 6 kg shall be dropped and directed to fall, with its longitudinal axis vertical, on to the centre of the weakest part of the specimen, so that, if it penetrates sufficiently far, it will hit the containment system. The bar shall not be significantly deformed by the test performance.
(b)The height of drop of the bar measured from its lower end to the intended point of impact on the upper surface of the specimen shall be 1 metre.
Additional tests for Type A packages designed for liquids and gases
12. A specimen or separate specimens shall be subjected to each of the following tests unless it can be demonstrated that one test is more severe for the specimen in question than the other, in which case one specimen shall be subjected to the more severe test:
(a)Free drop test: The specimen shall drop on to the target so as to suffer the maximum damage in respect of containment. The height of the drop measured from the lowest part of the specimen to the upper surface of the target shall be 9 metres. The target shall be as defined in paragraph 5 above.
(b)Penetration test: The specimen shall be subjected to the test specified in paragraph 11 above except that the height of drop shall be increased to 1.7 metres from the 1 metre specified in paragraph 11(b).
Tests for demonstrating ability to withstand accident conditions of transport
13. The specimen shall be subjected to the cumulative effects of the tests specified in paragraphs 14 and 15, in that order. Following these tests, either this specimen or a separate specimen shall be subjected to the effect(s) of the water immersion test(s) as specified in paragraph 16 and, if applicable, paragraph 17.
Mechanical test:
14. The mechanical test consists of three different drop tests. Each specimen shall be subjected to the applicable drops as specified in paragraph 8 of Schedule 12. The order in which the specimen is subjected to the drops shall be such that, on completion of the mechanical test, the specimen shall have suffered such damage as will lead to the maximum damage in the thermal test which follows.
(a)For drop I, the specimen shall be dropped on to the target so as to suffer the maximum damage, and the height of the drop measured from the lowest point of the specimen to the upper surface of the target shall be 9 metres. The target shall be as defined in paragraph 5 above.
(b)For drop II, the specimen shall be dropped so as to suffer the maximum damage on to a bar rigidly mounted perpendicularly on the target. The height of the drop measured from the intended point of impact of the specimen to the upper surface of the bar shall be 1 metre. The bar shall be of solid mild steel of circular section, (15.0±0.5)cm in diameter, and 20 cm long unless a longer bar would cause greater damage, in which case a bar of sufficient length to cause maximum damage shall be used. The upper end of the bar shall be flat and horizontal with its edges rounded off to a radius of not more than 6 mm. The target on which the bar is mounted shall be as described in paragraph 5.
(c)For drop III, the specimen shall be subjected to a dynamic crush test by positioning the specimen on the target so as to suffer maximum damage by the drop of a 500 kg mass from 9 metres on to the specimen. The mass shall consist of a solid mild steel plate 1 metre×1 metre and shall fall in a horizontal attitude. The height of the drop shall be measured from the underside of the plate to the highest point of the specimen. The target on which the specimen rests shall be as defined in paragraph 5.
Thermal test:
15. The thermal test shall consist of the exposure of a specimen fully engulfed, except for a simple support system, in a hydrocarbon fuel/air fire of sufficient extent and in sufficiently quiescent ambient conditions to provide an average emissivity coefficient of at least 0.9, with an average flame temperature of at least 800°C for a period of 30 minutes, or shall be any other thermal test which provides the equivalent total heat input to the package. The fuel source shall extend horizontally at least 1 metre, and shall not extend more than 3 metres, beyond any external surface of the specimen, and the specimen shall be positioned 1 metre above the surface of the fuel source. After the cessation of external heat input, the specimen shall not be cooled artifically and any combustion of materials of the specimen shall be allowed to proceed naturally. For demonstration purposes, the surface absorptivity coefficient shall be either 0.8 or that value which the package may be demonstrated to possess if exposed to the fire specified; and the convective coefficient shall be that value which the designer can justify if the package were exposed to the fire specified. With respect to the initial conditions for the thermal test, the demonstration of compliance shall be based upon the assumption that the package is in equilibrium at an ambient temperature of 38°C. The effects of solar radiation may be neglected prior to and during the tests, but must be taken into account in the subsequent evaluation of the package response.
Water immersion test:
16. The specimen shall be immersed under a head of water of at least 15 metres for a period of not less than eight hours in the attitude which will lead to maximum damage. For demonstration purposes, an external gauge pressure of at least 150 kPa shall be considered to meet these conditions.
Water immersion test for packages containing irradiated nuclear fuel
17. The specimen shall be immersed under a head of water of at least 200 metres for a period of not less than one hour. For demonstration purposes, an external gauge pressure of at least 2 MPa shall be considered to meet these conditions.
Water leakage test for packages containing fissile material
18. Packages for which water in-leakage or out-leakage to the extent which results in greatest reactivity has been assumed for purposes of assessment under paragraphs 3 to 6 of Schedule 7 shall be excepted from the test specified in paragraph 20.
19. Before the specimen is subjected to the water leakage test specified in paragraph 20, it shall be subjected to the tests in paragraph 14(b), and either paragraph 14(a) or (c) as required by paragraph 8 of Schedule 12, and the test specified in paragraph 15.
20. The specimen shall be immersed under a head of water of at least 0.9 metres for a period of not less than eight hours and in the attitude for which maximum leakage is expected.
PART IV—DEMONSTRATION OF COMPLIANCE
Demonstration of compliance with the performance standards in this Schedule shall be accomplished by any of the following methods or by a combination thereof.
1. Performance of tests with specimens simulating as closely as practicable the expected range of radioactive contents, and with the specimen or packaging to be tested prepared as normally presented for transport.
2. Reference to previous satisfactory demonstrations of a sufficiently similar nature.
3. Performance of tests with models of appropriate scale incorporating those features which are significant with respect to the item under investigation when engineering experience has shown results of such tests to be suitable for design purposes. When a scale model is used, the need for adjusting certain test parameters, such as penetrator diameter or compressive load, shall be taken into account.
4. Calculation, or reasoned argument, when the calculation procedures and parameters are agreed by the Secretary of State to be reliable or conservative.
Regulation 13
SCHEDULE 16Contents limits for packages
Excepted packages
1. An excepted package containing radioactive material other than articles manufactured of natural uranium, depleted uranium, or natural thorium shall not contain activities greater than the following:
(a)where the radioactive material is enclosed in or forms a component part of an instrument or other manufactured article, such as a clock or electronic apparatus, the limits specified in paragraph 3 of Schedule 4 for each individual item and each package respectively; and
(b)where the radioactive material is not so enclosed or manufactured, the limits specified in paragraph 5 of Schedule 3.
