Download This PaperResearch on Integrative Optimization Operation Of Seawater Heat Pump, Photovoltaic, and Cross-Seasonal Heat Storage Systems
30 Pages Posted: 27 Jun 2024
Abstract
This paper proposes a novel system that integrates seawater heat pump, photovoltaic, and cross-seasonal heat storage systems for heating, cooling, and power supply. This novel system will be applied to promote the achievement of the "zero carbon" goal and solve the problem of seasonal mismatch and instability between the power demand of heat pumps and photovoltaic power generation. This paper seeks to assess the feasibility of achieving or approaching 'zero carbon' with this innovative system, and the dynamic simulation models were established based on TRNSYS software. Research findings show that cross-seasonal energy storage is recommended to reduce dependence on the power grid and improve the flexibility of power grid regulation. Taking a public building with a floor area of 25,185 ㎡ as an example, the optimization parameters of the system, aimed at minimizing the annual cost, include: the photovoltaic panel area is 20400 ㎡, the volume of the thermal storage water body is 29000 m³, the proportion of heating provided by thermal storage water body is 44.62%, the net carbon reduction rate is 75.59%, and the investment payback period is 7.41 years, and the novel system is feasible.
Keywords: seawater source heat pump, photovoltaic, cross-seasonal heat storage, TRNSYS, dynamic simulation models
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