20110623 graduation, progress meeting Jeroen van Hellenberg Hubar
Presentation J.W.M.M. Van Hellenberg Hubar Set Mini Symposium 2011 06 14
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Transcript of Presentation J.W.M.M. Van Hellenberg Hubar Set Mini Symposium 2011 06 14
SET Mini-Symposium“Graduating in SET”
Sustainable Energy in The Built EnvironmentUnit Building, Physics & Systems (BPS)
June 14, 2011
Jeroen van Hellenberg Hubar, BEng
12-04-2023
Outline
• Research group
• Internship & Graduation
• Advice
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Research Group
• Department of Architecture, Building and Planning (ABP)
• Unit Building Physics and Systems (BPS)
• The built environment
• consumes ~30-40% world primary energy use
• is where we spend ~90% of our time (i.e indoors)
• combines a complex system of requirements
/ Building Physics & SystemsPAGE 3
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Unit Building Physics and Systems
PAGE 4
• Building Acoustics
• Building Lighting
• Building Physics
• Building Materials• Sustainabl
e high quality
• (indoor) environme
nt• Building Services
• Building Performance
• education
• research
• Design +operation
• life-cycle energy
• comfort, health,
productivity
• thermal, acoustic,
air quality, lighting
Building PerformanceBuilding Performance prof.dr.ir. J.L.M.(Jan) Hensen
/ Physics of the Built Environment 12-04-2023
Internship
How did I obtained my internship
1. Chose specialization
2. Visit website prof. Hensen www.bwk.tue.nl/bps/hensen/
3. Arranged meeting with prof. Hensen
4. Had a meeting with PhD student within the research group
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Internship
Some topics available for internship / graduation
• Can the EPN or BREEAM methods be used for design support?• Optimizing the control of Dutch dwellings for thermal comfort in summer• Design of sustainble power stations• The cradle-to-cradle building of 2050• Performance prediction of phase change materials in building
constructions• Intelligent Buildings• Erasmus - Praag: Comparison of methods for solar system heat gains
calculation• Electrical energy balance analysis for a disaster relief station
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Electrical and thermal energy balance analysis for an off-grid campground siteJune 14, 2011
SupervisorsProf. dr. ir. J.L.M. HensenDr. dipl.-ing M. TrckaB. Lee MScJeroen van Hellenberg Hubar, BEng
Feb 2011
Graduation progress
Dec 2011
/ Physics of the Built Environment 12-04-2023
Internship
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“Electrical and thermal energy balance analysis for an off-grid campground site”
• Literature study for the graduation research• Initial study on campgrounds, renewable energy and energy storage• Input for the graduation proposal
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Graduation
PAGE 9
Background
• Research is a part of Annex 54 from the IEA− Integration of Micro-Generation and Related Energy Technologies in Buildings”
• The Netherlands, Eindhoven participates in 54 subtask B− Use simulations to develop an extensive library of performance studies and
synthesis techniques to identify generic performance trends and “rules of thumb” regarding the appropriate deployment of micro-generation technologies.
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Graduation
PAGE 10
Research question
• “How to develop a design concept which ensures the comfort of the occupants, and has an optimized (system) performance of an energy system with 100% renewable micro-generation technologies which has to satisfy the electrical and thermal energy demand, for an off-grid campground at Texel, in the Netherlands?”
/ Physics of the Built Environment 12-04-2023
Graduation
PAGE 11
Methodology
Graduation
Graduation proposal
Time dependent
demand profiles
Model in TRNSYS
Multi-objective
optimization (single tech.)
Multi-objective
optimization (all tech.)
Uncertainty analysis (weather
2030)
Performance trend
Internship
Initial research question Literature study
Calculations• Demand side• Generation • Supply side
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Graduation
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Methodology
Multi-objective optimization
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 240
1
2
3
4
5
6
7
Energy demand profile vs. energy generation profile
Energy demand
Energy generation technology
Time [h] -->
En
erg
y --
>
Surplus Deficit
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Demand Profiles
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Sub question
• How to ensure the comfort, in terms of the availability of domestic hot water, electricity and a desirable indoor temperature for an off grid campground?
• Sources used;• Central Bureau of Statistics of the Netherlands (CBS)• Knowledge Institute for the installation technology sector (ISSO)• Agency of the Ministry of Economic Affairs, Agriculture and Innovation (Agentschap NL)• Association of water companies in the Netherlands (VEWIN)
/ Physics of the Built Environment 12-04-2023
Demand Profiles
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Demand Profiles
PAGE 15
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 230
1000
2000
3000
4000
5000
6000
Washing machines
Washing place (hot water)
Showers (hot water)
(snack)bar
Internet facility
Drying machines
Restaurant
Recreation space
ATM
Solarium
Indoor pool
Sauna
Whirlpool
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 230
100
200
300
400
500
600
700
800
Tent 01
Tent 02
Cabin 01
Cabin 02
Caravan
Camper
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SketchUp
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TRNSYS
PAGE 17
Model for CabinModel for demandsideTRNSYS model
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TRNSYS Results
PAGE 18
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Winter (test)balance
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Summer (test)balance
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Planning
• Finish TRNSYS model (generation, storage, balance)
• Think of optimization techniques
• Use MODEfrontier for optimization
• Perform sensitivity analysis on results
• Do the same for 3 other campsites
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Advice
• Ask your professor for some possibilities of research topics in the research group.
• Try to make your internship and graduation work to match.
• Company: start with the contractual issues on time, otherwise it can slow down your progress enormously.
• Research group: Make sure you have a daily PhD supervisor and not only a professor.
• Make sure you know the vacation schedules of your professor and other supervisors.
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Questions
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