Optimal Dispatch of Integrated Community Energy System Considering Energy Flexibilities in Pipelines and Buildings

Yan Qi; Lei Wu; Yi Ding; Hairun Li

doi:10.1051/e3sconf/202125203012

All issues

Volume 252 (2021)

E3S Web Conf., 252 (2021) 03012

References

Open Access

Issue		E3S Web Conf. Volume 252, 2021 2021 International Conference on Power Grid System and Green Energy (PGSGE 2021)


Article Number		03012
Number of page(s)		5
Section		Energy Technology Research and Development and Green Energy-Saving Applications
DOI		https://doi.org/10.1051/e3sconf/202125203012
Published online		23 April 2021

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[1] H. Jia, Y. Mu, X. Yu. Thought about the integrated energy system in China. Electric Power Construction 36(01), 16–25 (2015) [Google Scholar]

[2] K. Peng, C. Zhang, B. Xu, et al. Status and prospect of demonstration project of multi-energy synergy integrated energy system. Electric Power Automation Equipment 37(06), 3–10 (2017) [Google Scholar]

[3] D. Wang, L. Liu, H. Jia, et al. Review of key problems related to integrated energy distribution systems. CSEE Journal of Power and Energy Systems 4(2), 130–145 (2018) [Google Scholar]

[4] M. Kouhia, T. Laukkanen, H. Holmberg, et al. District heat network as a short-term energy storage. Energy 177, 293–303 (2019) [Google Scholar]

[5] S. Stinner, K. Huchtemann, D. Müller. Quantifying the operational flexibility of building energy systems with thermal energy storages. Applied Energy 181, 140–154 (2016) [Google Scholar]

[6] W. Gu, J. Wang, S. Lu, et al. Optimal operation for integrated energy system considering thermal inertia of district heating network and buildings. Applied Energy 199, 234–246 (2017) [Google Scholar]

[7] M. Wang, Y. Mu, X. Meng, et al. Optimal Scheduling Method for Integrated Electro-thermal Energy System Considering Heat. Power System Technology 44, 132–140 (2020) [Google Scholar]