Annual thermal performance of greenhouse with an earth–air heat exchanger: An experimental validation

In this paper the thermal model given by Ghoshal and Tiwari has been validated by round-the-year experimental work at IIT Delhi, New Delhi (28° 35′N, 77° 12′E), India. The correlation coefficient and root-mean-square percentage deviation have been computed for each month for validation of the therma...

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Bibliographic Details
Published in:Renewable energy 2006-12, Vol.31 (15), p.2432-2446
Main Authors: Tiwari, G.N., Akhtar, M.A., Shukla, Ashish, Emran Khan, M.
Format: Article
Language:English
Subjects:
Applied sciences
Devices using thermal energy
Earth–air heat exchanger
Energy
Energy. Thermal use of fuels
Exact sciences and technology
greenhouses
Heat exchangers
Heat exchangers (included heat transformers, condensers, cooling towers)
Heating/cooling potential
India, Delhi
India, Delhi, New Delhi
Q1
Q3
Renewable energy
Temperature
Thermal load leveling
Working conditions
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Summary:In this paper the thermal model given by Ghoshal and Tiwari has been validated by round-the-year experimental work at IIT Delhi, New Delhi (28° 35′N, 77° 12′E), India. The correlation coefficient and root-mean-square percentage deviation have been computed for each month for validation of the thermal model. The values are 0.99% and 4.24% for the greenhouse temperature with an earth–air heat exchanger (EAHE) in the month of January. Statistical analysis shows that there is fair agreement between predicted and experimental values. An effort has also been made to optimize the working hours of an EAHE to obtain maximum heating/cooling potential. The non-operational hours of an EAHE are 252 and 279 for February and March months, respectively. The maximum value of heating potential (11.55 MJ) and cooling potential (18.87 MJ) has been found during off sunshine (8 pm–8 am) hours and peak sunshine hours (8 am–8 pm), for a typical day in the month of January and June.
ISSN:0960-1481
1879-0682
DOI:10.1016/j.renene.2005.11.006