References

1. Z. Chen, Q.Y. Wu, G.X. Wu, H.Y. Hu, Centralized water reuse system with multiple applications in urban areas: lessons from China’s experience, Resour. Conserv. Recycl., 117 (2017) 125–136.
2. X. Zhang, Q.F. Xu, Regional gap and convergence characteristics of China’s high-quality economic development, Stat. Decision, 38 (2022) 102–107 (in Chinese).
3. Z.B. Liao, Quantitative judgement and classification system for coordinated development of environment and economy — a case study of the city group in the Pearl River delta, Trop. Geogr., 2 (1999) 76–82 (in Chinese).
4. S.J. Wang, W. Kong, L. Ren, D.D. Zhi, B.T. Dai, Research on misuses and modification of coupling coordination degree model in China, J. Nat. Resour., 36 (2021) 793–810 (in Chinese).
5. Y.R. Wang, J.X. Song, X.X. Zhang, H.T. Sun, H.F. Bai, Coupling coordination evaluation of water-energy-food and poverty in the Yellow River Basin, China, J. Hydrol., 614 (2022) 128461, doi: 10.1016/j.jhydrol.2022.128461.
6. M. Tomal, Evaluation of coupling coordination degree and convergence behaviour of local development:
   a spatiotemporal analysis of all Polish municipalities over the period 2003–2019, Sustainable Cities Soc., 71 (2021) 102992, doi: 10.1016/j.scs.2021.102992.
7. H.M. Li, Z.M. Jiang, G.H. Dong, L.Y. Wang, X. Huang, X. Gu, Y.J. Guo, Spatiotemporal coupling coordination analysis of social economy and resource environment of central cities in the Yellow River Basin, Discrete Dyn. Nat. Soc., 2021 (2021) 6637631, doi: 10.1155/2021/6637631.
8. C. Yang, W. Zeng, X. Yang, Coupling coordination evaluation and sustainable development pattern of
   geo-ecological environment and urbanization in Chongqing municipality, China, Sustainable Cities Soc., 61 (2020) 102271, doi: 10.1016/j.scs.2020.102271.
9. H. Li, Z. Jiang, G. Dong, L. Wang, X. Huang, X. Gu, Y. Guo, Spatiotemporal coupling coordination analysis of social economy and resource environment of central cities in the Yellow River Basin, Discrete Dyn. Nat. Soc., 2021 (2021) 6637631, doi: 10.1155/2021/6637631.
10. D.J. Guan, W.J. Gao, W.C. Su, H.F. Li, K. Hokao, Modeling and dynamic assessment of urban economy-resource-environment system with a coupled system dynamics - geographic information system model, Ecol. Indic., 11 (2011) 1333–1344.
11. L. Xing, M.G. Xue, M.S. Hu, Dynamic simulation and assessment of the coupling coordination degree of the economy-resource-environment system: case of Wuhan City in China, J. Environ. Manage., 230 (2019) 474–487.
12. Q.Y. Dong, K.Y. Zhong, Y.J. Liao, R.L. Xiong, F.B. Wang, M. Pang, Coupling coordination degree of environment, energy, and economic growth in resource-based provinces of China, Resour. Policy, 81 (2023) 103308, doi: 10.1016/j.resourpol.2023.103308.
13. J. Tao, Y.J. Xie, H.Y. Zhou, Y.Q. Xu, G.S. Zhao, Crosscounty characteristics of water-ecology-economy coupling coordination in the Wuding River Watershed, China, Land, 11 (2022) 2283, doi: 10.3390/land11122283.
14. A.B. Bishop, D.W. Hendricks, Water reuse systems analysis, J. Sanit. Eng. Div., 97 (1971) 41–57.
15. M.E. Mulvihill, J.A. Dracup, Optimal timing and sizing of a conjunctive urban water supply and wastewater system with nonlinear programming, Water Resour. Res., 10 (1974) 170–175.
16. A.A. Aljanabi, L.W. Mays, P. Fox, Optimization model for agricultural reclaimed water allocation using mixed-integer nonlinear programming, Water, 10 (2018) 1291, doi: 10.3390/w10101291.
17. R. Chen, X.C. Wang, Y.Z. Liu, Water reuse system in Xi’an Municipality of China, J. Water Reuse Desal., 5 (2015) 407–418.
18. S.S. Liu, L.G. Papageorgiou, P. Gikas, Management of desalinated seawater, wastewater and reclaimed water in insular and geographically isolated areas using optimisation techniques, Desal. Water Treat., 33 (2011) 3–13.
19. L. Fu, J.M. Wang, S.W. Wang, H.X. Peng, Z.H. Gui, Study of water resource allocation and optimization considering reclaimed water in a typical Chinese City, Sustainability, 15 (2023) 819, doi: 10.3390/su15010819.
20. J.F. Hou, H.Y. Fang, Y.M. Li, Q.Q. Cheng, Identification of influencing factors and potential assessment of the reclaimed water utilization in Suzhou City, South-to-North Water Transf. Water Conserv. Sci. Technol. (Chinese and English), 20 (2022) 682–690 (in Chinese).
