2023-2024 / ENVT0072-1

Technical and economic analysis of energy systems : theory and project

Duration

16h Th, 8h Pr

Number of credits

 Master in environmental science and management (120 ECTS)2 crédits 

Lecturer

Language(s) of instruction

French language

Organisation and examination

Teaching in the first semester, review in January

Schedule

Schedule online

Units courses prerequisite and corequisite

Prerequisite or corequisite units are presented within each program

Learning unit contents

  • Preamble
The energy optimum, in the sense of the first or even the second law of thermodynamics, can't lead to the best choice (optimal choice) of realization of an energy installation (choice of investment). An investment in energy saving must last several years during which the value of the currency is modified. Direct calculations of go-no-go for such investment and the optimization calculations of installation (dimension, functioning parameters,..) must take into account both scientific and economic aspects. All energy sectors are concerned. The financial (economic) costs of acquiring the facilities (CAPEX) , their cost of operation and maintenance (OPEX), and the cost of capital play a decisive role. It is necessary to know how to mix with rigor the aspects of the sciences of the engineer (thermodynamics, thermal, mechanics of the fluids) with the financial computations. The methodologies to be acquired in this course can be applied to the other domains of the engineering sciences.








  •   Objectives and content of the course

    - How determine the profitability of energy investment?
    - How to compare two energy investments, and make a choice?
    - What is the Net Present Value (NPV) of an energy investment
    - The Time of Return, a concept to handle with care
    - The Internal Rate of Return (IRR) of an investment.
    - Optimal achievements. Optimal dimensioning of installations from simple to complex: optimal thermal insulation thickness, the diameter of a fluid pipe, ..
    - Thermoeconomy and energy integration.

Learning outcomes of the learning unit

  • Objectives and content of the course
- How to determine the profitability of an energy investment?

- How to compare between two energy investments, and make a choice?


- What is the Net Present Value (NPV) of an energy investment


- The Time of Return, a concept to handle with care


- The Internal Rate of Return (IRR) of an investment.


- Optimal achievements. Optimal dimensioning of installations from simple to complex: thermal

insulation thickness, diameter of a fluid pipe, ...


- Thermoeconomy and energy integration.

Prerequisite knowledge and skills

 
L3 Level Thermodynamics, Heat Transfer and Fluid Mechanics

Planned learning activities and teaching methods

Lesson on Videoprojector and on the board.

Classroom exercises

Homework

Mode of delivery (face to face, distance learning, hybrid learning)

Face To Face

Recommended or required readings

Exam(s) in session

August-September exam session

- In-person

written exam

Written work / report

Out-of-session test(s)


Additional information:

 

Exam (written test) at the end of the courses (no January exam )

Homwork. It's mark represents 1/3 of the final mark

(Final Mark = 3/4 Exam mark +1/4 homework mark).

 

There is a second session for the exam in August-September.

Work placement(s)

Organisational remarks and main changes to the course

Contacts

abdelhamid.kheiriATuniv-lorraine.fr

Association of one or more MOOCs