Study of dynamic performance of radiation collector and thermocline system under time-varying radiation environment.

• A thermocline TES tank is studied through experimental and theoretical methods. • The TES tank use cheap ore as FSM, which provide good thermal characteristics. • The thermocline layer exists during work of TES tank, inducing good TES performance. • The TES tank is further applied in the CSP system, simulated in the four seasons. • The CSP performance during 24 h in four seasons is studied, proving its stability. The dynamic processes of coworking between thermocline thermal storage single (TES) tank and solar collector is studied for their application in solar concentrated power (CSP) plant. The TES tank uses packed-bed ore as heat storage material. Both experimental and numeric methods are conducted to build its theoretical model, which is used in the simulation of the whole CSP system. The theoretical model of the CSP system mainly composes of three parts: solar radiation, solar collector, and TES tank. It is simulated in the location of city Nanjing, China, to study its dynamic performance in the corresponding solar radiation environment in 4 seasons. The result of simulation shows that the CSP system with TES has stable performance while the solar radiation input varies with hour and season. According to the local solar environmental parameters, (the solar radiation energy density within one day of about 28 MJ/m2, and daytime of about 12 h), the solar system with solar collector and thermocline TES tank of proper capacity is designed. In the absence of sunshine during night, the system could supply heat of 225 kW for 12 h continuously, with an efficiency around 51%. With the similar research methods, it is feasible to assess the performance of thermocline TES single tank in CSP system. [ABSTRACT FROM AUTHOR]