simulation of solar cooling systems - iea...
TRANSCRIPT
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Polysun
Combination solar thermal + heat pump + PV
Component database
World-wide presence, multi-language
12’000 active licenses (3’000 in teaching)
Andreas Witzig
Electrical Engineer, PhD in Optoelectronics at ETH Zurich
Solar Institute SPF in Rapperswil (2001)
Spin-Off Vela Solaris (2003)
Institute for Computational Physics (2015)
Zürcher Fachhochschule ZHAW
Simulation of
Solar Cooling Systems
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Solar
Thermal
Sorption
Chiller
Power-
heat-
cogen
Example:
Building 9m 11.2m, 3 floors, low energy building
Cooling in summer (Tsp=21°C) and heating in winter (Tsp=26°C)
PV field assumed to cover the entire roof (82m2)
Convector
Fan coil
Cooling ceilig
Heat pump
PV field
inverter
Self-consumption
Building
Storage tank
Heat rejection
Cooling and heating with
PV & Compression Chiller
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Polysun
Polysun PV Designer:
Eigenverbrauch berechnen
mit Wärmepumpen,
PV-Moduldatenbank,
Wechselrichterzuordnung,
Batteriesysteme,
Eigenverbrauchsanalyse,
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Results for cooling in winter and summer
5 6 7 8
February
Tamb
°C
30
20
10
0
8
6
4
2
0
kW
Outside temperature
Photovoltaic electric production
Electric power to (solid) and from (dotted) grid
Heatpump electric consumption
PV Self-consumption in August 38%
2 3 4 5
August
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Rooftop
PV Installation
2° inclination
Location:
Rome, Italy
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Various tilt angles
80m2 PV,
Location:
Rome, Italy
Paper presented at OTTI SAC in Rome
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Summary
Grid-coupled PV: optimize self-consumption fraction and
feed-in ratio.
Use for cooling in summer and heating in winter
Including batteries is readily available
Facade challenge: solar radiation incident angle in summer
Locations in Europe: propose to use ~60° also in facades
(which also can be used to provide shading in summer)
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Polysun PV Constructor: Dachplaner, Statikberechnung, PV-Moduldatenbank,
Wechselrichterzuordnung, Batteriesysteme, Eigenverbrauchsanalyse,
Outlook: Polysun GUI also for facade