Mineur en Energie Minor in Energy -...

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Mineur en Energie - Minor in Energy The Energy Dimension of your Master Mech. Eng. Section Dr. François Marechal MER LENI-IGM-STI-EPFL mailto:francois.marechal@epfl.ch

Transcript of Mineur en Energie Minor in Energy -...

Mineur en Energie-

Minor in EnergyThe Energy Dimension of your Master

Mech. Eng. Section

Dr. François MarechalMER

LENI-IGM-STI-EPFLmailto:[email protected]

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Energy Dimension of Engineering

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Socio - ecologic - economic environment

Energy Dimension of Engineering

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Products &Energy services

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Conversion systems

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Losses WasteEmissions

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Losses WasteEmissions

Engineer’s Challenge : The integration of energy conversion systems for improved

resources productivity

Centrales énergétiques 20083

Carbon Dioxide Information Analysis Center

http://cdiac.esd.ornl.gov/

Emissions de CO2 [GT C]

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CO2

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Population

U.N. Population

Division

Population mondiale [Mhab]

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ENERDATA, IEPE (Martin & Ramain)

Cons. énergie [TW.an]

Energie

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World Energy consumption& Human (engineering) activities

Document Haldi (Lasen)

Primary Energy Consumption per capita in 2005

Source: Key World Energy Statistics, IEA, edition 2007, Renewables Information IEA, edtion 2007

2.7

19.6

16

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10.1

3.4

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37.5

35.7

0 2,000 4,000 6,000 8,000 10,000 12,000

USA : 10474 W

Finlande : 8855 W

Switzerland : 4806 W

Suède : 7673 W

Europe : 5239 W

Monde : 2363 W

Chine : 1752WInde : 650 W

Bangladesh : 225 W

Wyear/year.cap

If all like the USEnergy=Energy*5

The 2000 W society The Swiss Federal Institute of Technology challenge

Autriche : 5536 W

OCDE : 6292 W

Biomass(%)

Minor in Energy : The Energy Dimension of your master diploma !

• Add the Energy Dimension to your diploma

• Multi-disciplinarity

• Technology - Environment - Engineering

• Socio-economics (SHS)

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The Energy Dimension

‣Systemic vision

‣Engineering the integration‣ Energy resources -> Technology -> Energy services‣ Technology in a Socio-economic context

‣ Technology in an Environmental context

‣ Technology in‣ Industrial processes and systems

‣(Renewable) Energy resources conversion

‣Energy Management and Control

‣ Technology in Market

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From the global energy system

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DistrictHeat Pump

house fuel cell

Heat pump with geothermal

Air -waterheat pump

Gas engines ORC

Combined Cycle with fuel cell

Geothermal energy

Solar panels

Energy servicesResourcesInfrastructureNetworks

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to the local conversion

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DistrictHeat Pump

house fuel cell

Heat pump with geothermal

Air -waterheat pump

Gas engines ORC

Combined Cycle with fuel cell

Geothermal energy

Solar panels

BuildingsEmissions

Distribution

Conversion

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to the conversion process ...e.g. SOFC+µT hybrid

SOFCStack &System

240 krpm turbocompressor

+

SOFC Fuel Cells Compressors/turbines/combustion

El. Efficiency > 60%Thermal efficiency : 30 %

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15-DEC-2006 Presentation LENI Fuel Cells /14

ENI Fuel Cells

To technology

FUELELECTRICITY + HEAT

SOFCStack

ElectrochemistryMaterialsCorrosion

Electronics

Thermal management

Thermomechanics Fluiddynamics

Catalysis

Design

strongly

coupled

Organisation : 4 semesters, but ...

Master Cursus60 credits

Minor Cursus

18 credits

Diploma Work

Project12 credits

30 credits90 credits

90 credits

sem Iautumn

sem IIspring

sem IV

sem IIIautumn

Minor in Energy the concept• In addition to Major master diploma

• specialisation/complement

• Total 120 credits / 4 semesters

• 90 master + 30 minor

• 30 credits = 12 cr. projects + 18 cr. courses

• 18 credits to be selected in the proposed study plan

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

• Pre-requisite to be organised in your 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 PBarrages et ouvrages hydrauliques annexes Schleiss GC 3 AÉnergétique du bâtiment Gnansounou/Morel N. GC/AR 3 AModélisation des systèmes Energie et Transport Bierlaire/Gnansounou GC 3 ARéseaux hydrauliques et énergétiques Boillat/Haldi GC 3 P

Plasma physics II Fasoli PH 4 APlasma physics III Lister PH 4 P

Électronique industrielle I Rufer EL 2 AÉlectronique industrielle II Rufer EL 2 POptimisation des réseaux vacat EL 3 PRégimes transitoires des machines électriques Simond EL 3 ASystèmes d'électronique de puissance et entraînements Rufer/Simond EL 2 PSystèmes hybrides Simond/Perriard/Rufer EL/MT 3 A

Advanced solid waste treatment Ludwig SIE 4 AClimate and climate change Bey SIE 2 PÉcologie industrielle Erkmann SIE 3 A

Chemical engineering of heterogenous reactions Kiwi L. CGC 3 AGénie électrochimique Comninellis/Foti CGC 3 PProcess development I, II Zaza CGC 4 A+P

Advanced energetics and engines 1 Favrat/Maréchal/Gafner GM 4 AAdvanced energy conversion technologies 1 Favrat/van Herle/Chawla GM/PH 4 PEnergy conversion Favrat / Maréchal / Van Herle GM 2 PIntroduction aux turbomachines Avellan/Ott GM 2 PModélisation et optimisation de systèmes énergétiques Maréchal GM 2 PTwo-phase flows and heat transfer Thome GM 4 A

Projet obligatoire du mineur en Énergie

Projet en Énergie 2 Divers enseignants STI 12 A ou P

1 Ces cours ne peuvent pas être pris simultanément2 Les professeurs proposant les projets du mineur proposent une liste de cours à option recommandés

Master degree

Electr

icity M

echanical

engineering

Phys

ics

Civil engineering

Envi

ronm

enta

l

engi

neer

ing

Chemistry andChem. eng.

ProductionDistribution

ConversionStorage

CatalysisProcess eng.

EmissionsPollution controlenvironmental impact

Buildings, Dams, Transportation

Plasma,Nuclear

Fusion

Turbo-machinesEnergy conversion cycles

CombustionIndustrial Processes

Systems