Solar Space Cooling and Heating and Hot Water Production for a House
Date Issued
July 2005
Author(s)
Abstract
Heating and cooling of buildings require a large amount of energy. For countries with good solar
potential, solar energy can be considered a viable option for these applications. With the increased price of
fuels solar space heating became a viable option however the potential problem of such a system is that a lot of
solar energy collectors need to be disconnected or shaded during summertime. Solar cooling offers possibilities
of using the same solar collectors for space cooling as well through an absorption chiller. To be viable solar
space heating systems need to utilize a low temperature supply system such as air system. Absorption units on
the other hand require temperature of the order of 90°C but the system during summertime is more effective
and the available solar radiation is much more than the wintertime. A system suitable for a typical 196 m2
house is modelled and simulated with TRNSYS program. The house is located in Nicosia, Cyprus, 35° North
latitude having mild winters and severe summers. Three different types of solar collectors are considered a flat
plate, advance flat plate and evacuated tube collectors. The results show that the optimum system consists of
1.5 m3 storage tank and 30 m2 evacuated tube collectors installed at an inclination equal to 30° and operated at a
water flow rate of 36 kg/hr-m2. The annual solar contribution is about 55% and the economic analysis
performed showed the system is viable as positive life cycle savings are obtained (5100 Euro). Therefore it can
be concluded that solar energy should be used whenever possible.
potential, solar energy can be considered a viable option for these applications. With the increased price of
fuels solar space heating became a viable option however the potential problem of such a system is that a lot of
solar energy collectors need to be disconnected or shaded during summertime. Solar cooling offers possibilities
of using the same solar collectors for space cooling as well through an absorption chiller. To be viable solar
space heating systems need to utilize a low temperature supply system such as air system. Absorption units on
the other hand require temperature of the order of 90°C but the system during summertime is more effective
and the available solar radiation is much more than the wintertime. A system suitable for a typical 196 m2
house is modelled and simulated with TRNSYS program. The house is located in Nicosia, Cyprus, 35° North
latitude having mild winters and severe summers. Three different types of solar collectors are considered a flat
plate, advance flat plate and evacuated tube collectors. The results show that the optimum system consists of
1.5 m3 storage tank and 30 m2 evacuated tube collectors installed at an inclination equal to 30° and operated at a
water flow rate of 36 kg/hr-m2. The annual solar contribution is about 55% and the economic analysis
performed showed the system is viable as positive life cycle savings are obtained (5100 Euro). Therefore it can
be concluded that solar energy should be used whenever possible.
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