2. An excepted package consisting of articles manufactured of natural uranium, depleted uranium, or natural thorium may contain any quantity of such material provided that the outer surface of the uranium or thorium is enclosed in an inactive sheath made of metal or some other substantial substance.
Industrial packages
3. The total activity in a single package of LSA material or in a single package of SCO shall be so restricted that the radiation level specified in paragraph 1 of Schedule 10 shall not be exceeded, and the activity in a single package shall also be so restricted that the activity limits for a conveyance specified in paragraph 5 of Schedule 10 shall not be exceeded.
Type A packages
4.—(a) A Type A package containing a single radionuclide shall not contain activities greater than the following:
(i)for special form radioactive material: A1; or
(ii)for all other radioactive material: A2.
(b)For a Type A package containing a mixture of radionuclides whose identities and respetive activities are known the following formulae shall apply:
(i)To calculate package limit for special form radioactive material:
(ii)To calculate package limit for other forms of radioactive material:
where
B(i) is the activity of radionuclide i and A1(i) and A2(i) are the A1 and A2 values for radionuclide i, respectively.
Type B packages
5. A Type B package shall not contain:
(a)activities greater than those authorised for the package design,
(b)radionuclides different from those authorised for the package design, or
(c)contents in a form, or a physical or chemical state different from those authorised for the package design,
as specified in the package design approval certificate.
Packages containing fissile material
6. Any packaging containing fissile material shall comply with the activity limits for packages of that type specified in this Schedule.
7. No packaging containing fissile material, other than a package falling within Schedule 8, shall contain:
(a)a mass of fissile material greater than that authorised for the package design,
(b)any contents different from those authorised for the package design, or
(c)contents in a form or physical or chemical state, or in a spatial arrangement, different from those authorised for the package design,
as specified in the package design approval certificate.
Regulations 2(1) & 14(1)
SCHEDULE 17Determination of Transport Index (TI)
1. The Transport Index (TI) based on radiation exposure control for a package, overpack, tank, freight container, or for unpackaged LSA-I or SCO-I, shall be the number derived in accordance with the following procedure:
(a)Determine the maximum radiation level in units of mSv/h at a distance of 1 metre from the external surfaces of the package, overpack, tank, freight container, or unpackaged LSA-I and SCO-I. Multiply the value determined by 100. For uranium and thorium ores and concentrates, the maximum radiation dose rate at any point 1 metre from the external surface of the load may be taken as:
0.4 mSv/h for ores and physical concentrates of uranium and thorium;
0.3 mSv/h for chemical concentrates of thorium;
0.02 mSv/h for chemical concentrates of uranium, other than uranium hexafluoride.
(b)For tanks, freight containers and unpackaged LSA-I and SCO-I, the value determined in step (a) above shall be multiplied by the appropriate factor from Table VII of Schedule 36.
(c)The figure obtained in steps (a) and (b) above shall be rounded up to the first decimal place (e.g., 1.13 becomes 1.2), except that a value of 0.05 or less may be considered as zero.
2. The Transport Index (TI) based on nuclear criticality control shall be obtained by dividing the number 50 by the value of N derived using the procedures specified in paragraph 6 of Schedule 7 (i.e., TI=50/N). The value of the Transport Index (TI) for nuclear criticality control may be zero, provided that an unlimited number of packages is subcritical (i.e., N is effectively equal to infinity).
3. The Transport Index (TI) for each consignment shall be determined in accordance with Table VIII of Schedule 36.
Regulations 6, 22(3) & 30
SCHEDULE 18Requirements for marking, labelling and placarding
Marking
1. Each package of gross mass exceeding 50 kg shall have its permissible gross mass legibly and durably marked on the outside of the packaging.
2. Each package which conforms to a Type A package design shall be legibly and durably marked on the outside of the packaging with “Type A”.
3. Each package which conforms to a design approved under regulation 19(3), 20(3) or 21(3) or falling within regulation 23(1), shall be legibly and durably marked on the outside of the packaging with:
(a)the identification mark allocated to that design by the competent authority;
(b)a serial number to uniquely identify each packaging which conforms to that design; and
(c)in the case of a Type B(U) or Type B(M) package design, with “Type B(U)” or “Type B(M)” respectively.
4. Each package which conforms to a Type B(U) or Type B(M) package design shall have the outside of the outermost receptacle which is resistant to the effects of fire and water plainly marked by embossing, stamping, or other means resistant to the effects of fire and water with the trefoil symbol shown in Fig. 1 in the Appendix below.
Labelling
5. Each package, overpack, tank and freight container shall bear the labels which conform to the models in Figs. 2, 3 or 4 in the Appendix below, except as allowed under the alternative provision of paragraph 9 below for large freight containers and tanks, according to the appropriate category determined in accordance with Schedule 19. Any labels which do not relate to the contents shall be removed or covered. For radioactive materials having other dangerous properties see paragraph 12 of Schedule 2.
6. The labels shall be affixed to two opposite sides of the outside of a package or overpack, or on the outside of all four sides of a freight container or tank.
7. Each label shall be completed with the following information:
(a)Contents:
(i)Except for LSA-I material, the name of the radionuclide as taken from Table I of Schedule 36, using the symbols prescribed therein. For mixtures of radionuclides, the most restrictive nuclides must be listed to the extent the space on the line permits. The group of LSA or SCO shall be shown following the name of the radionuclide. The terms “LSA-II”, “LSA-III”, “SCO-I” and “SCO-II” shall be used for this purpose.
(ii)For LSA-I materials, the term “LSA-I” is all that is necessary; the name of the radionuclide is not necessary.
(b)Activity: The maximum activity of the radioactive contents during transport expressed in units of Bq. For fissile material, the total mass in units of grams (g), or multiples thereof, may be used in place of activity.
(c)For overpacks, tanks, and freight containers, the “contents” and “activity” entries on the label shall bear the information required in sub-paragraphs (a) and (b) above, respectively, totalled together for the entire contents of the overpack, tank, or freight container except that on labels for overpacks or freight containers containing mixed loads of packages with different radionuclides, such entries may read, “See Transport Documents”.
(d)Transport Index (TI)—see Schedule 17.
(No Transport Index (TI) entry is required for category I-WHITE).