21. L.J. Cao, H.D. Wang, A study on the principle and method of installation of sustainable development assessment index, Acta Sci. Circumstantiae, 18 (1998) 526–532 (in Chinese).
22. Z.L. Peng, A.P. Zhang, S.F. Wang, Y. Bai, Designing principles and constructing processes of the comprehensive evaluation indicator system, Sci. Res. Manage., 38 (2017) 209–215 (in Chinese).
23. C. Zhu, C. Fang, L. Zhang, Analysis of the coupling coordinated development of the Population–Water–Ecology–Economy system in urban agglomerations and obstacle factors discrimination: a case study of the Tianshan North Slope Urban Agglomeration, China, Sustainable Cities Soc., 90 (2023) 104359, doi: 10.1016/j.scs.2022.104359.
24. B. Yang, J. Yang, L. Tan, J. Xiao, Understanding the change of land space utilization efficiency with different functions and its coupling coordination: a case study of urban agglomeration in the Middle Reaches of the Yangtze River, China, J. Geogr. Sci., 33 (2023) 289–310.
25. Q. Zuo, W. Li, H. Zhao, J. Ma, C. Han, Z. Luo, A harmonybased approach for assessing and regulating human-water relationships: a case study of Henan Province in China, Water, 13 (2021) 32, doi: 10.3390/w13010032.
26. Q. Zuo, Y. Diao, L. Hao, C. Han, Comprehensive evaluation of the human-water harmony relationship in countries along the “Belt and Road”, Water Resour. Manage., 34 (2020) 4019–4035.
27. X.Y. Zhang, T. Qin, H.F. Sun, L.B. Yang, X.M. Liu, Comprehensive evaluation of water safety in Zhengzhou city based on analytic hierarchy process, Yellow River, 42 (2020) 42–45,52 (in Chinese).
28. M.W. Naikoo, S. Shahfahad, S. Talukdar, M. Ishtiaq, A. Rahman, Modelling built-up land expansion probability using the integrated fuzzy logic and coupling coordination degree model, J. Environ. Manage., 325 (2023) 116441, doi: 10.1016/j.jenvman.2022.116441.
29. X.M. Chen, X.Z. Liu, Geographical detection analysis and spatiotemporal disparity characteristics of the coupling coordination development between urbanization and the eco-environment, Sustainability, 15 (2023) 3931, doi: 10.3390/su15053931.
30. Y.M. Li, H.Y. Fang, J.F. Hou, Q.Q. Cheng, Coupling coordination analysis of water resources-economy-environment-reclaimed water system in Suzhou City, Water Resour. Hydropower Technol. (Chinese and English), 54 (2023) 108–119 (in Chinese).
31. S.J. Shi, Q.T. Zuo, Y.D. Wang, Quantitative analysis of harmony between River-lake water system and socio-economic development in Xiangyang City, Water Resour. Power, 35 (2017) 35–39 (in Chinese).
32. C.G. Zhao, J.X. Ma, Q.T. Zuo, J.Y. Wang, Y.Y. Fu, Resource ecology-economy harmonious development and coupling coordination analysis of the Henan section of the Yellow River, South-to-North Water Transf. Water Sci. Technol., 20 (2022) 660–669+747 (in Chinese).
33. Y.M. Wu, Y. Zhang, Q.G. Wang, D.F. Lang, On environmenteconomy coordinated degree, Environ. Pollut. Control, 1 (1997) 20–23+46 (in Chinese).
34. Y.Y. Qi, A. Farnoosh, L. Lin, H. Liu, Coupling coordination analysis of China’s provincial water-energy-food nexus, Environ. Sci. Pollut. Res., 29 (2022) 23303–23313.
35. Y. Zhang, H. Zhang, F. Hao, Spatiotemporal evolution of investment-carbon emission coupling coordination in China’s electricity market, Front. Energy Res., 10 (2023) 946451, doi: 10.3389/fenrg.2022.946451.
36. S. Ye, Y. Ge, S. Xu, X. Ma, Measurement and prediction of coupling coordination level of economic development, social stability and ecological environment in Qinghai—thoughts on sustainable societal safety, Sustainability, 14 (2022) 10515, doi: 10.3390/su141710515.
37. C. Wang, Q. Yang, S. Wu, Coordinated development relationship between port cluster and its hinterland economic system based on improved coupling coordination degree model: empirical study from China’s Port Integration, Sustainability, 14 (2022) 4963, doi: 10.3390/su14094963.
38. W. Wang, N. Li, Y. Zhou, F. Meng, F. Zheng, Spatiotemporal measurement of the coupling coordination in a region’s economy-technological innovation-ecological environment system: a case study of Anhui Province, China, Pol. J. Environ. Stud., 32 (2023) 1405–1417.
39. Z.F. Zhu, J. Dou, Current status of reclaimed water in China: an overview, J. Water Reuse Desal., 8 (2018) 293–307.