N. H.M. Isa scite author profile

N. H.M. Isa

2Publications

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15Citation Statements Given

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Universiti Malaysia Kelantan

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Mesh material feasibility tests for maximum water collection by using white PE plastic sheet, black polyolefin meshes and HDPE green mesh

Isa

Awang

Ahmad

et al. 2018

J. Fundam and Appl Sci.

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Multiple linear regression analysis prove that meteorological effects and material properties of mesh can affect the volume of water collected. To compare the feasibility of material tests for maximum water collection, One This study aimed to find an alternative way to reduce water scarcity issues in highland area.The sources of surface water and sources of groundwater are almost none. The material (mesh) that used onto the atmospheric water harvester water collection volume. A potable sturdy frame to hold the mesh material tests were developed and the water collected will be directly flow into a water container and the volume of water collected will be record Multiple linear regression analysis prove that meteorological effects and material properties of mesh can affect the volume of water collected. To compare the feasibility of material tests for maximum water collection, One-way ANOVA analysis were used to obtain comparison data.This study aimed to find an alternative way to reduce water scarcity issues in highland area.The sources of surface water and sources of groundwater are almost none. The material (mesh) that used onto the atmospheric water harvester implements an important role in maximizing water collection volume. A potable sturdy frame to hold the mesh material tests were developed and the water collected will be directly flow into a water container and the volume of water collected will be recorded. This study aimed to find an alternative way to reduce water scarcity issues in highland area.The sources of surface water and sources of groundwater are almost none. The material (mesh)implements an important role in maximizing water collection volume. A potable sturdy frame to hold the mesh material tests were developed and the water collected will be directly flow into a water container and the volume J Fundam Appl Sci. 2017, 9(3S), 941-954 942 This study aimed to select the most applicable mesh material that can be add up on to atmospheric water harvester to maximize volume of water collection.

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Atmospheric water harvester: Meteorological effect on water collection

Zol

Isa

Awang

et al. 2018

J. Fundam and Appl Sci.

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Cylindrical shape of atmospheric water harvester model Universiti Malaysia Kelantan. The materials used for the mesh, fins, core and the frame structure are stainless steel which were light and strong to withstand the elements. The experiment was carried out on February and March 2017. Primary data of water was collected from daily monitoring. meteorological data, which contains the data of wind speed, wind direction, dry bulb temperature, relative humidity and rainfall. of water collection with the meteorological data of atmospheric water harvester model to be used in harvesting atmospheric water. Universiti Malaysia Kelantan. The materials used for the mesh, fins, core and the frame structure are stainless steel which were light and strong to withstand the elements. The experiment was carried out on February and March 2017. Primary data collection on volume collected from daily monitoring. Secondary data collection was obtained from which contains the data of wind speed, wind direction, dry bulb temperature, relative humidity and rainfall.Descriptive analysis was used t the meteorological data. It shown the suitability of cylindrical shape of atmospheric water harvester model to be used in harvesting atmospheric water.Meteorological factors implements an important role in maximizing the volume of water atmospheric water harvester; meteorological effect; water collection

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N. H.M. Isa

Mesh material feasibility tests for maximum water collection by using white PE plastic sheet, black polyolefin meshes and HDPE green mesh

Atmospheric water harvester: Meteorological effect on water collection

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