8.—(a) Each package, overpack, tank, freight container or vehicle containing any of the substances mentioned in paragraph 8(a)(iv) and 9(a)(ii) of marginal 2703 of ADR shall bear the additional label prescribed for the substance in those paragraphs.
(b)Each package except tank containers and overpacks shall be clearly and durably marked with the United Nations number assigned to the material as specified in Schedule 37, preceded by the letters “UN”.
Placarding
9. Large freight containers carrying packages other than excepted packages, and tanks shall bear four placards which conform to the model given in Fig. 5 in the Appendix below. The placards shall be affixed in a vertical orientation to each side wall and each end wall of the freight container or tank. Any placards which do not relate to the contents shall be removed. Instead of using a label and a placard, it is permitted as an alternative to use enlarged labels only, as shown in Figs 2, 3 and 4 in the Appendix below, with dimensions of the minimum size shown in Fig. 5 in the Appendix below.
10. Where the consignment in the freight container or tank is unpackaged LSA-I or SCO-I or where an exclusive use consignment in a freight container is packaged radioactive material comprised of a single United Nations Number commodity, the appropriate United Nations Number for the consignment (see Schedule 37) shall also be displayed, in black digits not less than 65 mm high, either:
(a)in the lower half of the placard shown in Fig. 5 in the Appendix below, against the white background, or
(b)on the placard shown in Fig. 6 in the Appendix below.
When the alternative given in (b) above is used, the subsidiary placard shall be affixed immediately adjacent to the main placard, on all four sides of the freight container or tank.
11. Subject to paragraph 16 in the Appendix below, a vehicle carrying a package, overpack, tank or freight container labelled with any of the labels shown in Figs. 2, 3 or 4 in the Appendix below, or carrying a consignment under exclusive use, shall display the placard shown in Fig. 5 on each of the two external lateral walls and the external rear wall of the vehicle. In the case of a vehicle without sides the placards may be affixed directly on the cargo-carrying unit provided that they are readily visible; in the case of a physically large tank or freight container, the placards on the tank or freight container will suffice, but any placards which do not relate to the contents must be removed.
12. Where the consignment in or on the vehicle is unpackaged LSA-I or SCO-I or where an exclusive use consignment is packaged radioactive material comprised of a single United Nations Number commodity, the appropriate United Nations Number (see Schedule 37) shall also be displayed, in black digits not less than 65 mm high, either:
(a)in the lower half of the placard shown in Fig. 5 in the Appendix below, against the white background, or
(b)on the placard shown in Fig. 6 in the Appendix below. When the alternative given in (b) above is used, the subsidiary placard shall be affixed immediately adjacent to the main placard on the two lateral walls and the end wall of the vehicle.
13. A vehicle transporting radioactive material shall, in addition to any placard required by paragraphs 8 to 11, bear either:
(a)plates conforming to the requirements of paragraph 14; or
(b)a notice conforming to the requirements of paragraph 15.
14. For the purposes of paragraph 13(a), the plates to be displayed by a vehicle while it is transporting radioactive material shall conform to the requirements of paragraph (1) of marginal 10500 of ADR.
15. For the purposes of paragraph 13(b), the notice to be displayed in a vehicle while it is transporting radioactive material shall conform to the following:
(a)It shall be not less than 12 cm square. All lettering on the notice shall be black, bold and legible. All lettering shall also be embossed or stamped. The capital letters in the words “RADIOACTIVE” shall be not less than 12 mm high and all other capital letters shall be not less than 5 mm high.
(b)It shall be fireproof to the extent that the words on the notice shall remain legible after exposure to a fire involving the vehicle.
(c)It shall be securely posted in the vehicle cab in a position where it is plainly visible to the driver, but does not obstruct his view of the road and shall be exhibited only when the vehicle is transporting radioactive material.
(d)It shall be in the form set out below and shall state the name, address and telephone number of the owner or operator of the vehicle. For the purposes of this sub-paragraph and in relation to a vehicle which is the subject of a hiring agreement or a hire-purchase agreement, “owner” means the person in possession of the vehicle under that agreement.
FORM OF NOTICE
16. The provisions of paragraph 11 shall not apply to the transport in a motor car of packages labelled with any of the labels shown in Figs. 2, 3 or 4 in the Appendix below provided that:
(a)No more than 10 such packages are carried in the vehicle at any one time; and
(b)The sum of the Transport Indexes (TI) of the packages carried in the vehicle at any one time does not exceed 3; and
(c)The vehicle bears a placard conforming to the requirements of paragraph 11 except that the minimum dimensions for the placard shall be 150 mm by 150 mm, with symbols of sizes in proportion to those specified in Fig. 5 in the Appendix below.
In this paragraph “motor car” has the meaning given in section 185(1) of the Road Traffic Act 1988(10).
APPENDIX
Figs. 2. - 6.
Schedule 18, paragraph 5
SCHEDULE 19Determination of categories
Packages and overpacks shall be assigned to either category I-WHITE, II-YELLOW or III-YELLOW in accordance with the conditions specified in Tables IX and X of Schedule 36, as applicable, and with the following requirements:
(a)For a package, both the Transport Index (TI) and the surface radiation level conditions shall be taken into account in determining which is the appropriate category. Where the Transport Index (TI) satisfies the condition for one category but the surface radiation level satisfies the condition for a different category, the package shall be assigned to the higher category of the two. For this purpose, category I-WHITE shall be regarded as the lowest category.
(b)The Transport Index (TI) shall be determined following the procedures specified in Schedule 17, and subject to the limitation of paragraph 14 of Schedule 2.
(c)If the Transport Index (TI) is greater than 10, the package or overpack shall be transported under exclusive use.
(d)If the surface radiation level is greater than 2 mSv/h, the package or overpack shall be transported under exclusive use and in accordance with the conditions prescribed in paragraph (a) of Schedule 32.
(e)A package transported under special arrangement shall be assigned to category III-YELLOW.
(f)An overpack which contains packages transported under special arrangement shall be assigned to category III-YELLOW.
Regulations 6 & 27(1)(a) & (2)
SCHEDULE 20Contents of transport document
The transport document for a consignment shall include, in respect of each package included in the consignment, the following:
1. The document shall be headed with or shall contain a reference to the title of these Regulations.
2. The name of the consignor, and an address and telephone number by which he can be contacted in the event of an accident occuring to the consignment.
