To tackle concerns associated with the water-energy nexus into providing a minimal barrier-of-entry electricity utilization and freshwater supplies to remote communities and decentralized areas. This dissertation addresses off-grid water supply and efficient electricity utilization in different conditional and geographical scenarios. Additionally, the interlinking of water and electricity was addressed by combining water generating methods with cooling devices like PV panels for an improved electricity usage. Firstly, a photovoltaic-membrane distillation-evaporative crystallizer was fabricated to provide simultaneous water and electricity generation. This device uses seawater as a water supply to provide fresh water with zero liquid discharge into cooling down the PV panel for an enhanced performance. Second, atmospheric water harvesting composite PDMAPS/CNT/LiCl was fabricated to demonstrate the salting-in effect for an improved water capture. This uses hygroscopic salt to capture and release water from the atmosphere. Finally, the AWH approach was used to fabricate an anti-corrosive composite PDMAPS/CNT/Clay/IL into cooling electronics through evaporative heat dissipation with improved adhesive properties.
Date of Award | Nov 10 2022 |
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Original language | English (US) |
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Awarding Institution | - Biological, Environmental Sciences and Engineering
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Supervisor | Peng Wang (Supervisor) |
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- Atmospheric water harvesting
- Solar cell cooling
- PV
- Membrane distillation
- non-corrosive
- salting in
- water scarcity
- fresh water
- decentralized
- off-grid