The Effect of Vegetation Coverage and Greenhouse Area on the Performance of an Earth-to-Air Heat Exchanger in Cooling Mode of Greenhouse

The Effect of Vegetation Coverage and Greenhouse Area on the Performance of an Earth-to-Air Heat Exchanger in Cooling Mode of Greenhouse

The underground temperature at a depth of about three to four meters is almost constant during the year. As a result in summer the underground is cooler than the ambient temperature. This potential is considered for greenhouse cooling by using an Earth-to-Air Heat Exchanger (EAHE). In this research...

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Main Authors: M Mohammadi Mogharreb, M.H Abbaspour-Fard, M Goldani, B Emadi
Format: Article
Language:English
Published: Ferdowsi University of Mashhad 2013-02-01
Series:Journal of Agricultural Machinery
Subjects:
Temperature difference
Energy exchange
Cooling
Earth-to-Air Greenhouse
Heating
Online Access:https://jame.um.ac.ir/index.php/jame/article/view/19709
id doaj-56b3c88891594daabe498c1412a87023
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spelling doaj-56b3c88891594daabe498c1412a870232021-02-02T05:33:16ZengFerdowsi University of MashhadJournal of Agricultural Machinery2228-68292423-39432013-02-0131162310.22067/jam.v3i1.197095746The Effect of Vegetation Coverage and Greenhouse Area on the Performance of an Earth-to-Air Heat Exchanger in Cooling Mode of GreenhouseM Mohammadi MogharrebM.H Abbaspour-FardM GoldaniB EmadiThe underground temperature at a depth of about three to four meters is almost constant during the year. As a result in summer the underground is cooler than the ambient temperature. This potential is considered for greenhouse cooling by using an Earth-to-Air Heat Exchanger (EAHE). In this research the effects of two parameters were investigated: a) the area of greenhouse in three levels of 9, 18, 27 m2 and b) the percent of vegetation coverage inside the greenhouse in three levels of 0%, 50%, 100% on the performance of EAHE. The experimental design was factorial experiment in a randomized complete block design. The parameters of greenhouse’s inside temperature, thermal energy exchange and coefficient of performance (COP) were considered in cooling mode. As one of the remarkable results it was observed that the closed loop utilization of the system was infeasible in cooling mode. This was mainly due to the occurrence of vapor distillation inside the underground pipes and hence the blockages of the air flow. Also the effect of area and the percent of vegetation coverage were significant on the performance of EAHE. The highest average temperature difference between the temperature of testimonial greenhouse and the temperature of greenhouse was observed in treatment of 100% vegetation coverage and 9 m2 floor area which was measured as 9.6°C. The least average temperature difference in the treatment without vegetation coverage and 27 m2 floor area was measured as 5.2 °C. Considering thermal energy exchange in cooling greenhouse with open loop, the best treatment determined for EAHE in this research was the one with 9 m2 floor area and 100% of vegetation coverage.https://jame.um.ac.ir/index.php/jame/article/view/19709Temperature differenceEnergy exchangeCoolingEarth-to-Air GreenhouseHeating
collection DOAJ
language English
format Article
sources DOAJ
author M Mohammadi Mogharreb
M.H Abbaspour-Fard
M Goldani
B Emadi
spellingShingle M Mohammadi Mogharreb
M.H Abbaspour-Fard
M Goldani
B Emadi
The Effect of Vegetation Coverage and Greenhouse Area on the Performance of an Earth-to-Air Heat Exchanger in Cooling Mode of Greenhouse
Journal of Agricultural Machinery
Temperature difference
Energy exchange
Cooling
Earth-to-Air Greenhouse
Heating
author_facet M Mohammadi Mogharreb
M.H Abbaspour-Fard
M Goldani
B Emadi
author_sort M Mohammadi Mogharreb
title The Effect of Vegetation Coverage and Greenhouse Area on the Performance of an Earth-to-Air Heat Exchanger in Cooling Mode of Greenhouse
title_short The Effect of Vegetation Coverage and Greenhouse Area on the Performance of an Earth-to-Air Heat Exchanger in Cooling Mode of Greenhouse
title_full The Effect of Vegetation Coverage and Greenhouse Area on the Performance of an Earth-to-Air Heat Exchanger in Cooling Mode of Greenhouse
title_fullStr The Effect of Vegetation Coverage and Greenhouse Area on the Performance of an Earth-to-Air Heat Exchanger in Cooling Mode of Greenhouse
title_full_unstemmed The Effect of Vegetation Coverage and Greenhouse Area on the Performance of an Earth-to-Air Heat Exchanger in Cooling Mode of Greenhouse
title_sort effect of vegetation coverage and greenhouse area on the performance of an earth-to-air heat exchanger in cooling mode of greenhouse
publisher Ferdowsi University of Mashhad
series Journal of Agricultural Machinery
issn 2228-6829
2423-3943
publishDate 2013-02-01
description The underground temperature at a depth of about three to four meters is almost constant during the year. As a result in summer the underground is cooler than the ambient temperature. This potential is considered for greenhouse cooling by using an Earth-to-Air Heat Exchanger (EAHE). In this research the effects of two parameters were investigated: a) the area of greenhouse in three levels of 9, 18, 27 m2 and b) the percent of vegetation coverage inside the greenhouse in three levels of 0%, 50%, 100% on the performance of EAHE. The experimental design was factorial experiment in a randomized complete block design. The parameters of greenhouse’s inside temperature, thermal energy exchange and coefficient of performance (COP) were considered in cooling mode. As one of the remarkable results it was observed that the closed loop utilization of the system was infeasible in cooling mode. This was mainly due to the occurrence of vapor distillation inside the underground pipes and hence the blockages of the air flow. Also the effect of area and the percent of vegetation coverage were significant on the performance of EAHE. The highest average temperature difference between the temperature of testimonial greenhouse and the temperature of greenhouse was observed in treatment of 100% vegetation coverage and 9 m2 floor area which was measured as 9.6°C. The least average temperature difference in the treatment without vegetation coverage and 27 m2 floor area was measured as 5.2 °C. Considering thermal energy exchange in cooling greenhouse with open loop, the best treatment determined for EAHE in this research was the one with 9 m2 floor area and 100% of vegetation coverage.
topic Temperature difference
Energy exchange
Cooling
Earth-to-Air Greenhouse
Heating
url https://jame.um.ac.ir/index.php/jame/article/view/19709
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