3. The name and address of the consignee.
4. The proper shipping name, as specified in Schedule 37.
5. The United Nations Class Number “7”.
6. The words “RADIOACTIVE MATERIAL” unless these words are contained in the proper shipping name.
7. The United Nations Number assigned to the material as specified in Schedule 37, the number is to be prefixed with the letters “UN”.
8. For LSA material, the group notation “LSA-I”, “LSA-II” or “LSA-III”, as appropriate.
9. For SCO, the group notation “SCO-I” or “SCO-II”, as appropriate.
10. The name or symbol of each radionuclide or, for mixtures of radionuclides, an appropriate general description or a list of the most restrictive nuclides.
11. A description of the physical and chemical form of the material, or a notation that the material is special form radioactive material. A generic chemical description is acceptable for chemical form.
12. The maximum activity of the radioactive contents during transport expressed in units of Bq. For fissile material, the total mass of fissible material in units of grams (g), or appropriate multiples thereof, may be used in place of activity.
13. The category of the package, i.e., I-WHITE, II-YELLOW, or III-YELLOW.
14. The Transport Index (TI) (categories II-YELLOW and III-YELLOW only).
15. All items and materials transported under the provisions for excepted packages (see Schedules 3, 4 and 5) shall be described in the transport document as “RADIOACTIVE MATERIAL, EXCEPTED PACKAGE,” and shall include the proper shipping name of the substance or article being transported from the list of United Nations Numbers (see Schedule 37).
16. For a consignment of fissile material, where all of the packages in the consignment are excepted under Schedule 8, the words “FISSILE EXCEPTED”.
17. The identification mark for each competent authority approval certificate (special form radioactive material, special arrangement, package design, or shipment) applicable to the consignment.
18. For consignments of packages in an overpack or freight container, a detailed statement of the contents of each package within the overpack or freight container and, where appropriate, of each overpack or freight container in the consignment. If packages are to be removed from the overpack or freight container at a point of intermediate unloading, appropriate transport documentation shall be made available.
19. Where a consignment is required to be shipped under exclusive use, the statement “EXCLUSIVE USE SHIPMENT”.
20. A declaration signed and dated by the consignor in the following terms or in terms having an equivalent meaning:
“I hereby declare that the contents of this consignment are fully and accurately described above by proper shipping name and are classified, packed, marked and labelled, and are in all respects in proper condition for transport by road according to the applicable international and national governmental regulations”.
A facsimile signature is authorised.
No such declaration is required for any part of the consignment already covered by any international convention which requires a similar declaration as a condition of transport.
Regulation 27(1)
SCHEDULE 21Contents of statement for the carrier
1. The statement shall specify the actions, if any, that are required to be taken by the carrier.
2. The statement shall be in the languages deemed necessary by the carrier or the competent authorities concerned, and shall include at least the following points:
(a)Supplementary operational requirements for loading, stowage, transport, handling, and unloading of the package, overpack, freight container or tank including any special stowage provisions for the safe dissipation of heat (see paragraph 2 of Schedule 33), or a statement that no such requirements are necessary;
(b)Restrictions on the mode of transport or conveyance and any necessary routing instructions;
(c)Emergency arrangements appropriate to the consignment.
Regulation 17(2)
SCHEDULE 22Application for approval of design for special form radioactive material
An application for approval shall include the following:
1. A detailed description of the radioactive material or, if a capsule, the contents. Particular reference shall be made to both physical and chemical states.
2. A detailed statement of the design of any capsule to be used.
3. A statement of the tests which have been done and their results, or evidence based on calculative methods to show that the radioactive material is capable of meeting the performance standards, or other evidence that the special form radioactive material meets the applicable requirements of these Regulations.
4. Evidence of a quality assurance programme as required by regulation 24.
Regulation 2(1)
SCHEDULE 23Competent authority identification marks
Each approval certificate issued by a competent authority shall be assigned an identification mark. The mark shall be of the following generalized type:
“VRI/Number/Type Code”, where—
(a)
VRI represents the international vehicle registration identification code of the state issuing the certificate.
(b)
The number shall be assigned by the competent authority, and shall be unique and specific with regard to the particular design or shipment. The shipment approval identification mark shall be clearly related to the design approval identification mark.
(c)
The following type codes shall be used to indicate the types of approval certificates issued:
AF
Type A package design for fissile material
B(U)
Type B(U) package design (B(U)F if for fissile material)
B(M)
Type B(M) package design (B(M)F if for fissile material)
IF
Industrial package design for fissile material
S
Special form radioactive material
T
Shipment
X
Special arrangement
(d)
For package design approval certificates, other than those issued under the provisions of regulation 22, the symbols ‘−85’ shall be added to the type code of the package design.
Regulation 18(2)
SCHEDULE 24Application for package design approval certificate for fissile material
An application for a package design approval certificate for fissile material shall include the following:
1. All information necessary to satisfy the Secretary of State that the package design meets the requirements of Schedule 7 and Schedules 9, 11, or 12 and 13 or 14, as applicable, taking into account the nature, activity and form of the contents; and
2. Evidence of a quality assurance programme as required by regulation 24.
Regulation 19(2)
SCHEDULE 25Application for package design approval certificate for a Type B(U) package
An application for a package design approval certificate for a Type B(U) package shall include the following:
1. A detailed description of the proposed radioactive contents with particular reference to their physical and chemical states and the nature of the radiation emitted.
2. A detailed statement of the design, including complete engineering drawings and schedules of materials and methods of construction to be used.
3. A statement of the tests which have been done and their results, or evidence based on calculative methods or other evidence that the design is adequate to meet the applicable requirements of these Regulations.
4. The proposed operating and maintenance instructions for the use of the packaging.
5. If the package is designed to have a maximum normal operating pressure in excess of 100 kPa gauge, the application for approval shall, in particular, state, in respect of the materials of construction of the containment system, the specifications, the samples to be taken, and the tests to be made.
6. Where the proposed radioactive contents are irradiated fuel, the applicant shall state and justify any assumption in the safety analysis relating to the characteristics of the fuel.
7. Any special stowage provisions necessary to ensure the safe dissipation of heat from the package; consideration shall be given to the various modes of transport to be used and type of conveyance or freight container.
