TY  - SER
AU  - El- soaly,S.
AU  - Shetawy,M.A.
AU  - El-bessoumy,R.R.
AU  - Emam,G.G.
TI  - Cooling greenhouses by using solar energy
KW  - Greenhouses	
KW  - Heating and ventilation
KW  - Solar energy in agriculture
N1  - Includes bibliographic reference
N2  - 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

UR  - http://nile.enal.sci.eg/EALE/2020/MJAE/3720/1/149.pdf
ER  -