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Analysis of a direct vapor generation system using cascade steam-organic Rankine cycle and two-tank oil storage

Pengcheng Li, Haiwei Lin, Jing Li, Qing Cao, Yandong Wang, Gang Pei, Desuan Jie, Zilong Zhao

2022Energy14 citationsDOIOpen Access PDF

Abstract

A direct vapor generation solar power system using cascade steam-organic Rankine cycle and two-stage oil tanks is proposed. It offers a significantly enlarged storage capacity due to the unique discharge operation mode. Synthetic oil Therminol® VP-1 is used as the heat carrier and storage medium. Compared with the direct steam generation system, the steam turbine inlet temperature is elevated from 270 °C to 311 °C. Thermodynamic analysis indicates that the optimal equivalent heat-to-power conversion efficiency (ηeq,opt) is 27.91% when benzene is used as the bottom fluid and the mass of oil is 1000 tonnes. ηeq,opt is raised by 7.72–11.60% for the selected four organic fluids as compared with the direct steam generation type. The temperature drop of oil during discharge can reach about 280 °C. Economic studies demonstrate that the proposed system is more cost-effective. Its equivalent payback period is less than 5 years for a 10 MW system with 2000 tonnes of oil. Further investigation shows that it is also more advantageous than a conventional thermal oil-based indirect solar power system due to the cost reduction in heat storage.

Topics & Concepts

Organic Rankine cycleRankine cycleThermal energy storageWaste managementThermal efficiencyElectricity generationPetroleum engineeringChemistryEnvironmental scienceProcess engineeringNuclear engineeringEngineeringThermodynamicsPower (physics)Organic chemistryCombustionPhysicsThermodynamic and Exergetic Analyses of Power and Cooling SystemsSolar Thermal and Photovoltaic SystemsAdvanced Thermodynamics and Statistical Mechanics