8. A reproducible illustration not larger than 21 cm×30 cm showing the make-up of the package.
9. Evidence of a quality assurance programme as required by regulation 24.
10. Evidence of a suitable emergency plan.
Regulation 20(2)
SCHEDULE 26Application for package design approval certificate for a Type B(M) package
An application for a package design approval certificate for a Type B(M) package design shall include the following:
1. The information required in Schedule 25 for Type B(U) packages.
2. A list of the specific requirements for Type B(U) packages specified in paragraph 1 of Schedule 13, with which the package does not conform.
3. Any proposed supplementary operational controls to be applied during transport not routinely provided for in these Regulations, but which are necessary to ensure the safety of the package or to compensate for the deficiencies listed in paragraph 2 above, such as human intervention for temperature or pressure measurements or for periodic venting, taking into account the possibility of unexpected delay.
4. A statement relative to any restrictions on the mode of transport and to any special loading, carriage, unloading or handling procedures.
5. The maximum and minimum ambient conditions (temperature, solar radiation) expected to be encountered during transport and which have been taken into account in the design.
6. Evidence of a suitable emergency plan.
Regulation 23(2)
SCHEDULE 27Application for a shipment approval certificate
An application for a shipment approval certificate shall include:
1. The period of time, related to the shipment, for which the approval is sought.
2. The actual radioactive contents, the expected modes of transport and the type of conveyance.
3. The details of how the special precautions and special administrative or operational controls, referred to in the package design approval certificates issued under regulations 18, 19 and 20 are to be put into effect.
4. Evidence of a suitable emergency plan.
Regulation 15(3)
SCHEDULE 28Application for a special arrangement approval certificate
An application for approval of a shipment under special arrangement shall include:
1. All the information necessary to satisfy the competent authority that the overall level of safety in transport is at least equivalent to that which would be provided if all the applicable requirements of these Regulations had been met.
2. A statement of the respects in which, and justification of why, the consignment cannot be made in full accordance with the applicable requirements.
3. A statement of any special precautions or special administrative or operational controls which are to be employed during transport to compensate for the failure to meet the applicable requirements.
4. Evidence of a suitable emergency plan.
Regulation 31(1)
SCHEDULE 29Package inspection requirements before the first shipment
1. The containment system of any package whose design pressure exceeds 35 kPa gauge is to conform to the approved design requirements relating to the capability of that system to maintain its integrity under pressure.
2. For each Type B package and for each packaging containing fissile material, the effectiveness of its shielding and containment system, and, where necessary, the heat transfer characteristics, are to be within the limits applicable to or specified for the approved design.
3. For each package containing fissile material, where, in order to comply with the requirements of Schedule 7, neutron poisons are specifically included as components of the packaging, tests shall be performed to confirm the presence and distribution of those neutron poisons.
Regulation 31(2)
SCHEDULE 30Package inspection requirements before any shipment
1. It must be ensured that lifting attachments which do not meet the requirements of paragraph 2 of Schedule 2 have been removed or otherwise rendered incapable of being used for lifting the package.
2. For each Type B package and for each packaging containing fissile material, it must be ensured that all the requirements specified in the approval certificates and the relevant provisions of these Regulations are to be satisfied.
3. Each Type B package shall be held until equilibrium conditions have been approached closely enough to demonstrate compliance with the shipment requirements for temperature and pressure unless an exemption from these requirements has received unilateral approval.
4. For each Type B package, it shall be ensured by examination and/or appropriate tests that all closures, valves, and other openings of the containment system through which the radioactive contents might escape are properly closed and, where appropriate, sealed in the manner for which the demonstrations of compliance with the requirements of paragraph 8 of Schedule 12 were made. In the case of a package where containment is provided by radioactive material in special form, compliance may be demonstrated by possession of a valid special form radioactive material approval certificate issued in accordance with regulation 17.
Regulation 33(2)
SCHEDULE 31Notification of consignments to competent authorities
1. Notification required by regulation 33(2) shall be delivered to the competent authority prior to the commencement of the shipment, and at least 7 days before the commencement of the shipment.
2. The notification shall include:
(a)Sufficient information to identify the package including all applicable certificate numbers and identification marks;
(b)Information on the date of shipment, the expected data of arrival and proposed routing;
(c)The name of the radioactive material or nuclide;
(d)A description of the physical and chemical form of the radioactive material, or whether it is special form radioactive material;
(e)The maximum activity of the radioactive contents during transport expressed in units of Bq. For fissile material, the mass of fissile material in units of grams (g), or multiples thereof, may be used in place of activity.
3. Separate notification to the Secretary of State is not required of information specified in paragraph 2 which was included in the application for shipment approval under regulation 23(2).
Regulation 16
SCHEDULE 32Radiation level limits for consignments under exclusive use
The radiation level for a consignment transported under exclusive use by a vehicle shall not exceed:
(a)10 mSv/h at any point on the external surface of any package or overpack, and may only exceed 2 mSv/h provided that:
(i)the vehicle by which the consignment is transported is equipped with an enclosure which, during routine transport, prevents the access of unauthorised persons to the interior of the enclosure;
(ii)provisions are made to secure the package or overpack so that its position within the vehicle remains fixed during routine transport; and
(iii)there are no loading or unloading operations between the beginning and end of the shipment; and
(b)2 mSv/h at any point on the outer surfaces of the vehicle, including the upper and lower surfaces, or in the case of an open vehicle, at any point on the vertical planes projected from the outer edges of the vehicle, on the upper surface of the load, and on the lower external surface of the vehicle; and
(c)0.1 mSv/h at any point 2 metres from the vertical planes represented by the outer lateral surfaces of the vehicle, or, if the load is transported in an open vehicle, at any point 2 metres from the vertical planes projected from the outer edges of the vehicle.
Regulation 32(1)
SCHEDULE 33Stowing for transport
1. Consignments shall be securely stowed.
2. During stowage, packages, overpacks, freight containers and tanks shall be sufficiently segregated from undeveloped photographic film.
3. In the case of undeveloped photographic film the basis for determining segregation distances shall be that the radiation exposure of undeveloped photographic film due to the transport of radioactive material be limited to 0.1 mSv per consignment of such film.
4. Provided that its average surface heat flux does not exceed 15 W/m2 and that the immediately surrounding cargo is not in sacks or bags, a package or overpack may be carried among packaged general cargo without any special stowage provisions except as may be specifically required by the Secretary of State in an applicable approval certificate.
5. Except in the case of shipment under special arrangement, mixing of packages of different kinds of radioactive material, including fissile material, and mixing of different kinds of packages with different Transport Indexes (TI) is permitted without the specific approval of the Secretary of State. In the case of shipments under special arrangement, mixing shall not be permitted except as specifically authorised under the special arrangement.
