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Design and Analysis of a Solar Energy Driven Tri-Generation Plant for Power, Heating, and Refrigeration

Dongchuan You, Akif Eren Tatli, Ashkan Ghanavati, Hameed Metghalchi

2021Journal of Energy Resources Technology16 citationsDOI

Abstract

Abstract A tri-generation plant producing power, heat, and refrigeration has been designed and analyzed. Using solar energy as input. The power side of the plant uses supercritical carbon dioxide (sCO2) recompression cycle. The refrigeration side includes an aqueous lithium bromide absorption system. Thermal energy has been extracted from many places in the plant for heating purposes. A detailed thermodynamics model has been developed to determine performance of the plant for many different conditions. Thermal efficiency, energy effectiveness, and exergetic efficiency of the system has been calculated for different operating conditions. It turns out that the pressure ratio of the recombination cycle and effectiveness of the energy exchanger for transferring energy from the power side to the refrigeration side play important roles.

Topics & Concepts

Absorption refrigeratorRefrigerationProcess engineeringHeat exchangerSolar energyEnvironmental scienceThermal energyNuclear engineeringPower stationConcentrated solar powerElectricity generationBrayton cycleSupercritical fluidCarnot cycleHeat pump and refrigeration cycleThermodynamicsPower (physics)RefrigerantMechanical engineeringEngineeringElectrical engineeringPhysicsThermodynamic and Exergetic Analyses of Power and Cooling SystemsCarbon Dioxide Capture TechnologiesRefrigeration and Air Conditioning Technologies
Design and Analysis of a Solar Energy Driven Tri-Generation Plant for Power, Heating, and Refrigeration | Litcius