TU/e Energy Landscape · PDF fileMark Mietus TU/e Innovation Lab & SA Energy . TU/e energy...

Mark Mietus TU/e Innovation Lab & SA Energy

TU/e Energy Landscape Overview of energy research, including TRL level & cooperation

v1.0 (July 2015)


• One of the goals of strategic area Energy is to enable mutual learning and stimulate internal cooperation between the various research groups that work on the many aspects of the societal challenge ‘sustainable energy’

• For this reason we’ve made an overview of energy research that is performed at our university: the energy landscape

• For all topics also the TRL range of the work is indicated (slide 6)

• Finally a matrix shows the main cooperation between the various groups (slide 7)

Introduction to the energy landscape of the TU/e

2


• Because of the huge variation in topics and fields of interest we’ve use an external framework to map all research projects; the five energy domains: Generation – Storage – Conversion – Distribution – Efficient usage

• A total of 12 clusters is used to further structure the work • Research topics are presented on capacity group level, meaning

individual staff members are not mentioned Thickness of the lines indicates the number of projects ongoing Topics are described in relatively general terms, to facilitate readability by

non-experts

• On the last slide, the same research is shown, clustered by our new four energy themes (as also used in our annual research report 2014) Solar PV – Chemergy – Urban Energy – Nuclear Fusion

How to read the overview

3


Energy domains: general description

4

Generation

Mining (fossils), Electricity (wind, solar, hydro, ..), Nuclear, Heat, …

Efficient usage

heating, cooling, lighting, industry, transport, ICT, …

Storage

thermal, chemical, electrical, mechanical,

electrochemical, …

Distribution

electricity grid, heat grid, gas network, …

Conversion

electricity from fossils, biomass, hydrogen /

syngas production, …


TU/e energy landscape 2014 (on capacity group level)

Efficient usage

Storage Distribution Conversion

David Smeulders – 7 PhD, 1 PD Energy technology, ME • Liquefaction of natural gas • Fracture studies (shale gas)

Philip de Goey – 4 PhD, 2 PD Combustion technology, ME • Gas turbine studies • 2nd gen biofuels • Micro CHP

Hans Kuerten – 3 PhD Process technology, ME • Shale gas/oil exploration

Paul Koenraad – 5 PhD Photonics & semicon nano, AP • Nanowires for solar cells • Thermo electric generation

Maarten Steinbuch - 4 PhD, 1 PD Controls systems techn, ME • Active control for fusion plasmas

Richard vd Sanden – 8 PhD DIFFER / PMP, AP • Plasma-materials interaction

for fusion • Plasma physics of detached

plasma

Herman Clercx – 1 PhD Turbulence & vortex dyn, AP • Turbulence flow in tokamak

Jan Hensen – 8 PhD, 5 PD, 1 PDEng Building performance & simulation, BE • Building &district energy optimization • Energy and indoor environment • Construction R&D support

Wil Kling † / Guus Pemen– 27 PhD, 3 PD . Electrical energy systems, EE • Intelligent (smart) power grids • Distribution network interaction • EMC / disturbance free design

Elena Lomonova – 4 PhD, 2 PD, 1 PDEng Electrom & power eletronics, EE • Wireless energy transfer • DC-grid & dc-dc converters • Multi-port power converters

Bauke de Vries– 4 PhD Urban science & systems, BE • Climate change effect on cons. • Allocation of charging stations &

renewables • Data analysis for smart cities

Emiel Hensen – 21 PhD, 5 PD Molecular catalysis, CE • Biomass upgrading • Syngas chemistry • Natural gas chemistry

Martin v. Sint. Annaland – 3 PhD Chem process intensification, CE • Carbon capture with membranes • Chemical looping combustion

Albert Schenning – 1 PD, 1 PDEng Funct. organic mat & devices, CE • Self cleaning coatings for PV • Luminous solar concentrator

David Smeulders – 13 PhD Energy technology, ME • Thermo-chemical heat storage • Heat storage systems • Micro channel cooling & heat

Erwin Kessels – 1 PhD, 2 PD Plasma & mat. processing, AP • Atomic layer dep.4 batteries