Regulation 35
SCHEDULE 34Storage in transit
1. During storage in transit packages, overpacks, freight containers and tanks shall be sufficiently segregated from:
(a)undeveloped photographic film; and
(b)other dangerous goods.
2. In the case of undeveloped photographic film the basis for determining segregation distances shall be that the radiation exposure of undeveloped photographic film due to the transport of radioactive material be limited to 0.1 mSv per consignment of such film.
3. In the case of other dangerous goods segregation shall comply with the [relevant UK transport regulations for dangerous goods].
4. The number of category II-YELLOW and category III-YELLOW packages, overpacks, tanks and freight containers containing fissile material stored in any one storage area, such as a transit area, terminal building, store-room or assembly yard, shall be so limited that the total sum of the Transport Indexes (TI) in any individual group of such packages, overpacks, tanks or freight containers does not exceed 50. Groups of such packages, overpacks, tanks and freight containers shall be stored so as to maintain a spacing of at least 6 metres from other groups of such packages, overpacks, tanks or freight containers.
5. Where the Transport Index (TI) of a single package, overpack, tank or freight container exceeds 50 or the total Transport Index (TI) on board a conveyance exceeds 50, storage shall be such as to maintain a spacing of at least 6 metres from other groups of packages, overpacks, tanks or freight containers or any other conveyance carrying radioactive material.
6. Paragraphs 4 and 5 do not apply to consignments in which the radioactive contents are LSA-I materials.
7. Except in the case of shipment under special arrangement, mixing of packages of different kinds of radioactive material, including fissile material, and mixing of different kinds of packages with different Transport Indexes (TI) is permitted without the specific approval of the Secretary of State. In the case of shipment under special arrangement, mixing shall not be permitted except as specifically authorised under the special arrangement.
Regulation 28(1)
SCHEDULE 35Contents of regular consignment certificate
A regular consignment certificate shall include the following:
1. A statement that the certificate is a regular consignment certificate.
2. The issue date.
3. The information listed in Schedule 20 with the exception of paragraph 3 of that Schedule, relating to the package at the date the certificate is issued.
Regulations 2(3) & 21
SCHEDULE 36TABLES
TABLE I
CALCULATION OF A1 AND A2 VALUES
Values of A1 and A2 for individual radionuclides
Symbol of radionuclide
Element and atomic number
A1 TBq
A2 TBq
(a)
A1 and/or A2 value limited by daughter product decay.
(b)
A1 and A2 are unlimited for radiation control purposes only. For nuclear criticality safety this material is subject to the controls placed on fissile material.
(c)
These values do not apply to reprocessed uranium.
225Ac(a)
Actinium (89)
0.6
1×10−2
227Ac
40
2×10−5
228Ac
0.6
0.4
105Ag
Silver (47)
2
2
108Agm
0.6
0.6
110Agm
0.4
0.4
111Ag
0.6
0.5
26Al
Aluminium (13)
0.4
0.4
241Am
Americium (95)
2
2×10−4
242Amm
2
2×10−4
243Am
2
2×10−4
37Ar
Argon (18)
40
40
39Ar
20
20
41Ar
0.6
0.6
42Ar(a)
0.2
0.2
72As
Arsenic (33)
0.2
0.2
73As
40
40
74As
1
0.5
76As
0.2
0.2
77As
20
0.5
211At
Astatine (85)
30
2
193Au
Gold (79)
6
6
194Au
1
1
195Au
10
10
196Au
2
2
198Au
3
0.5
199Au
10
0.9
131Ba
Barium (56)
2
2
133Bam
10
0.9
133Ba
3
3
140Ba(a)
0.4
0.4
7Be
Beryllium (4)
20
20
10Be
20
0.5
205Bi
Bismuth (83)
0.6
0.6
206Bi
0.3
0.3
207Bi
0.7
0.7
210Bim(a)
0.3
3×10−2
210Bi
0.6
0.5
212Bi(a)
0.3
0.3
247Bk
Berkelium (97)
2
2×10−4
249Bk
40
8×10−2
76Br
Bromine (35)
0.3
0.3
77Br
3
3
82Br
0.4
0.4
11C
Carbon (6)
1
0.5
14C
40
2
41Ca
Calcium (20)
40
40
45Ca
40
0.9
47Ca
0.9
0.5
109Cd
Cadmium (48)
40
1
113Cdm
20
9×10−2
115Cdm
0.3
0.3
115Cd
4
0.5
139Ce
Cerium (58)
6
6
141Ce
10
0.5
143Ce
0.6
0.5
144Ce(a)
0.2
0.2
248Cf
Californium (98)
30
3×10−3
249Cf
2
2×10−4
250Cf
5
5×10−4
251Cf
2
2×10−4
252Cf
0.1
1×10−3
253Cf
40
6×10−2
