I.M. Al-Helal scite author profile

Cooling greenhouses is essential to provide a suitable environment for plant growth in arid regions characterized by brackish water resources. However, using conventional cooling methods are facing many challenges. Filtering out near infra-red radiation (NIR) at the greenhouse cover can significantly reduce the heating load and can solve the overheating problem of the greenhouse air. This paper is to review (i) the problems of using conventional cooling methods and (ii) the advantages of greenhouse covers that incorporate NIR reflectors. This survey focuses on how the cover type affects the transmittance of photosynthetically active radiation (PAR), the reflectance or absorptance of NIR and the greenhouse air temperature. NIR-reflecting plastic films seem to be the most suitable, low cost and simple cover for greenhouses under arid conditions. Therefore, this review discusses how various additives should be incorporated in plastic film to increase its mechanical properties, durability and ability to stand up to extremely harsh weather. Presently, NIR-reflecting covers are able to reduce greenhouse air temperature by no more than 5°C. This reduction is not enough in regions where the ambient temperature may exceed 45°C in summer. There is a need to develop improved NIR-reflecting plastic film covers.

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Human Thermal Comfort and Heat Stress in an Outdoor Urban Arid Environment: A Case Study

Abdel-Ghany

Al-Helal

Shady

2013

Advances in Meteorology

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To protect humans from heat stress risks, thermal comfort and heat stress potential were evaluated under arid environment, which had never been made for such climate. The thermal indices THI, WBGT, PET, and UTCI were used to evaluate thermal comfort and heat stress. RayMan software model was used to estimate the PET, and the UTCI calculator was used for UTCI. Dry and wet bulb temperatures ( d , w ), natural wet bulb temperature ( nw ), and globe temperature ( g ) were measured in a summer day to be used in the calculation. The results showed the following. (i) The thermal sensation and heat stress levels can be evaluated by either the PET or UTCI scales, and both are valid for extremely high temperature in the arid environment. (ii) In the comfort zone, around 75% of individuals would be satisfied with the surrounding environment and feel comfortable during the whole day. (iii) Persons are exposed to strong heat stress and would feel uncomfortable most of the daytime in summer. (iv) Heat fatigue is expected with prolonged exposure to sun light and activity. (v) During the daytime, humans should schedule their activities according to the highest permissible values of the WBGT to avoid thermal shock.

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Performance analysis of photovoltaic–thermal (PVT) mixed mode greenhouse solar dryer

2016

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The effects of plastic greenhouse covering on cucumber (Cucumis sativus L.) growth

Alsadon

Al-Helal

Ibrahim

et al. 2016

Ecological Engineering

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Experimental studies of active solar still integrated with two hybrid PVT collectors

et al. 2016

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I.M. Al-Helal

Covering Materials Incorporating Radiation-Preventing Techniques to Meet Greenhouse Cooling Challenges in Arid Regions: A Review

Human Thermal Comfort and Heat Stress in an Outdoor Urban Arid Environment: A Case Study

Performance analysis of photovoltaic–thermal (PVT) mixed mode greenhouse solar dryer

The effects of plastic greenhouse covering on cucumber (Cucumis sativus L.) growth

Experimental studies of active solar still integrated with two hybrid PVT collectors

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