This work is licensed under the Creative Commons Attribution 4.0 International License.
Xiao, Y., Wang, X., Wang, X., Wu, Z., & Wei, L. (2017). The coordinated development path of renewable energy and national economy in china considering risks of electricity market and energy policy. IEEE Transactions on Industrial Informatics, PP(5), 1-1.Search in Google Scholar
Lin, B., & Zhu, J. (2019). The role of renewable energy technological innovation on climate change: empirical evidence from china. Science of the Total Environment (659-), 659.Search in Google Scholar
Wang, G., Liao, Q., Li, Z., Zhang, H., Liang, Y., & Wei, X. (2022). How does soaring natural gas prices impact renewable energy: a case study in china. Energy, 252.Search in Google Scholar
Gautam, A., Chamoli, S., Kumar, A., & Singh, S. (2017). A review on technical improvements, economic feasibility and world scenario of solar water heating system. Renewable & Sustainable Energy Reviews, 68(pt.1), 541-562.Search in Google Scholar
Sun, Z., Zhao, Y., Wei, X., Zhang, X., Li, H., & Wang, M., et al. (2017). A solar heating and cooling system in a nearly zero-energy building: a case study in china. International Journal of Photoenergy, 2017, 1-11.Search in Google Scholar
Yang, J. (2019). Heat loss analysis and optimization of household solar heating system. Heat Transfer Research, 50(7).Search in Google Scholar
Fan, M., Liang, H., You, S., Zhang, H., Yin, B., & Wu, X. (2018). Applicability analysis of the solar heating system with parabolic trough solar collectors in different regions of china. Applied Energy, 221(jul.1), 100-111.Search in Google Scholar
Ding, Z., Hou, H., Duan, L., Huang, C., & Zhang, N. (2020). Simulation study on a novel solar aided combined heat and power system for heat-power decoupling. Energy, 220, 119689.Search in Google Scholar
Hu, S., Liang, Z., Wei, Z., & He, X. (2017). Research on the integration of hybrid energy storage system and dual three-phase pmsm drive in ev. IEEE Transactions on Industrial Electronics, PP(99), 1-1.Search in Google Scholar
Zhu, C., Yan, S., Dong, X., & Cui, Y. (2021). Exergy analysis of phase-change heat-storage coupled solar heat pump heating system. Materials.Search in Google Scholar
Antoniadis, C. N., & Martinopoulos, G. (2018). Optimization of a building integrated solar thermal system with seasonal storage using trnsys. Renewable Energy, 137(JUL.), 56-66.Search in Google Scholar
Launay, S., Kadoch, B., Metayer, O. L., & Parrado, C. (2019). Analysis strategy for multi-criteria optimization: application to inter-seasonal solar heat storage for residential building needs. Energy, 171(MAR.15), 419-434.Search in Google Scholar
Mahon, D., Henshall, P., Claudio, G., & Eames, P. C. (2020). Feasibility study of mgso_4 + zeolite based composite thermochemical energy stores charged by vacuum flat plate solar thermal collectors for seasonal thermal energy storage. Renewable energy, 145(Jan.), 1799-1807.Search in Google Scholar
Sorknaes, P. (2018). Simulation method for a pit seasonal thermal energy storage system with a heat pump in a district heating system. Energy, (Jun.1), 152.Search in Google Scholar
Montanes, RM, Windahl, Palsson, & Thern. (2018). Dynamic modeling of a parabolic trough solar thermal power plant with thermal storage using modelica. HEAT TRANSFER ENG, 2018,39(3)(-), 277-292.Search in Google Scholar
Meister, C., & Beausoleil-Morrison, I. (2021). Experimental and modelled performance of a building-scale solar thermal system with seasonal storage water tank. Solar Energy, 222, 145-159.Search in Google Scholar
Du, R., Li, W., Xiong, T., Yang, X., Wang, Y., & Shah, K. W. (2019). Numerical investigation on the melting of nanoparticle-enhanced pcm in latent heat energy storage unit with spiral coil heat exchanger. Building Simulation, 12(5), 869-879.Search in Google Scholar
Cao, Z., Agir, M. B., White, C., & Kontis, K. (2022). An open source code for two-phase rarefied flows: rarefiedmultiphasefoam. Computer Physics Communications, 276, 108339-.Search in Google Scholar
Hu, C., Li, H., Tang, D., Zhu, J., & Bai, M. (2020). Pore-scale investigation on the heat-storage characteristics of phase change material in graded copper foam. Applied Thermal Engineering, 115609.Search in Google Scholar