Vak: Sustainable Fuel Systems Design credits: 5
- Vakcode
- ZWVH19SFSD
- Naam
- Sustainable Fuel Systems Design
- Studiejaar
- 2022-2023
- ECTS credits
- 5
- Taal
- Engels
- Coördinator
- J. Bekkering
- Werkvormen
-
- Werkcollege
- Toetsen
-
- Assignment 1 - Opdracht
- Assignment 2 - Opdracht
Leeruitkomsten
By completing the module the student demonstrates knowledge and understanding of:
E2.1.a.1. problem definition in supply chain analysis
E2.1.b.1 critical analysis of relevant literature and empirical background materials
And is able to:
E2.3.a.1 formulate models of energy systems, using methods and techniques for energy systems
E2.3.d.1 select an appropriate technique for modelling given energy problems, such as Linear Programming (LP) and Mixed Integer Linear Programming techniques (MILP)
E2.3.d.2 explain the underlying assumptions and limitations
E2.4.a.1 implement these models
E1.1.c.1 systematic report research question, methods, results, discussion and conclusions
E2.1.a.1. problem definition in supply chain analysis
E2.1.b.1 critical analysis of relevant literature and empirical background materials
And is able to:
E2.3.a.1 formulate models of energy systems, using methods and techniques for energy systems
E2.3.d.1 select an appropriate technique for modelling given energy problems, such as Linear Programming (LP) and Mixed Integer Linear Programming techniques (MILP)
E2.3.d.2 explain the underlying assumptions and limitations
E2.4.a.1 implement these models
E1.1.c.1 systematic report research question, methods, results, discussion and conclusions
Inhoud
- Supply chain concepts: Material Flow Analysis, Life Cycle Cost of Energy
- Sustainability: concepts, Primary Energy Input Output Ratio, greenhouse gas emission saving, well-to- wheel analysis (WTT, TTW, WTW)
- Theory on LP, MILP, sensitivity analysis, Monte Carlo
- MATLAB modeling
Opgenomen in opleiding(en)
School(s)
- Instituut voor Engineering