Erwin Kessels – 9 PhD, 3 PD Plasma & mat. processing, AP • Surface passivation of solar cells • Atomic layer deposition for energy

technologies • Thin films for photovoltaics

Peter Notten – 3 PhD En. mat. & devices, CT + EE • Battery mat. & modelling

Niek Lopes Cardozo - 9 PhD Science & techn of fusion, AP • Plasmas burn stability • Plasma imaging diagnostics • Helium transport in tokamak • Material studies

Bert Blocken – 16 PhD, 1 PD, 1 PDEng Building physics, BE • Natural ventilation & air quality • Urban climate • Wind modelling in harbors • Urban climate adaptations

Gerrit Kroesen - 1 PhD Gas discharge processes, AP • Plasma 4 amorphous solar cells

Wim Zeiler – 9 PhD, 2 PD Building services, BE • Building mgt systems • Smart control, incl. storage • Personal climate control

Geert Verbong - 6 PhD, 3 PD Techn. inn & society, IE&IS • Sustainable energy transition • Policy implications • User participation

Herman Clercx – 8 PhD, 1 PD Turbulence & vortex dyn, AP • Modelling photo-bio reactors • Transport of shale gas & heat • Droplets in turbulence (combustion) • Optimization of turbulent & laminar

heat transfer

Paul vd Hof – 3 PhD Control systems, EE • Model based optim.

of fossils exploration

Jos Brouwers – 16 PhD, 3 PD Building materials, BE • Functional materials • Eco building materials • Resource efficiency

Patrick Teuffel – 1 PhD Structural design, BE • Adaptive structures and

building envelopes

René Janssen – 16 PhD, 6 PD Macromolec & org. chem, CE/ AP

• Polymer solar cells

Bert Blocken – 1 PhD, 1 PD Building physics, BE Wind energy in built envir.

Maarten Steinbuch -1PDEng Controls systems techn, ME • Smart charging

Gerrit Kroesen - 2 PhD Gas discharge processes, AP • Solar fuels by reversed combustion

Gerrit Kroesen - 1 PhD Gas discharge processes, AP • Sparks in HV switches

Barry Koren – 4 PhD Centre for analysis, sc comp & applications, M&CS • Tokamak magneto-hydro-

dynamics • Turbulent heat flow • Porous media flow • Wind-farm aerodynamics

Alex Rosemann – Building lighting, BE • Energy-efficient lighting • Daylighting • Calculation methods

Paul Koenraad – 2 PhD Photonics & semicon nano, AP • Nanowires for fuel cells

Harald v Brummelen – 2 PhD Multiscale eng. fluid dynamics, ME • Modelling for shale gas/oil expl.

Paul vd Hof – 1 PhD, 1 PD Control systems, EE • Battery management

Paul vd Hof – 2 PhD Control systems, EE • Chemical transistor

Paul vd Hof – 2 PhD Control systems, EE • Balancing control in

smart grids

Ed Nijssen - 5 PhD Inn. techn. entrepen & mkt, IE&IS • New business models • Energy tech. entrepreneurship • Innovation ecosystem mgt

Volker Hessel – 3 PhD, 1 PD Micro flow chem. & proc. tech, CE • Synthetic fuels • Fuel processing/reforming to H2

for fuel cells (in APUs)

Pieter v Wesemael –1 PhD, 1 PDEng Arch. urban design and eng. BE • Urban heat island & mitigation • Smart cities • Energy neutral neighborhoods

Maaike Kroon – 6 PhD Separations technology, CE • Natural solvents for delignification • Deep eutectic solvents • Sour gas sweetening • CO2 capture by natural solvents

Martin v.St.Annaland – 7 PhD, 2 PD Chemical process intensification, CE • Hydrogen production • Methane reforming/WGS • Chemical looping reforming • Membrane processes

Emiel Hensen – 3 PhD, 2 PD Molecular catalysis, CE • Electro catalysis for solar fuels • CO2 reduction chemistry

Hans Kuipers – 7 PhD Multiscale mod. multi phase flows, CE • Fluidized bed modelling • Porous media flow modelling

Hans Kuipers – 13 PhD Multiscale mod. multi phase flows, CE • Fluidized bed modelling • (slurry) bubble column modelling

clean fossils

Richard vd Sanden – 7 PhD, 6 PD DIFFER / Plasma & mat. proc. AP • Solar fuel materials • Atmospheric plasma processing • CO2 activation • Artificial leaf: CO2 neutral fuels

renewables nuclear fusion

smart grids

electrical storage

heat storage

solar fuels Jaap Schouten– 18 PhD, 2 PD, 2 PDEng Chemical reactor eng, CE • Rotating reactors • Micro reactors • Hydrogen synthesis