254Cf
3×10−3
6×10−4
36Cl
Chlorine (17)
20
0.5
38Cl
0.2
0.2
240Cm
Curium (96)
40
2×10−2
241Cm
2
0.9
242Cm
40
1×10−2
243Cm
3
3×10−4
244Cm
4
4×10−4
245Cm
2
2×10−4
246Cm
2
2×10−4
247Cm
2
2×10−4
248Cm
4×10−2
5×10−5
55Co
Cobalt (27)
0.5
0.5
56Co
0.3
0.3
57Co
8
8
58Com
40
40
58Co
1
1
60Co
0.4
0.4
51Cr
Chromium (24)
30
30
129Cs
Caesium (55)
4
4
131Cs
40
40
132Cs
1
1
134Csm
40
9
134Cs
0.6
0.5
135Cs
40
0.9
136Cs
0.5
0.5
137Cs(a)
2
0.5
64Cu
Copper (29)
5
0.9
67Cu
9
0.9
159Dy
Dysprosium (66)
20
20
165Dy
0.6
0.5
166Dy(a)
0.3
0.3
169Er
Erbium (68)
40
0.9
171Er
0.6
0.5
147Eu
Europium (63)
2
2
148Eu
0.5
0.5
149Eu
20
20
150Eu
0.7
0.7
152Eum
0.6
0.5
152Eu
0.9
0.9
154Eu
0.8
0.5
155Eu
20
2
156Eu
0.6
0.5
18F
Fluorine (9)
1
0.5
52Fe(a)
Iron (26)
0.2
0.2
55Fe
40
40
59Fe
0.8
0.8
60Fe
40
0.2
67Ga
Gallium (31)
6
6
68Ga
0.3
0.3
72Ga
0.4
0.4
146Gd(a)
Gadolinium (64)
0.4
0.4
148Gd
3
3×10−4
153Gd
10
5
159Gd
4
0.5
68Ge(a)
Germanium (32)
0.3
0.3
71Ge
40
40
77Ge
0.3
0.3
172Hf(a)
Hafnium (72)
0.5
0.3
175Hf
3
3
181Hf
2
0.9
182Hf
4
3×10−2
194Hg(a)
Mercury (80)
1
1
195Hgm
5
5
197Hgm
10
0.9
197Hg
10
10
203Hg
4
0.9
163Ho
Holmium (67)
40
40
166Hom
0.6
0.3
166Ho
0.3
0.3
123I
Iodine (53)
6
6
124I
0.9
0.9
125I
20
2
126I
2
0.9
129I
Unlimited
Unlimited
131I
3
0.5
132I
0.4
0.4
133I
0.6
0.5
134I
0.3
0.3
135I
0.6
0.5
111In
Indium (49)
2
2
113Inm
4
4
114Inm(a)
0.3
0.3
115Inm
6
0.9
189Ir
Iridium (77)
10
10
190Ir
0.7
0.7
192Ir
1
0.5
193Irm
10
10
194Ir
0.2
0.2
40K
Potassium (19)
0.6
0.6
42K
0.2
0.2
43K
1
0.5
81Kr
Krypton (36)
40
40
85Krm
6
6
85Kr
20
10
87Kr
0.2
0.2
137La
Lanthanum (57)
40
2
140La
0.4
0.4
LSA
Low specific activity material (See definition in regulation 2)
172Lu
Lutetium (71)
0.5
0.5
173Lu
8
8
174Lum
20
8
174Lu
8
4
177Lu
30
0.9
MFP
For Mixed Fission Products, use formula for mixtures or Table II
28Mg(a)
Magnesium (12)
0.2
0.2
52Mn
Manganese (25)
0.3
0.3
53Mn
Unlimited
Unlimited
54Mn
1
1
56Mn
0.2
0.2
93Mo
Molybdenum (42)
40
7
99Mo
0.6
0.5
13N
Nitrogen (7)
0.6
0.5
22Na
Sodium (11)
0.5
0.5
24Na
0.2
0.2
92Nbm
Niobium (41)
0.7
0.7
93Nbm
40
6
94Nb
0.6
0.6
95Nb
1
1
97Nb
0.6
0.5
147Nd
Neodymium (60)
4
0.5
149Nd
0.6
0.5
59Ni
Nickel (28)
40
40
63Ni
40
30
65Ni
0.3
0.3
235Np
Neptunium (93)
40
40
236Np
7
1×10−3
237Np
2
2×10−4
239Np
6
0.5
185Os
Osmium (76)
1
1
191Osm
40
40
191Os
10
0.9
193Os
0.6
0.5
194Os(a)
0.2
0.2
32P
Phosphorus (15)
0.3
0.3
33P
40
0.9
230Pa
Protactinium (91)
2
0.1
231Pa
0.6
6×10−5
233Pa
5
0.9
201Pb
Lead (82)
1
1
202Pb
40
2
203Pb
3
3
205Pb
Unlimited
Unlimited
210Pb(a)
0.6
9×10−3
212Pb(a)
0.3
0.3
103Pd
Palladium (46)
40
40
107Pd
Unlimited
Unlimited
109Pd
0.6
0.5
143Pm
Promethium (61)
3
3
144Pm
0.6
0.6
145Pm
30
7
147Pm
40
0.9
148Pmm
0.5
0.5
149Pm
0.6
0.5
151Pm
3
0.5
208Po
Polonium (84)
40
2×10−2
209Po
40
2×10−2
210Po
40
2×10−2
142Pr
Praseodymium (59)
0.2
0.2
143Pr
4
0.5
188Pt(a)
Platinum (78)
0.6
0.6
191Pt
3
3
193Ptm
40
9
193Pt
40
40
195Ptm
10
2
197Ptm
10
0.9
197Pt
20
0.5
236Pu
Plutonium (94)
7
7×10−4
237Pu
20
20
238Pu
2
2×10−4
239Pu
2
2×10−4
240Pu
2
2×10−4
241Pu
40
1×10−2
242Pu
2
2×10−4
244Pu(a)
0.3
2×10−4
223Ra(a)
Radium (88)
0.6
3×10−2
224Ra(a)
0.3
6×10−2
225Ra(a)
0.6
2×10−2
226Ra(a)
0.3
2×10−2
228Ra(a)
0.6
4×10−2
81Rb
Rubidium (37)
2
0.9
83Rb
2
2
84Rb
1
0.9
86Rb
0.3
0.3
87Rb
Unlimited
Unlimited
Rb (natural)
Unlimited
Unlimited
183Re
Rhenium (75)
5
5
184Rem
3
3
184Re
1
1
186Re
4
0.5
187Re
Unlimited
Unlimited
188Re
0.2
0.2
189Re
4
0.5
Re (natural)
Unlimited
Unlimited
99Rh
Rhodium (45)
2
2
101Rh
4
4
102Rhm
2
0.9
102Rh
0.5
0.5
103Rhm
40
40
105Rh
10
0.9
222Rn(a)
Radon (86)
0.2
4×10−3
97Ru
Ruthenium (44)
4
4
103Ru
2
0.9
105Ru
0.6
0.5
106Ru(a)
0.2
0.2
35S
Sulphur (16)
40
2
122Sb
Antimony (51)
0.3
0.3
124Sb
0.6
0.5
125Sb
2
0.9
126Sb
0.4
0.4
44Sc
Scandium (21)
0.5
0.5
46Sc
0.5
0.5
47Sc
9
0.9
48Sc
0.3
0.3
SCO
Surface Contaminated Objects (see definition in regulation 2)
75Se
Selenium (34)
3
3
79Se
40
2
31Si
Silicon (14)
0.6
0.5
32Si
40
0.2
145Sm
Samarium (62)
20
20
147Sm
Unlimited
Unlimited
151Sm
40
4
153Sm
4
0.5
113Sn(a)
Tin (50)
4
4
117Snm
6
2
119Snm
40
40
121Snm
40
0.9
123Sn
0.6
0.5
125Sn
0.2
0.2
126Sn(a)
0.3
0.3
82Sr(a)
Strontium (38)
0.2
0.2
85Srm
