Page du cours ✏️
- SIMULATION AND OPTIMIZATION OF PROCESSES
- 226109002
- Description
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Simulation of Chemical Processes
Unit 1. General criteria for chemical process simulation.
Stages in design development. Documentation and references, process definition, scope and design aspects. Types of design.
Unit 2. Process simulation fundamentals.
Mathematical models. Methods for model resolution. Global analysis of systems.
Unit 3. Estimation of physicochemical properties.
Equilibrium diagrams. Residue curves. Estimation of equilibrium conditions using equations of state and activity coefficients. Stages for physicochemical properties estimation methods. Enthalphy estimation.
Unit 4. Computer aided chemical process simulation.
Commercial simulators. Open access simulation software. - Crédits ECTS
- 3
- Langue d'enseignement
- Español
- Langue d'examen
- Español
- Langue des supports pédagogiques
- Español
- Acquis d'apprentissage fondamentaux
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- Scientific-technical and methodological training for the continuous improvement of knowledge and the exercise of professional functions of advice, analysis, design, project, planning, management and operation in the fields of Environmental engineering.(B1 - EEM - Scientific-technical and methodological training for the continuous improvement of knowledge and the exercise of professional functions of advice, analysis, design, project, planning, management and operation in the fields of Environmental engineering. )
- Understanding the necessary professional knowledge of a Master's degree in Environmental Engineering, and of the activities that can be carried out in the field of Environmental Engineering.(B5 - EEM - Understanding the necessary professional knowledge of a Master's degree in Environmental Engineering, and of the activities that can be carried out in the field of Environmental Engineering.)
- Acquis d'apprentissage terminaux
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- Mastering design principles based on original, resilient, sustainable, and reliable solutions for the implementation of Environmental Engineering systems.(F5 - EEM - Mastering design principles based on original, resilient, sustainable, and reliable solutions for the implementation of Environmental Engineering systems.)
- Ability to follow research developments in science and technology.(F15 - EEM - Ability to follow research developments in science and technology. )
- Ability to integrate information from different sources into practical application and research.(F16 - EEM - Ability to integrate information from different sources into practical application and research.)
- Catégorie de cours
- Entité de gestion (faculté)