论文信息 - Simultaneous optimization of configuration and controller parameters in an integrated solar thermal hydronic system

Simultaneous optimization of configuration and controller parameters in an integrated solar thermal hydronic system

This paper proposes a method to optimize simultaneously the configuration and the controller in a solar domestic hot water system, which is an instance of an integrated thermal hydronic system. The system consists of five main components, a solar thermal collector, an air-to-water heat pump, a thermal storage tank, and two heat exchangers. The thermal energy is transferred through the fluid circulating in pipes. For this system, a state-space model is built, and an energy optimization problem is formulated. The problem is numerically solved by the gradient-descent method. Simulation results confirm the usefulness of the proposed optimization method in enhancing the overall system performance. The importance of the simultaneous optimization of both the system configuration and the controller is also demonstrated.

Vladimir Grebenyuk | Ryozo Nagamune | Sara Hosseinirad

[1] Gilles Lefebvre,et al. Using model size reduction techniques for thermal control applications in buildings , 2000 .

[2] Le Minh Nhut,et al. A study on automatic optimal operation of a pump for solar domestic hot water system , 2013 .

[3] Denis Gillet,et al. Advanced control strategy of a solar domestic hot water system with a segmented auxiliary heater , 2001 .

[4] T. Freeman,et al. Performance of combined solar-heat pump systems , 1979 .

[5] Michel Y. Haller,et al. ON THE POTENTIAL OF USING HEAT FROM SOLAR THERMAL COLLECTORS FOR HEAT PUMP EVAPORATORS , 2011 .

[6] Manuel Berenguel,et al. Control of Solar Energy Systems , 2012 .

[7] Robert Fischl,et al. Optimal control of a solar collector loop using a distributed-lumped model , 1981, Autom..

[8] Rui Neves-Silva,et al. Adaptive Control of Solar Energy Collector Systems , 2014 .

[9] Vladimir Grebenyuk,et al. Modeling and control for an integrated thermal hydronic system , 2015, 2015 IEEE 28th Canadian Conference on Electrical and Computer Engineering (CCECE).

[10] Viorel Badescu. Optimal control of flow in solar collector systems with fully mixed water storage tanks , 2008 .

[11] Roberta Padovan,et al. Genetic optimization of a PCM enhanced storage tank for Solar Domestic Hot Water Systems , 2014 .

[12] Chen Xi,et al. Long term operation of a solar assisted ground coupled heat pump system for space heating and domestic hot water , 2011 .