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Analysis of power and cooling cogeneration using ammonia-water mixture
  • Ricardo Vasquez Padilla
  • Gokmen Demirkaya, University of South Florida
  • D Yogi Goswami, University of South Florida
  • Elias Stefanakos, University of South Florida
  • Muhammad M Rahman, University of South Florida
Document Type
Publication Date
Peer Reviewed
Development of innovative thermodynamic cycles is important for the efficient utilization of low-temperature heat sources such as solar, geothermal and waste heat sources. This paper presents a parametric analysis of a combined power/cooling cycle, which combines the Rankine and absorption refrigeration cycles, uses ammonia-water mixture as the working fluid and produces power and cooling simultaneously. This cycle, also known as the Goswami Cycle, can be used as a bottoming cycle using waste heat from a conventional power cycle or as an independent cycle using solar or geothermal energy. A thermodynamic study of power and cooling cogeneration is presented. The performance of the cycle for a range of boiler pressures, ammonia concentrations and isentropic turbine efficiencies are studied to find out the sensitivities of net work, amount of cooling and effective efficiencies. The roles of rectifier and superheater on the cycle performance are investigated. The cycle heat source temperature is varied between 90-170 °C and the maximum effective first law and exergy efficiencies for an absorber temperature of 30 °C are calculated as 20% and 72%, respectively. The turbine exit quality of the cycle for different boiler exit scenarios shows that turbine exit quality decreases when the absorber temperature decreases.
Citation Information

Vasquez Padilla, R, Demirkaya, G, Goswami, DY, Stefanakos, E & Rahman, MM 2011, 'Analysis of power and cooling cogeneration using ammonia-water mixture', Energy, vol. 35, no. 12, pp. 4649-4657.

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