Process integration. Teaching in EPFL

Process integration

Teaching in EPFL

Prof. François Marechal

Institute of Mechanical Engineering

School of Engineering

Ecole Polytechnique Fédérale de Lausanne

International Process Integration Jubilee conference

Gothenburg, March 18-20, 2013)

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Mech. Eng. curriculum in EPFL

• 3 years Bachelor : 180 ECTS

– Mech eng.

• Physics

• Thermo I and Thermo II

• Heat transfer

• Hydraulic and turbo machines

• 2 year Master : 120 ECTS

– Orientation : energy (all lecture optional, at least 34

ECTS in mech. eng. program)

– inc. projects 20 ECTS

– inc. Master thesis : 30 ECTS

Master in Eng. in EPFL - Minor in

Energy Organisation

Master Cursus

Mechanical Eng.

Electrical Eng.

Environment Eng.

Physics Eng.

Chemical Eng.

Material Eng.

60 ECTS

Minor

Cursus

20 ECTS

Master Thesis

Eng. Project

10 ECTS

30 ECTS

90 ECTS

sem I

autumn

sem II

spring

sem IV

sem III

autumn

_Ind

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1 ECTS = 1h teaching/week/semester + 1h personal work/week/semester

1 semester = 14 weeks

Bachelor in eng. : 3 years or 180 ECTS

Ph D program : 4 years

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Minor in Energy : the concept

• In addition to Major master diploma

– specialisation/complement

– multi disciplinary

• Total 120 credits / 4 semesters

– 90 master + 30 minor

•30 credits = 10 cr. projects + 20 cr. courses

•20 credits to be selected in the proposed study

plan

http://sti.epfl.ch ->Mech. eng. ->Master -> Minor Energy

– Pre-requisite to be organised within the

major program

SEL-SGM-SMT-SMX

Mineur en Énergie

Les enseignants, les crédits et la période des cours sont indiqués sous réserve de modification.

Période Matières 2 Enseignants Livret des cours Crédits des cours Mineur "Énergie" 87

Aménagements hydrauliques II Schleiss GC 3 P Barrages et ouvrages hydrauliques annexes Schleiss GC 3 A Énergétique du bâtiment Gnansounou/Morel N. GC/AR 3 A Modélisation des systèmes Energie et Transport Bierlaire/Gnansounou GC 3 A Réseaux hydrauliques et énergétiques Boillat/Haldi GC 3 P Plasma physics II Fasoli PH 4 A Plasma physics III Lister PH 4 P Électronique industrielle I Rufer EL 2 A Électronique industrielle II Rufer EL 2 P Optimisation des réseaux vacat EL 3 P Régimes transitoires des machines électriques Simond EL 3 A Systèmes d'électronique de puissance et entraînements Rufer/Simond EL 2 P Systèmes hybrides Simond/Perriard/Rufer EL/MT 3 A Advanced solid waste treatment Ludwig SIE 4 A Climate and climate change Bey SIE 2 P Écologie industrielle Erkmann SIE 3 A Chemical engineering of heterogenous reactions Kiwi L. CGC 3 A Génie électrochimique Comninellis/Foti CGC 3 P Process development I, II Zaza CGC 4 A+P Advanced energetics and engines 1Favrat/Maréchal/Gafner GM 4 A Advanced energy conversion technologies 1Favrat/van Herle/Chawla GM/PH 4 P Energy conversion Favrat / Maréchal / Van Herle GM 2 P Introduction aux turbomachines Avellan/Ott GM 2 P Modélisation et optimisation de systèmes énergétiques Maréchal GM 2 P Two-phase flows and heat transfer Thome GM 4 A

Projet obligatoire du mineur en Énergie

Projet en Énergie 2Divers enseignants STI 12 A ou P 1 Ces cours ne peuvent pas être pris simultanément

Master degree

Electri

city

M

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eng

ineeri

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Ph

ys

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Civil engineering

En

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nmenta

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eng

ineeri

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Chemistry and

Chem. eng.

Production

Distribution

Conversion

Storage

Catalysis

Process Design project

Emissions

Pollution control

environmental impact

Buildings, Dams, Transportation, infrastructure

Plasma,

Nuclear

Fusion

Turbo-machines

Energy conversion cycles

Combustion/Engines

Fuel cells

Renewable energy

Process System

Engineering

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Process system engineering in the energy minor

• Master programs / Minor

– Advanced energetics (5 ECTS highly recommended)

•Process integration

– Pinch analysis

– Energy conversion integration

– Heat exchanger network design

• Exergy Analysis

– Exergy Losses

– Heat transfer requirement definition

– Energy system modeling and optimisation ( 4 ECTS)

• Energy conversion process modeling

• Stating optimisation problems

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International Process Integration Jubilee conference

Gothenburg, March 18-20, 2013)

Advanced energetics (5ECTS) : teaching strategy

• Ex cathedra lecture : 2 ECTS

– On-line videos of the session

– Exercice

– Teaching materials => own lecture note

– Other materials => informative

• Project : solve a process integration problem (3 ECTS)

– Similar problem for each group from the food industry

– group work (7 studs max)

– use of simplified web based tools (mainly targeting)

– make a report

• Exam :

– Poster presentation

– 20 min oral examination on theory

• Population : Year 2002 : 15-20, Year 2012 : 70

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Energy system modeling and optimisation (4 ECTS)

• Ex cathedra lecture : 2 ECTS

– On-line videos of the session

(http://klewel.com/conferences/epfl-advanced-energetics/index.php?talkID=6 )

– Exercice

– Teaching materials => reference books + own slides

– Other materials => informative

• Project : solve an energy conversion system design problem (2 ECTS)

– design a hybrid SOFC-GT system for use in a car powertrain

– group work (5 studs max)

– use of matlab based code (OSMOSE) & Belsim-Vali flowsheeting

– make a report and present the results

• Exam :

– Poster presentation

– 20 min oral examination on theory

• Population : Year 2002 : 10, Year 2012 : 60

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International Process Integration Jubilee conference

Gothenburg, March 18-20, 2013)

Engineering project : 10 ECTS

• Goal :

– Apply the techniques students have learned to solve a problem

• Project realisation

– state the problem

– apply the methods : solve the problem

– evaluate the results

• Write a report

• Present the results

• Opportunities

– Link with PhD research projects

– Link with the industry

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Doctoral school program

• Modeling and optimisation of integrated energy

systems (2 ECTS)

– Application of mathematical programming

techniques

– Process system design

•Thermo-economic optimisation

•Decomposition techniques

•multi-period problems and optimal predictive control

– Application of LCA for environmental