Water Collection from Air Humidity in Bahrain

Dahman, Nidal; Juboori, Khalil J. Al; BuKamal, Eman A.; Ali, Fatima; AlSharooqi, Khadija K.; Al-Banna, Shaima A.

doi:10.1051/e3sconf/20172303001

Cited by 8 publications

(9 citation statements)

References 10 publications

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“…While, polypropylene double mesh with SC 35% per layer, which coated with silicone and silica coatings layer, showed 40% better results in collecting non-rainfall water yield than all other types. This is consistent with numerous previous studies which recommended the use of double meshes with SC 35% (Eissa 2013;Davis et al 2016;Dahman et al 2017). Double mesh with large SC 50%, 60%, has lowest water yield.…”

Section: Influence Of Shading Coefficient and Mesh Typesupporting

confidence: 92%

“…The estimated air content of the water WH is the amount of water that can accumulate in litres in 24 hours. The requirement for calculating this content is that the relative humidity (RH) is above 69%, then it calculated by Equation (4) (Dahman et al 2017): WH: estimation of the amount of water likely to be collected in litres. AH: absolute humidity.…”

Section: Climate and Environment Factorsmentioning

confidence: 99%

“…)(Davis et al 2016;Dahman et al 2017): Absolute humidity. T: Air temperature, RH: Relative humidity.…”

mentioning

confidence: 99%

“…Relative humidity differs from absolute humidity in that the relative humidity RH, by definition, is the ratio of the current content of a unit of air volume of water to the air content of water at the saturation at the same temperature and air pressure. By definition, absolute humidity AH is the weight of water vapor present in an air volume of one unit(Dahman et al 2017). The relationship between T, dew point T d and RH was calculated using Equation (3)(Ngaina et al 2014;Davis et al 2016):…”

mentioning

confidence: 99%

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Potential of harvesting water from fog and dew water over semi-arid and arid regions in Syria

2021

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Water is a significant primary resource on the earth's surface. Fresh water is essential for a human being and for the stability and sustainable development of any nation. Many regions in the interior of Syria have an insufficient water balance. This has caused severe shortages of freshwater as a result of climate change. Syria's main source of fresh water, rivers and groundwater, suffers from low levels due to the lack of rainfall amounts. The war in Syria exacerbated water stress, in particular the effects of the war on water sources such as the Euphrates River and the ‘Feijah’ source that feeds the capital Damascus. All of this has prompted us to seek other non-traditional sources such as atmospheric water, which is a renewable and relatively clean source. This paper is considered to be the first of its kind in Syria. Experimental results from semi-arid and arid regions have shown good potential for harvesting dew and fog water as a supplementary and complementary source to the existing freshwater supply.

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Section: Influence Of Shading Coefficient and Mesh Typesupporting

confidence: 92%

Section: Climate and Environment Factorsmentioning

confidence: 99%

“…)(Davis et al 2016;Dahman et al 2017): Absolute humidity. T: Air temperature, RH: Relative humidity.…”

mentioning

confidence: 99%

mentioning

confidence: 99%

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Potential of harvesting water from fog and dew water over semi-arid and arid regions in Syria

2021

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“…In different regions researchers developed projects and devices with targeting on harvesting water from air humidity, these devices use the universal principle of densi cation. Dehumidi ers utilized as water extraction devices distributed on different areas in Bahrain con rmed the economy of this method of water collection in comparison to other nonconventional methods [3] (Nidal A. Dahman et Al. 2017).…”

Section: Literature Reviewmentioning

confidence: 82%

Towards sustainable landscape irrigation using novel design of water collecting systems from atmospheric humidity condensation

aldeek¹

2021

Preprint

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The paper proposes an innovative improvement to the water collectors from atmospheric humidity condensation by introducing non-hydrophobic substances to speed up the water condensation and the dropping off process using simple technology, inexpensive and with high quality materials with the finality to favor sustainable irrigation in regions characterized by water resources scarcity favoring greening generally. The innovative collector’ design and experimentation conduced confirm the possibility to collect water from air humidity in different regions with reduced rain days as semi desertic zones enhancing the gain of desertification process, harvesting water in urban landscape, in vertical greening and roof gardens. The first principal innovative aspect of the novel design collector is the fast capacity of condensation caused from the method of design of the used materials and fast capacity of releasing water collected to contrast the undesired evaporations. The second innovative aspect is the reduced volume to permit a diffused and unexpensive implants which can be distribute suitably on the targeted landscape. Reduced costs and simplicity of fabrication announce real possibility of use in underdeveloped and poor countries to increase vegetation diffusion firstly and contributing on sustainable agriculture and architecture.

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Long-term performance evaluation of VCRS-based atmospheric water generation in arid climates

Khalaf,

Lopez Ferber,

Martins

et al. 2024

Case Studies in Chemical and Environmental Engineering

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Water Collection from Air Humidity in Bahrain

Cited by 8 publications

References 10 publications

Potential of harvesting water from fog and dew water over semi-arid and arid regions in Syria

Potential of harvesting water from fog and dew water over semi-arid and arid regions in Syria

Towards sustainable landscape irrigation using novel design of water collecting systems from atmospheric humidity condensation

Long-term performance evaluation of VCRS-based atmospheric water generation in arid climates

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