Key Benefits:
Obtained the verification of the curriculum by the Council of Universities, prior to the positive report of the National Agency for the Evaluation of Quality and Accreditation, and agreed on the official character of the title by the Council of Ministers of 26 December 2014, published in the "BOE" of 29 January 2015, by Resolution of the General Secretariat of Universities of 9 January 2015.
In the exercise of the privileges conferred by the Organic Law 6/2001, of 21 December, of Universities, and by Decree 72/2013 of 12 June, by which the Integrated Text of the Statutes of the University is approved Polytechnic of Cartagena,
This Rectorate has resolved to publish the curriculum leading to the obtaining of the official Master's Degree in Science and Technology of Water and Land, contained in the Annex to this Resolution.
Cartagena, March 12, 2015. -Rector, José Antonio Franco Leemhuis.
ANNEX
University Master in Water and Land Science and Technology
1. Branch of knowledge to which the title is attached: Engineering and Architecture.
2. Structure of the teachings:
| ECTS | |
|---|---|
|
|
24 |
|
Optives | 24 |
|
Work master | 12 |
| Total | 60 |
3. Summary of the subjects that constitute the master and its distribution in ECTS.
Abbreviations: B: Required subject, OR: Optional subject.
| Matter | Assigns | ECTS | Character | |
|---|---|---|---|---|
| . | Common. |
Research Methodology. | 4 | B |
| 4 | B | |||
|
4 |
B | B |
||
|
Planning for natural and urban water resources. |
B | B | ||
|
4 | 4 |
B | ||
|
floor mechanics. | 4 | B | ||
|
and water resources (1). | Water science and water resources. | Statistical analysis of spatial data in natural resources. | 4 | O |
|
resource economics and legislation. | 4 | |||
| fluvial Hydraulic. |
4 | O | ||
|
Models in hydraulics and hydrology. | 4 | O | ||
|
quality and groundwater and surface water contamination. | 4 |
O | ||
| Planning and taking decision in environmental management. | 4 | O | ||
|
and resource technology water. | Treatment and recovery of agricultural wastewater. | 4 | O | |
|
debugging. | 4 |
O | ||
|
Potabilization. | 4 | O |
||
|
desalination. | 4 | O | ||
|
of the flow of groundwater transport. Applications in engineering and environment. | 4 | O | ||
| Engineering and ecosystem ecology aquatic. | 4 | O | ||
|
on land and natural resources (1). | Field science and natural resources. | Statistical Analysis of Spatial Data in Natural Resources. | 4 | O |
|
| ||||
| Geochemical Characterization of the terrain. | 4 | O | ||
|
Tools and field and lab methods in field engineering. | 4 | O | ||
| Rehabilitation of sites affected by industrial and mining activities. | 4 |
O | ||
|
Terrain mineralogics and their environmental applications. | 4 | O | ||
|
Technology of the natural resources and terrain. | GIS applied to natural resources. | 4 | O | |
|
seismic terrain behavior assessment techniques. | 4 | O | ||
| topographical methods for underground works. | 4 | O | ||
| geophysical techniques in ingeneria and environment. | 4 | O | ||
| Models in field engineering. | 4 | O | ||
|
and correction of impacts in engineering civil and mining. | 4 | O | ||
|
of master job. | TFM. | End of Master Job. | 12 | B |
(1) The student must choose a specialty module and within this a complete subject matter.
