SUPER-HYDROPHOBIC NANO-POROUS/MICRO-POROUS COMPOSITE MEMBRANES FOR MEMBRANE DISTILLATION OPERATING AT LOW INLET FEED TEMPERATURES WITH LOW ENERGY CONSUMPTION
A mathematical model was developed to lead to the design of a novel membrane, which can operate in membrane distillation at a small trans-membrane temperature gradient, including at low feed water temperature range. The novel membrane design can be described as a super-hydrophobic nano-porous/micro-...
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Format | Patent |
Language | English |
Published |
29.07.2020
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Abstract | A mathematical model was developed to lead to the design of a novel membrane, which can operate in membrane distillation at a small trans-membrane temperature gradient, including at low feed water temperature range. The novel membrane design can be described as a super-hydrophobic nano-porous/micro-porous composite membrane. This membrane will significantly decrease the energy requirements of the MD process since it can operate at very low inlet feed temperatures. |
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AbstractList | A mathematical model was developed to lead to the design of a novel membrane, which can operate in membrane distillation at a small trans-membrane temperature gradient, including at low feed water temperature range. The novel membrane design can be described as a super-hydrophobic nano-porous/micro-porous composite membrane. This membrane will significantly decrease the energy requirements of the MD process since it can operate at very low inlet feed temperatures. |
Author | GHAFFOUR, Noreddine ALSAMHOURI, Areej QTAISHAT, Mohammed Rasool MATSUURA, Takeshi LEE, Junggil |
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RelatedCompanies | QTAISHAT, Mohammed Rasool SAUDI MEMBRANE DISTILLATION DESALINATION CO. LTD MATSUURA, Takeshi |
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Snippet | A mathematical model was developed to lead to the design of a novel membrane, which can operate in membrane distillation at a small trans-membrane temperature... |
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Title | SUPER-HYDROPHOBIC NANO-POROUS/MICRO-POROUS COMPOSITE MEMBRANES FOR MEMBRANE DISTILLATION OPERATING AT LOW INLET FEED TEMPERATURES WITH LOW ENERGY CONSUMPTION |
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