| A2.1 |
Be able to apply the scientific method and the principles of engineering and economics to formulate and solve complex problems that arise in processes, equipment, installations and services, in which the material undergoes changes to its composition, state or energy content, these changes being characteristic of industrial chemistry and other related sectors such as pharmacology, biotechnology, materials sciences, energy, food and the environment. (G1) |
| A3.2 |
Design and optimize products, processes, systems and services for the chemical industry on the basis of various areas of chemical engineering, including processes, transport, separation operations, and chemical, nuclear, elctrochemical and biochemical reactions engineering (I2). |
| A4.3 |
Manage research, development and technological innovation whilst ensuring the transfer of technology and taking into account property and patent rights (P3). |
| B4.1 |
Be able to learn autonomously in order to maintain and improve the competences pertaining to chemical engineering that enable continuous professional development. (G11). |
| B6.1 |
Apply ethical principles and social responsibility as a citizen and a professional. |