Evaluation of a CO₂ Network System for District Heating and Cooling Using Energy Storage Tanks

Abstract

District heating and cooling (DHC) systems have attracted interest in reducing CO₂ emissions, and a 5th-generation DHC (5GDHC) is being proposed in Europe, which supplies a heat-transport medium at ambient temperature and utilizes various unused heat sources. 5GDHC systems have the characteristics of being non-linear, bi-directional and decentralized. The CO₂ network system has similar concepts in these aspects, but the system adopts CO₂ refrigerant as heat-transport medium and uses the latent heat of vaporization of CO₂ refrigerant to transport and exchange unused heat to specific areas via decentralized heat pumps (DHPs). Previous studies have confirmed that the CO₂ network system can reduce the total annual energy consumption by up to 80% compared to the conventional 1st-generation DHC (1GDHC) system using fossil fuels as heat source in Japan. In this study, evaluation of the CO₂ network system, properly storing surplus variable renewable energy (VRE) into storage tanks (STs), is clarified by a flexible grid operation. In addition, it is confirmed that the “zero CO₂ emission” can be achieved by the CO₂ network with STs in optimal operation. The effectiveness of the CO₂ network system with STs is quantified compared to the 1GDHC system.