Performance Improvement of Roof Transparent Solar Still Coupled With Agriculture Greenhouse

Performance Improvement of Roof Transparent Solar Still Coupled With Agriculture Greenhouse

<p class="keywords">In Egyptian desert, growing plants is difficult due to harsh climate (hot at the daytime and cold at the night), infertile  soil,  low  average  rainfall  and  lack  of  fresh  water  for  irrigation  purposes. A set of simple transparent solar stills are integrat...

Full description

Saved in:
Bibliographic Details
Main Authors: Alaa H. Salah, Gasser E Hassan, Mohamed Elhelw, Hassan Fath, Samy E. Elsherbiny
Format: Article
Language:English
Published: Academy Publishing Center 2017-03-01
Series:Renewable Energy and Sustainable Development
Subjects:
renewable energy
solar energy
water desalination
agriculture greenhouse
solar stills
Online Access:http://apc.aast.edu/ojs/index.php/RESD/article/view/207
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:<p class="keywords">In Egyptian desert, growing plants is difficult due to harsh climate (hot at the daytime and cold at the night), infertile  soil,  low  average  rainfall  and  lack  of  fresh  water  for  irrigation  purposes. A set of simple transparent solar stills are integrated with a new solar driven agriculture greenhouse (GH). The stills are placed at the GH roof to use the extra solar radiation (above that required for plant photosynthesis process) for water desalination. In addition to water desalination concept the solar still units even reduce the cooling load during the daytime. A net of aluminum metal coated with black colour is placed on the base of the solar still units to raise the water temperature (enhance desalination process) and provide partially shading for the GH. Using aluminum net decreases also the number of solar still units required to produce the required amount of GH  fresh water leading to a significant cost reduction.</p><p class="keywords">The main objectives of this work are sizing of the aluminum net, spacing between solar still units to obtain the threshold of plant requirements. Also fresh water production and greenhouse climatic conditions that plant needs (temperature, relative humidity, air velocity and amount of oxygen) are simulated.</p><span>Numerical simulation was carried out for the hottest day of Borg Elarab, Alexandria (Egypt). </span>
ISSN:2356-8518
2356-8569

Similar Items