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13. andré de herde shc - solar heating and cooling
1. IMPLEMENTING AGREEMENT DAY BELGIUM
Solar Heating and Cooling
A. De Herde
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Strasbourg A. De Herde 21.11.2011
2. Solar Heating and Cooling (www.iea-shc.org)
1. Members
2. Objective and benefits
3. Current Tasks
4. Completed Tasks
5. Others
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Strasbourg A. De Herde 21.11.2011
3. 1. Members - 19 countries and the EU
The Solar Heating and Cooling Programme was established in
1977, one of the first programmes of the IEA.
Austr., Austria, B, C, DK, Finland, Fr, Germany, It, Mexico, NL,
Norway, Port., Spain, Sweden, CH, US, European Union
New members: Singapore and South Africa
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Strasbourg A. De Herde 21.11.2011
4. 2. Objective and benefits
The 20 members have been collaborating to advance active
solar, passive solar and photovoltaic technologies and their
application in buildings.
(réf.: Solar Heat Worldwide - Markets and Contribution to the
Energy Supply 2009 - Werner Weiss and Franz Mauthner)
The benefits are,
- accelerates the pace of technology development,
- promotes standardization
- enhances national R&D programs
- saves time and money
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Strasbourg A. De Herde 21.11.2011
5. 3. Current Tasks (13)
TASK 36 Solar Resource Knowledge Management
TASK 38 Soalr Air-Conditionning and Refrigeration
* TASK 39 Polymeric Materials for Solar Thermal Applications
* TASK 40 Net Zero Energy Solar Buildings
* TASK 41 Solar Energy and Architecture
* TASK 42 Compact Thermal Energy Storage
TASK 43 Solar Rating and Certification Procedures
* TASK 44 Solar and Heat Pumps
TASK 45 Large Systems
TASK 46 Solar Resource Assessment and Forecasting
* TASK 47 Solar Renovation of Non-Residential Buildings
TASK 48 Quality Assurance and Support Measures for Solar Cooling
TASK 49 Solar Heat Integration in Industrial Processes
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Strasbourg A. De Herde 21.11.2011
6. * TASK 39 Polymeric Materials for Solar Thermal Applications
Els De Meersman - industry participant - Chevron Philips Chemicals
The objective of the Task is the assessment of the applicability and the
cost reduction potential by using polymeric materials and polymer based
novel designs of suitable solar thermal systems.
Subtask A: Information
Subtask B: Collectors
Subtask C: Materials
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Strasbourg A. De Herde 21.11.2011
7. * TASK 40 Net Zero Energy Solar Buildings
Roel De Coninck - 3E
Shady Attia - Architecture et climat - UCL
Katrien Biesbroeck- KaHo Sint-Lieven
Erwin Mlecnik - PHP
The objective of the Task is to study current net-zero, near net-zero and
very low energy buildings and to develop a common understanding, a
harmonized international definitions framework, tools, innovative solutions
and industry guidelines.
Subtask A: Definitions and large-scale implications
Subtask B: Design process tools
Subtask C: Advanced building design, technologies and engineering
Subtask D: Dissemination
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Strasbourg A. De Herde 21.11.2011
8. TASK 41 Solar Energy and Architecture
Catherine Massart - Architecture & Climat - UCL
The main goals of the Task are to help achieving high quality
architecture for buildings integrating solar energy systems, as wall as
improving the qualifications of the architects.
Subtask A: Criteria for architectural integration
Subtask B: Method and tools
Subtask C: Concepts, case studies and guidelines
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Strasbourg A. De Herde 21.11.2011
9. TASK 42 Compact Thermal Energy Storage
Johan Van Bael - VITO
The overall objective of the task is to develop advanced materials and
systems for the compact storage of thermal energy.
Subtask A: Material Engineering / Processing
Subtask B: Test and Characterization
Subtask C: Numerical Modeling
Subtask D: Apparatus / Components
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Strasbourg A. De Herde 21.11.2011
10. TASK 44 Solar and Heat Pumps
Filip Van der Schoor - Lessius Mechelen Campus De Nayer
David Winterschoven - Lessius Mechelen Campus De Nayer
The objective of the task is the assessment of performances and
relevance of combined systems using solar thermal and heat pumps to
contribute to successful market penetration.
Subtask A: Solutions and Generic systems
Subtask B: Performance assessment
Subtask C: Modeling and simulations
Subtask D: Dissemination and market support
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Strasbourg A. De Herde 21.11.2011
11. TASK 47 Solar Renovation of Non-Residential Buildings
Sophie Trachte - Architecture & Climat - UCL - Subtask Leader D
Wouter Hilderson - PHP
The objectives are :
- develop a solid knowledge base on how to renovate non-residential
buildings towards the NZEB standards in a sustainable and cost
efficient way
- identify the most important market and policy issues for such
renovations
Subtask A: Advanced exemplary projects
Subtask B: Market and policy issues
Subtask C: Assessment of technical solutions
Subtask D: Environmental and health impact assessment
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Strasbourg A. De Herde 21.11.2011
12. 4. Completed tasks (9)
TASK 8 Passive and Hybrid Solar Low Energy Building
TASK 11 Passive and Hybrid Solar Commercial Buildings
TASK 13 Advance Solar Low Energy Buildings
TASK 18 Advanced Glazing Materials for Solar Applications
TASK 20 Solar Energy in Building Renovation
TASK 21 Daylight in Buildings
TASK 28 Solar Sustainable Housing
TASK 31 Daylighting Buildings in the 21st Century
TASK 37 Advanced Housing Renovation with Solar & Conservation
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Strasbourg A. De Herde 21.11.2011
13. 5. Others
5.1. Solar update - newsletter of the IEA - SHcP
For example : vol 54 - july 2011
- Solar Thermal Generates 196 GWth / 280 million square
meters of collector in the world
- New Method to Calculate Solar Thermal Output
- Task 38 report
5.2. SHC Annual Report
5.3. Solar Heating and Cooling Conference 2012
July 9-11 San Francisco
5.4. SHC Solar Award since 2003
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Strasbourg A. De Herde 21.11.2011