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Cooling greenhouses by using solar energy [electronic resource].

By:

El- soaly, S

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Language: English Summary language: Arabic Description: p. 149-164Other title:

تبريد الصوب الزراعية بإستخدام الطاقة الشمسية [Added title page title]

Uniform titles:

Misr journal of agricultural engineering, 2020 v.37 (1) [electronic resource].

Subject(s):

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Full Text Article

In: Misr Journal of Agricultural Engineering 2020.v.37(1)Summary: Two experimental greenhouses were used in this study, (G1) a greenhouse was ventilated naturally (as control) and (G2) another greenhouse was cooled by using solar energy, it contains: principally of the units: regeneration heat source (solar collector), the rotary wheel dehumidifier (The first part was the regeneration part that equals 50% of the total surface area). Two pad materials were used as pads for cooling, the used materials were cellulose and palm fiber. Three different air velocities of 1,2and 3 m/s were used with each pad material. Three water flow rats of 10, 15 and 20 L/min were used on each pad. The experiments were carried out in the premises of an open roof (third floor) of a Faculty of Agriculture Engineering, Al- Azhar University, Nasr City, Cairo Egypt (Latitude angle of 30° 02’ 30” N, Longitude angle of 31° 14’ 07” E, and mean altitude above sea level of 18 m). The experiments were carried out on April to July2018. The obtained results indicated that the average temperature of 31.0 °C was outside the greenhouse through all the experiments while the average temperatures of 36.4, 24.5 °C were inside the greenhouses (G1), (G2), respectively. The average temperature reduction of 6.6 °C was outside and inside the cooling greenhouse by using solar energy, while the average temperature reduction of 11.9 °C was in the un cooled greenhouse. The highest cooling efficiency of 79.5% was recorded when the outside temperature of 30.6 °C and relative humidity of 41.2%, the previous highest cooling efficiency was when the cellulose pad material was used at water flow rate of 20L/min and wheal face air velocity of 2 m/s.

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Item type	Current library	Call number	Status	Date due	Barcode
Articles	Main	ART MJAE V37 No1 10 (Browse shelf(Opens below))	Available

Includes bibliographic reference.

Two experimental greenhouses were used in this study, (G1) a greenhouse was ventilated naturally (as control) and (G2)
another greenhouse was cooled by using solar energy, it contains: principally of the units: regeneration heat source
(solar collector), the rotary wheel dehumidifier (The first part was the regeneration part that equals 50% of the total surface area).
Two pad materials were used as pads for cooling, the used materials were cellulose and palm fiber. Three different air velocities
of 1,2and 3 m/s were used with each pad material. Three water flow rats of 10, 15 and 20 L/min were used on each pad. The experiments
were carried out in the premises of an open roof (third floor) of a Faculty of Agriculture Engineering, Al- Azhar University,
Nasr City, Cairo Egypt (Latitude angle of 30° 02’ 30” N, Longitude angle of 31° 14’ 07” E, and mean altitude above sea level of 18 m).
The experiments were carried out on April to July2018. The obtained results indicated that the average temperature of 31.0 °C was outside
the greenhouse through all the experiments while the average temperatures of 36.4, 24.5 °C were inside the greenhouses (G1), (G2), respectively.
The average temperature reduction of 6.6 °C was outside and inside the cooling greenhouse by using solar energy, while the average temperature
reduction of 11.9 °C was in the un cooled greenhouse. The highest cooling efficiency of 79.5% was recorded when the outside temperature of 30.6 °C
and relative humidity of 41.2%, the previous highest cooling efficiency was when the cellulose pad material was used at water flow rate of 20L/min
and wheal face air velocity of 2 m/s.

Summary in Arabic.

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