5
5
85Sr
2
2
87Srm
3
3
89Sr
0.6
0.5
90Sr(a)
0.2
0.1
91Sr
0.3
0.3
92Sr(a)
0.8
0.5
T (all forms)
Tritium (1)
40
40
178Ta
Tantalum (73)
1
1
179Ta
30
30
182Ta
0.8
0.5
157Tb
Terbium (65)
40
10
158Tb
1
0.7
160Tb
0.9
0.5
95Tcm
Technetium (43)
2
2
96Tcms(a)
0.4
0.4
96Tc
0.4
0.4
97Tcm
40
40
97Tc
Unlimited
Unlimited
98Tc
0.7
0.7
99Tcm
8
8
99Tc
40
0.9
118Te(a)
Tellurium (52)
0.2
0.2
121Tem
5
5
121Te
2
2
123Tem
7
7
125Tem
30
9
127Tem(a)
20
0.5
127Te
20
0.5
129Tem(a)
0.6
0.5
129Te
0.6
0.5
131Tem
0.7
0.5
132Te(a)
0.4
0.4
227Th
Thorium (90)
9
1×10−2
228Th(a)
0.3
4×10−4
229Th
0.3
3×10−5
230Th
2
2×10−4
231Th
40
0.9
232Th
Unlimited
Unlimited
234Th(a)
0.2
0.2
Th (natural)
Unlimited
Unlimited
44Ti(a)
Titanium (22)
0.5
0.2
200Tl
Thallium (81)
0.8
0.8
201Tl
10
10
202Tl
2
2
204Tl
4
0.5
167Tm
Thulium (69)
7
7
168Tm
0.8
0.8
170Tm
4
0.5
171Tm
40
10
230U
Uranium (92)
40
1×10−2
232U
3
3×10−4
233U
10
1×10−3
234U
10
1×10−3
235U
Unlimited(b)
Unlimited(b)
236U
10
1×10−3
238U
Unlimited
Unlimited
U (natural
Unlimited
Unlimited(c)
U (enriched 5% or less)
Unlimited(b)
Unlimited(b)(c)
U (enriched more than 5%)
10
1×10−3(c)
U (depleted)
Unlimited
Unlimited(c)
48V
Vanadium (23)
0.3
0.3
49V
40
40
178W(a)
Tungsten (74)
1
1
181W
30
30
185W
40
0.9
187W
2
0.5
188W(a)
0.2
0.2
122Xe(a)
Xenon (54)
0.2
0.2
123Xe
0.2
0.2
127Xe
4
4
131Xem
40
40
133Xe
20
20
135Xe
4
4
87Y
Yttrium (39)
2
2
88Y
0.4
0.4
90Y
0.2
0.2
91Ym
2
2
91Y
0.3
0.3
92Y
0.2
0.2
93Y
0.2
0.2
169Yb
Ytterbium, (70)
3
3
175Yb
30
0.9
65Zn
Zinc (30)
2
2
69Znm(a)
2
0.5
69Zn
4
0.5
88Zr
Zirconium (40)
3
3
93Zr
40
0.2
95Zr
1
0.9
97Zr
0.3
0.3
TABLE II
GENERAL VALUES FOR A1 AND A2
Contents
A1 TBq
A2 TBq
Only beta or gamma emitting nuclides are known to be present
0.2
0.02
Alpha emitting nuclides are known to be present or no relevant data are available
0.1
2×10−5
TABLE III
LIMITS OF NON-FIXED CONTAMINATION ON SURFACES
Type of package, overpack, freight container, tank or conveyance and its equipment
Contaminant
Applicable limit(a) of beta and gamma emitters and low toxicity alpha emitters Bq/cm2
Applicable limit(a) of all other alpha emitters Bq/cm2
(a)
The limits are applicable when averaged over any area of 300 cm2 of any part of the surface.
External surfaces of:
excepted packages
0.4
0.04
packages other than excepted packages
4
0.4
External and internal surfaces of overpacks, freight containers, and conveyances and their equipment, when used in or when being prepared for, the carriage of:
—loads consisting only of radioactive material in packages other than excepted packages
4
0.4
—loads including excepted packages and/or non-radioactive consignments
0.4
0.04
External surfaces of freight containers, tanks and conveyances and their equipment, used in the carriage of unpacked radioactive material
4
0.4
TABLE IV
ACTIVITY LIMITS FOR EXCEPTED PACKAGES
Physical state of contents
Instruments and articles
Item limits(a)
Package limits(a)
Materials
Package limits(a)
(a)
For mixtures of radionuclides, see paragraphs 4–6 of Schedule 1.
Solids:
special form
10−2 A1
A1
10−3 A1
other forms
10−2 A2
A2
10−3 A2
Liquids:
10−3 A2
10−1 A2
10−4 A2
Gases:
tritium
2×10−2 A2
2×10−1 A2
2×10−2 A2
special form
10−3 A1
10−2 A1
10−3 A1
other forms
10−3 A2
10−2 A2
10−3 A2
TABLE V
INDUSTRIAL PACKAGE REQUIREMENTS FOR LSA MATERIAL AND SCO
Contents
Industrial package type
Exclusive use
Not under exclusive use
(a)
Under the conditions specified in paragraph 3 of Schedule 10, LSA-I material and SCO-I may be transported unpackaged.
LSA-I(a)
Solid
IP-1
IP-1
Liquid
IP-1
IP-2
LSA-II
Solid
IP-2
IP-2
Liquid and gas
IP-2
IP-3
LSA-III
IP-2
IP-3
SCO-I(a)
IP-1
IP-1
SCO-II
IP-2
IP-2
TABLE VI
CONVEYANCE ACTIVITY LIMITS FOR LSA MATERIAL AND SCO IN INDUSTRIAL PACKAGES OR UNPACKED
Nature of material
Activity limit for conveyances
LSA-I
No limit
LSA-II and LSA-III non-combustible solids
No limit
LSA-II and LSA-III combustible solids, and all liquids and gases
100×A2
SCO
100×A2
TABLE VII
MULTIPLICATION FACTORS FOR LARGE DIMENSION LOADS
Size of load(a)
Multiplication factor
(a)
Largest cross-sectional area of the load being measured.
size of load ≤ 1 m2
1
1 m2