Research on the layout of coal resource project development in China based on multi-objective optimization algorithm in the context of infrastructure construction
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Liang, S., Wang, W., & Zhang, D. (2018). Characteristics of annual and seasonal precipitation variation in the upstream of minjiang river, southwestern china. Advances in Meteorology, 2018, 1-14.Search in Google Scholar
Xu, Z., Lian, J., Zhang, J., & Bin, L. (2020). Investigating and optimizing the water footprint in a typical coal energy and chemical base of china. Science of The Total Environment, 727, 138781.Search in Google Scholar
Zhao, L. T., Liu, Z. T., & Cheng, L. (2021). How will china’s coal industry develop in the future? a quantitative analysis with policy implications. Energy, 235(8), 121406.Search in Google Scholar
Sheng, J., Tunnicliffe, R., Ganesan, A. L., Maasakkers, J. D., Shen, L., & Prinn, R. G., et al. (2021). Sustained methane emissions from china after 2012 despite declining coal production and rice-cultivated area. Environmental Research Letters, (10).Search in Google Scholar
Wang, C., Wang, F., Zhang, X., Wang, Y., Yongxian, S. U., & Yuyao, Y. E., et al. (2022). Dynamic features and driving mechanism of coal consumption for guangdong province in china. Journal of Geographical Sciences, 32(3), 401-420.Search in Google Scholar
Sun, X., Liu, Y., Guo, S., Wang, Y., & Zhang, B. (2020). Interregional supply chains of chinese mineral resource requirements. Journal of Cleaner Production, 279(2–4), 123514.Search in Google Scholar
Zhang, X., Cui, X., Li, B., Hidalgo-Gonzalez, P., Kammen, D. M., & Zou, J., et al. (2022). Immediate actions on coal phaseout enable a just low-carbon transition in china’s power sector. Applied Energy, 308.Search in Google Scholar
Li, K., Gu, Y., Li, M., Zhao, L., Ding, J., & Lun, Z., et al. (2017). Spatial analysis, source identification and risk assessment of heavy metals in a coal mining area in henan, central china. International Biodeterioration & Biodegradation, S0964830517304766.Search in Google Scholar
Zhang, S., Li, J., & Ma, J. (2019). Roadway supporting technology applied to three soft coal seam at yanlong mining area in china. Thermal Science, 23, 124-124.Search in Google Scholar
Liu, Q. (2018). Investigation on mining-induced fractured zone height developed in different layers above jurassic coal seam in western china. Arabian journal of geosciences, 11(2).Search in Google Scholar
Tao, S., Chen, S., & Pan, Z. (2019). Current status, challenges, and policy suggestions for coalbed methane industry development in china: a review. Energy Science and Engineering, 7(9).Search in Google Scholar
Kan, X., Tian, L., An, X., Guo, S., Yang, X., & Peiguo, H. (2021). Application and development trend of grouting technology in prevention and control of ordovician limestone water disaster in north china type coalfieldsSearch in Google Scholar
Bhandary, R. R., & Gallagher, K. S. (2022). What drives pakistan’s coal-fired power plant construction boom? understanding the china-pakistan economic corridor’s energy portfolio. World Development Perspectives, 25.Search in Google Scholar
Lyulchak, Z., & Krykavskyy, Y. (2020). Yevhen krykavskyy spoeczna akademia nauk promotion peculiarity of energy saving project in ukraine and european union.Search in Google Scholar
Rasheed, R., Javed, H., Rizwan, A., Sharif, F., & Su, Y. (2020). Life cycle assessment of a cleaner supercritical coal-fired power plant. Journal of Cleaner Production, 279(5), 123869.Search in Google Scholar
Price, L., Yun, J., Worrell, E., Du, W., & Sinton, J. E. (2017). Development of an energy conservation voluntary agreement, pilot project in the steel sector in shandong province. project report to the state economic and trade commission, people’s republic of china. Lawrence Berkeley National Laboratory.Search in Google Scholar
Bahl, B., Kuempel, A., Seele, H., Lampe, M., & Bardow, A. (2017). Time-series aggregation for synthesis problems by bounding error in the objective function. Energy, 135(sep.15), 900-912.Search in Google Scholar
Di, A., Ss, A., Aja, B., & Jzab, C. (2019). Dissecting peak broadening in chromatography columns under non-binding conditions - sciencedirect. Journal of Chromatography A, 1599, 55-65.Search in Google Scholar