Code |
Description |
A1 |
That the students demonstrate to possess and understand knowledge in an area of study that is part of the general education (second level), and often found at a level that, although based on advanced textbooks, also includes some aspects that involve knowledge from the avant-garde of the field of study
|
A2 |
That the students know how to apply their knowledge to their work or vocation in a professional way and that they possess the competences that are usually demonstrated through the elaboration and defense of arguments and the resolution of problems within their area of study
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A3 |
That the students have the capability to gather and interpret relevant data (usually within their area of study) to issue judgments that include a reflection on relevant social, scientific or ethical issues
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A4 |
That the students can transmit information, ideas, problems and solutions to a specialized and non-specialized audience
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A5 |
That the students develop those learning capabilities necessary to undertake further studies with a high degree of autonomy.
|
B1 |
Ability to draw links between the different elements of all the knowledge acquired, understanding them as components of a body of knowledge with a clear structure and strong internal cohesion. |
B3 |
To suggest and develop practical solutions, using the relevant theoretical knowledge, to phenomena and problems-situations of ordinary reality that are specific to engineering, developing appropriate strategies.
|
B5 |
To be familiar with the relevant sources of information, including constant updating, in order to practice one’s profession competently, accessing all the present and future tools of information search, constantly adapting to technological and social changes. |
C23 |
Ability to design electrical power plants.
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C24 |
Ability to design and manage procedures of applied experimentation, especially for the determination of transmission and thermodynamic properties, and for the modelling of systems and phenomena in the field of chemical engineering, fluid systems, heat transmission, matter transference operations, kinetics of chemical reactions and reactors.
|
C28 |
Applied knowledge of the fundamentals of alternative energies and efficient use of energy.
|
C29 |
Applied knowledge of thermal engineering.
|
C30 |
Applied knowledge of renewable energies.
|
C31 |
Applied knowledge of the fundamentals of energy logistics and distribution.
|
C32 |
To know, understand and apply the principles of use, transformation and management of energy resources.
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C33 |
Applied knowledge of the fundamentals of industries of generation, transmission, transformation and management of thermal and electrical power.
|
D3 |
Understanding engineering within a framework of sustainable development with environmental awareness.
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D5 |
To become aware of the need for continuous training and the constant improvement of quality, developing the values that are characteristic of scientific thinking, showing flexible, open and ethical attitudes in the face of different situations and opinions, particularly as regards non-discrimination on the grounds of gender, race or religion, respect for fundamental rights, accessibility, etc.
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