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Performance analysis of waste heat-driven cooling cum desalination adsorption cycle.
Author(s) : THU K., SAHA B. B., CHAKRABORTY A., et al.
Summary
This article describes a novel low-temperature (typically between 50 and 80°C) waste heat powered adsorption (AD) cycle that produces both cooling and high-grade potable water. The proposed AD cycle comprises three adsorption beds, two evaporators and a condenser, and the mathematical modelling of such a cycle shows the production of (i) the chilled water at 7°C with nominal cooling of 3.5 Rton, and (ii) the cooled-water of 20°C at a nominal capacity 6.0 Rton. Simultaneously, a specific daily water production of 11.2 m3 per tonne of silica gel per day has been achieved from the cycle. With a two temperature levels of evaporation and pressurization in the cycle, the COP of the cycle is found to be approaching 0.80 while the performance ratio of desalination is 0.71.
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Details
- Original title: Performance analysis of waste heat-driven cooling cum desalination adsorption cycle.
- Record ID : 2010-1458
- Languages: English
- Source: 9th IIR-Gustav Lorentzen Conference on Natural Working Fluids (GL2010). Proceedings. Sydney, Australia, April 12-14, 2010.
- Publication date: 2010/04/12
Links
- See translations: Análisis de las prestaciones del ciclo de desalinización por adsorción activado por energía calorífica residual.
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Indexing
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Themes:
Thermodynamics and changes of state;
Other energy-saving and energy-recovery systems;
Ejector systems, air cycle, Stirling cycle, other cycles) - Keywords: Water treatment; Silica gel; Low temperature; Drinkable water; Cooling; Adsorption system; Simulation; Performance; Desalination; Waste heat; Chilled water
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