Thermal performance assessment of encapsulated PCM based thermal management system to reduce peak energy demand in buildings

•Thermal analysis of encapsulated PCM based thermal management system.•Good potential to cool the room for summer condition even with heating loads.•Found to be technically as well as economically viable for cooling of buildings. This communication presents the thermal performance and economic evalu...

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Published in:Energy and buildings 2016-04, Vol.117, p.44-52
Main Authors: Tyagi, V.V., Pandey, A.K., Buddhi, D., Kothari, Richa
Format: Article
Language:English
Subjects:
Air-conditioning application
Calcium chloride
Calcium chloride hexahydrate
Coal
Communication systems
Economics
Electricity pricing
Heating load
Phase change material
Thermal energy storage
Thermal management
Thermal management system
Thermal properties
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container_title Energy and buildings
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creator Tyagi, V.V.
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Buddhi, D.
Kothari, Richa
description •Thermal analysis of encapsulated PCM based thermal management system.•Good potential to cool the room for summer condition even with heating loads.•Found to be technically as well as economically viable for cooling of buildings. This communication presents the thermal performance and economic evaluation of the thermal management system (TMS) for cooling applications using calcium chloride hexahydrate as a phase change material. This experimental work was done to shift the peak time cool energy demand for off peak time. The PCM was selected for TMS on the basis of availability in the desired temperature range and long term thermal behavior. The designed system was tested with air conditioning system for cool energy storage and discharged with three heating loads (1kW, 2kW and 3kW) for the real life application. The energetic and exergetic efficiencies were also calculated and found to be highest for 1kW and lowest for 3kW heating load. The economic evaluation of the TMS has been carried with respect of per unit cost of electricity generated by coal, diesel and solar energy and found that payback time is low for solar based generation in comparison to electricity generation by other sources. The results of this study were also compared with those of the theoretical values and are found in good agreement with each other.
doi_str_mv 10.1016/j.enbuild.2016.01.042
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This communication presents the thermal performance and economic evaluation of the thermal management system (TMS) for cooling applications using calcium chloride hexahydrate as a phase change material. This experimental work was done to shift the peak time cool energy demand for off peak time. The PCM was selected for TMS on the basis of availability in the desired temperature range and long term thermal behavior. The designed system was tested with air conditioning system for cool energy storage and discharged with three heating loads (1kW, 2kW and 3kW) for the real life application. The energetic and exergetic efficiencies were also calculated and found to be highest for 1kW and lowest for 3kW heating load. The economic evaluation of the TMS has been carried with respect of per unit cost of electricity generated by coal, diesel and solar energy and found that payback time is low for solar based generation in comparison to electricity generation by other sources. 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subjects Air-conditioning application
Calcium chloride
Calcium chloride hexahydrate
Coal
Communication systems
Economics
Electricity pricing
Heating load
Phase change material
Thermal energy storage
Thermal management
Thermal management system
Thermal properties
title Thermal performance assessment of encapsulated PCM based thermal management system to reduce peak energy demand in buildings
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