Hans Kuerten – 4 PhD, 1 PD Process technology, ME • Biomass co-firing • Evaporator flows in power plants

David Smeulders – 1 PhD Energy technology, ME • Torre faction for biomass

biomass synthetic

fuels

smart buildings

Olaf Adan – 2 PhD Transport in perm. media, AP • Thermo chemical materials

Elena Lomonova – 2 PhD, 1 PD, Electrom & power eletronics, EE • Energy harvesting systems

Philip de Goey – 9 PhD, 4 PD Combustion technology, ME • Mild / flameless combustion • Efficient combustion • Clean & eff. diesel engines

Elena Lomonova – 22 PhD, 3 PD, 4 PDEng Electromech & power electronics, EE • Electric & hybrid powertrain • Permanent magnet, reluctance &

asynchronous motors • High speed electrical drives • High speed & hihg precision systems

Albert Schenning – 2 PhD Func. organic mat & devices, CE • Anti fouling coatings • Responsive IR coatings

Paul vd Hof – 7 PhD, 1 PD Control systems, EE • Energy mgt in hybrid trucks • Model based indus. proc. control

Volker Hessel – 5 PhD, 1 PD Micro flow chem. & PT, CE • Plasma chemistry • Photo redox catalysis

Maaike Kroon –2 PhD, 1 PD Separations technology, CE • Smart separations • Desalination • Recovery from diluted streams

