Augmentation of solar‐assisted humidification‐dehumidification water desalination system using heat recovery and thermal energy storage system

Abstract: Summary In previous investigations, humidification‐dehumidification (HDH) solar‐assisted desalination systems were designed produce the daily fresh water during sun hours which lead to big sizes and unsteady systems. In the present study, integration of solar‐assisted HDH desalination system with heat recovery and thermal energy storage unit is developed to enhance system productivity, reduces auxiliary power consumptions and system size and assure system continuous operation. The mathematical modelling based … Show more

“…A solar-assisted HDH-WDS featuring a heat recovery system, a TES unit, an auxiliary energy supply, and solar collectors was created by Fouda et al [87] The mathematical modeling of the equations regulating the conservation of mass and energy was successfully accomplished using iterative approaches and an engineering problem solver. The results showed that the proposed system can reduce operational expenses while increasing water production.…”

“…Using a low-grade waste heat source, a TES system that was maintained at 55 degrees Celsius was used to provide the energy for a low-temperature WDS. The heat that was lost from the condenser of the absorption refrigeration system was employed as a source of thermal energy to drive the system, and the integration of grid power and a solar collector system provided the energy A solar-assisted HDH-WDS featuring a heat recovery system, a TES unit, an auxiliary energy supply, and solar collectors was created by Fouda et al [87] The mathematical modeling of the equations regulating the conservation of mass and energy was successfully accomplished using iterative approaches and an engineering problem solver. The results showed that the proposed system can reduce operational expenses while increasing water production.…”

Energy Storage for Water Desalination Systems Based on Renewable Energy Resources

“…A solar-assisted HDH-WDS featuring a heat recovery system, a TES unit, an auxiliary energy supply, and solar collectors was created by Fouda et al [87] The mathematical modeling of the equations regulating the conservation of mass and energy was successfully accomplished using iterative approaches and an engineering problem solver. The results showed that the proposed system can reduce operational expenses while increasing water production.…”

“…Using a low-grade waste heat source, a TES system that was maintained at 55 degrees Celsius was used to provide the energy for a low-temperature WDS. The heat that was lost from the condenser of the absorption refrigeration system was employed as a source of thermal energy to drive the system, and the integration of grid power and a solar collector system provided the energy A solar-assisted HDH-WDS featuring a heat recovery system, a TES unit, an auxiliary energy supply, and solar collectors was created by Fouda et al [87] The mathematical modeling of the equations regulating the conservation of mass and energy was successfully accomplished using iterative approaches and an engineering problem solver. The results showed that the proposed system can reduce operational expenses while increasing water production.…”

Energy Storage for Water Desalination Systems Based on Renewable Energy Resources

A comparative study on the regeneration performance of traditional heating and heat localization methods

Performance investigation of the solar direct-driven wood regenerator in liquid desiccant air-conditioning systems