Hybrid ground-source heat pump systems for cooling-dominated applications: Experimental and numerical case-study of cooling for cellular tower shelters

•Experimental hybrid GSHP for cellular tower shelter operates reliably and efficient.•GSHP-based systems can be significantly more efficient than ASHP-based systems.•ASHP-based systems can have lower total cost of ownership than GSHP-based systems. Techno-economic performance of hybrid ground-source...

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Bibliographic Details
Published in:Energy and buildings 2018-10, Vol.177, p.341-350
Main Authors: Beckers, Koenraad F., Aguirre, Gloria A., Tester, Jefferson W.
Format: Article
Language:English
Subjects:
Air monitoring
Air-economizer
Capital costs
Cellular communication tower shelter
Computer simulation
Configurations
Cooling
Cooling dominated applications
Cooling loads
Cooling systems
Cooling towers
Dry-fluid cooler
Electricity
Electricity consumption
Energy consumption
Geothermal power
Heat
Heat exchangers
Heat pumps
Hybrid air-source heat pump system
Hybrid ground-source heat pump system
Hybrid systems
Ownership
Pumps
Shelters
TRNSYS Systems Modeling
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Summary:•Experimental hybrid GSHP for cellular tower shelter operates reliably and efficient.•GSHP-based systems can be significantly more efficient than ASHP-based systems.•ASHP-based systems can have lower total cost of ownership than GSHP-based systems. Techno-economic performance of hybrid ground-source (geothermal) heat pump systems for cooling-dominated applications has been investigated. An experimental hybrid ground-source heat pump system, providing an average cooling load of 11 kWth for a cellular tower shelter in Varna, New York, United States (“Varna Site”), was commissioned in 2014 and has been extensively monitored. An air-economizer and dry-fluid cooler provide supplemental heat rejection and limit thermal imbalance in the subsurface. Measurements and analysis showed that over its first two years of operation, the average total system coefficient of performance was 4.8. Various hybrid and non-hybrid ground-source and air-source heat pump configurations have been studied using TRNSYS, calibrated with data measured at the Varna Site. Simulations indicate that for the Varna Site weather and operational conditions, ground-source heat pump-based systems allow the owner to save up to 30% of lifetime electricity consumption in comparison with air-source heat pump-based systems. However, air-source heat pump-based systems can have up to 10% lower total cost of ownership, mainly because of lower upfront capital costs. In the base-case scenario, the hybrid configuration of ground-source heat pump with air-economizer has the lowest lifetime energy consumption of 222 MWhe; the hybrid configuration of air-source heat pump with air-economizer has the lowest lifetime total cost of ownership of $54,000.
ISSN:0378-7788
1872-6178
DOI:10.1016/j.enbuild.2018.08.005