Kevin Williams – 1 PhD Photonic integration, EE • Integrated

nanophotonics

Paul Koenraad – 9 PhD Photonics & semicon nano, AP • Nanowires and plasmonics

for efficient LEDs

Olaf Adan – 2 PhD Transport in perm. media, AP • Polymer encapsulation of LED

Elphi Nelissen

smart processes

smart applications

Generation

Note: thickness of lines around the boxes represents number of projects


TRL levels of TU/e energy research

Efficient usage

Storage Distribution Conversion

David Smeulders Energy technology, ME

Philip de Goey Combustion technology, ME

Hans Kuerten Process technology, ME

Paul Koenraad Photonics & semicon nano, AP

Maarten Steinbuch Controls systems techn, ME

Richard vd Sanden DIFFER / PMP, AP

Herman Clercx Turbulence & vortex dyn, AP

Jan Hensen Building performance & simulation, BE

Wil Kling † / Guus Pemen Electrical energy systems, EE

Elena Lomonova Electrom & power eletronics, EE

Bauke de Vries Urban science & systems, BE

Emiel Hensen Molecular catalysis, CE

Martin v. Sint Annaland Chem process intensification, CE

Albert Schenning Funct. organic mat & devices, CE


Erwin Kessels Plasma & mat. processing, AP

Erwin Kessels Plasma & mat. processing, AP

Peter Notten En. mat. & devices, CT + EE

Niek Lopes Cardozo Science & techn of fusion, AP

Bert Blocken Building physics, BE

Gerrit Kroesen Gas discharge processes, AP

Wim Zeiler Building services, BE

Geert Verbong Techn. inn & society, IE&IS

Herman Clercx Turbulence & vortex dyn, AP

Paul vd Hof – 3 PhD Control systems, EE

Jos Brouwers Building materials, BE

Patrick Teuffel Structural design, BE

René Janssen Macromolec & org. chem. CE

Bert Blocken Building physics, BE

Maarten Steinbuch Controls systems techn, ME

Gerrit Kroesen - Gas discharge processes, AP

Gerrit Kroesen Gas discharge processes, AP

Barry Koren Centre for analysis, sc comp & applications, M&CS

Alex Rosemann Building lighting, BE


Harald v Brummelen Multiscale eng. fluid dynamics, ME

Paul vd Hof Control systems, EE



Ed Nijssen Inn. techn. entrepen & mkt, IE&IS

Volker Hessel Micro flow chem. & proc. tech, CE

Pieter v Wesemael – Arch. urban design and eng. BE

Maaike Kroon Separations technology, CE

Martin v.St.Annaland Chemical process intensification, CE

Emiel Hensen Molecular catalysis, CE

Hans Kuipers Multiscale mod. multi phase flows, CE

Hans Kuipers Multiscale mod. multi phase flows, CE

clean fossils

Richard vd Sanden DIFFER / Plasma & mat. proc. AP

renewables nuclear fusion

smart grids

electrical storage

heat storage

solar fuels Jaap Schouten Chemical reactor eng, CE

Hans Kuerten Process technology, ME


biomass synthetic fuels

smart buildings

Olaf Adan Transport in perm. media, AP

Elena Lomonova Electrom & power eletronics, EE

Philip de Goey Combustion technology, ME

Elena Lomonova Electromech & power electronics, EE

Albert Schenning Func. organic mat & devices, CE


Volker Hessel Micro flow chem. & PT, CE

Maaike Kroon Separations technology, CE

Kevin Williams Photonic integration, EE


Olaf Adan Transport in perm. media, AP

smart processes smart

applications

Generation

1 2 3 4 TRL 9 5 6 7 8

1 2 3 4 TRL 9 5 6 7 8

1 2 3 4 TRL 9 5 6 7 8

1 2 3 4 TRL 9 5 6 7 8

1 2 3 4 TRL 9 5 6 7 8

1 2 3 4 TRL 9 5 6 7 8

1 2 3 4 TRL 9 5 6 7 8

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1 2 3 4 TRL 9 5 6 7 8

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1 2 3 4 TRL 9 5 6 7 8

1 2 3 4 TRL 9 5 6 7 8

1 2 3 4 TRL 9 5 6 7 8

1 2 3 4 TRL 9 5 6 7 8

1 2 3 4 TRL 9 5 6 7 8

1 2 3 4 TRL 9 5 6 7 8

1 2 3 4 TRL 9 5 6 7 8

1 2 3 4 TRL 9 5 6 7 8

1 2 3 4 TRL 9 5 6 7 8

1 2 3 4 TRL 9 5 6 7 8

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1 2 3 4 TRL 9 5 6 7 8

1 2 3 4 TRL 9 5 6 7 8

1 2 3 4 TRL 9 5 6 7 8

1 2 3 4 TRL 9 5 6 7 8

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1 2 3 4 TRL 9 5 6 7 8

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1 2 3 4 TRL 9 5 6 7 8

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Cooperation in current TU/e research

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AP Erwin Kessels ■ 1 2 2 2 1 1

AP Gerrit Kroesen 2 ■ 2 3 3 2 1

AP Herman Clercx ■ 2 2 3 2

AP Niek Lopes Cardozo 2 1 2 ■ 3 1 2 3

AP Olaf Adan ■ 3

AP Paul Koenraad 3 ■ 3 2 3

AP Richard vd Sanden 3 3 ■ 2 2 3

BE Alex Rosemann ■ 3

BE Bauke de Vries ■ 3 3

BE Bert Blocken 3 ■ 3 1

BE Jan Hensen 3 3 ■ 1

BE Jos Brouwers ■

BE Patrick Teuffel 3 ■

BE Pieter van Wesemael 3 ■

BE Wim Zeiler ■ 3

CE Albert Schenning ■

CE Emiel Hensen 3 2 2 ■ 3 3 3 3 1 3

CE Hans Kuipers 2 2 2 ■ 3 3 2

CE Jaap Schouten 3 3 3 ■

CE Maaike Kroon 3 2 ■ 3

CE Martin v. St. Annaland 3 ■

CE René Janssen 1 ■

CE Volker Hessel 1 2 3 3 3 1 ■ 2

EE Elena Lomonova ■ 3 3 2

EE Kevin Williams 3 3 ■

EE Paul vd Hof ■ 3

EE Peter Notten ■

EE Wil Kling 3 3 2 2 ■

IE&IS Ed Nijssen 1 ■ 3

IE&IS Geert Verbong 1 2 3 ■

M&CS Barry Koren ■ 3

ME David Smeulders 3 1 ■ 3

ME Hans Kuerten 1 2 3 ■ 2

ME Harald van Brummelen 2 2 3 ■

ME Maarten Steinbuch 3 ■ 3

ME Philip de Goey 3 3 3 ■

Green cells represents ongoing cooperation between groups. The darker the shade, the more intensive is the cooperation

Mark Mietus TU/e Innovation Lab & SA Energy 8

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