A Study on Comprehensive Evaluation Methods for Coordinated Development of Water Diversion Projects Based on Advanced SWOT Analysis and Coupling Coordination Model

: The implementation of water diversion projects will exert different inﬂuences on upstream water offering areas and the downstream water receiving areas. In order to effectively promote the coordinated development of the two regions, a comprehensive evaluation system for the coordinated development of water transfer projects has been proposed with the Middle Route of the South-to-North Water Transfer Project as the research object. The system conducts a multidimensional evaluation of social development, economic development, and ecological environmental impact, and builds a comprehensive evaluation index system with ﬁfteen evaluation indexes at three levels, with the indexes weighted through the comprehensive weighting method based on the combination of the G1 method and the entropy weight method. Based on the degree of coordinated development among various systems, the coordinated development of the Middle Route of the South–North Water Transfer Project is graded through a comprehensive evaluation. This method is tested in the decision support system of the Middle Route Construction and Administration Bureau, China. The results show that: (1) The coupling coordination degree value of the middle route of the South-to-North Water Diversion Project is 0.8912, which shows that the regional development of the water transfer project is high coupled coordination. (2) The coordination between the economic system and the ecological environment system is weaker than the coordination between the economic system and the social service system, and the coordination between the ecological and social services is the best. Finally, based on an advanced SWOT analysis of the future development of the middle route of the South-to-North Water Diversion Project, effective suggestions for regional development are provided. It provides reference or guidance for the competent authority to manage the water diversion project and the central government to comprehensively evaluate the effectiveness of the water diversion project.


Introduction
Water scarcity is one of the most profound and widespread environmental challenges in the world [1,2], and the spatial distribution of water resources in China is uneven, which does not match the distribution of land and mineral resources and the distribution of productivity [3,4]. The construction of water diversion projects can alleviate the uneven distribution of water resources in space [5,6]. In March 2014, General Secretary Xi Jinping Sustainability 2021, 13, 13600 2 of 19 put forward the water management policy. In it, in order to achieve the goal of "balanced spatial layout" [7], it is necessary to focus on water diversion projects and water resources dispatching. At present, there are many large-scale water transfer projects in the world, some famous ones including the Colorado Great Thomson River Water Diversion Project and the South-to-North Water Diversion Project in China [8][9][10]. However, water diversion projects may cause uncoordinated development between the water offering area and the water receiving area. On the one hand, the water offering area may see its ecological environment be damaged due to the large amount of water resources diverted [11,12], and its economic and social development may be slowed down [13,14]. On the other hand, although available water in the water receiving area has increased, if we do not adhere to the high-quality economic development and regional overall coordination principles it will probably aggravate pollution [15,16] and build up the economy only in quantity rather than the quality [17,18]. Therefore, it is very important to effectively promote the coordinated development of the two areas. How to evaluate the degree of cross-regional coordinated development is a key issue.
At present, the coupling coordination model is widely used in social [19,20], economic and environmental aspects, including river and lake health assessment. Take the middle and lower reaches of the Hanjiang River as an example, the river ecosystem health assessment system is constructed based on indexes of integrity, stability, and sustainability [21]. Another study focuses on the evaluation of coordinated development for Dongting Lake by building a systematic ecology-economy-society evaluation model of coordinated development, and the coupling degree and coordinated development degree of Dongting Lake system in 14 years from 2005 to 2018 are measured quantitatively [22]. The evaluation of coordinated development is made based on statistics of seven cities by the East China Sea by building an economy-society-environment evaluation model of coordinated development, and its comprehensive development level and coupling coordination degree are analyzed and predicted through the R/S analysis method [23]. Therefore, it is feasible to use the coupling coordination model to evaluate the overall development of the Middle Route of the South-North Water Transfer Project [24]. In addition, the index system established in this paper is not only suitable for academic research, but also provides support for the authorities to manage water diversion projects and for the central government to carry out a comprehensive evaluation of the effectiveness of water diversion projects. However, the current research does not consider the coordinated development among various systems, nor does it consider the classification of coordinated development of water transfer projects.
Previously, the SWOT method has been applied in studies for solving urban ecological crises [25,26], and a model of urban ecological footprint and ecological capacity was established to analyze the ecological sustainability of regional tourism environment before putting forward the strategy of sustainable development [27]. Besides, SWOT analysis, fuzzy theory, and the ANP method [28] were used to conclude that making a consumer awareness plan is the best strategy. SWOT analysis and the fuzzy analytic hierarchy process (FAHP) were used to evaluate the potential of renewable resources in a certain area of Pakistan, and it was concluded that the government needs to develop renewable resources, making it the best strategy to alleviate the energy crisis in Pakistan [29]. Therefore, it is feasible to use the SWOT method to give strategy options on how to promote regional coordinated development after completion of the Middle Route of the South-North Water Transfer Project.
The comprehensive evaluation method for the coordinated development of the Middle Route of the South-to-North Water Transfer Project was explored, and a comprehensive evaluation process for the coordinated development of the project was proposed. Our work goals are: (1) establish a multi-index system for social development, economic and ecological environmental impact; (2) use the G1 method and entropy weight method to determine the weight of each index; (3) establish a comprehensive evaluation system based on the comprehensive evaluation method for the coupled and coordinated development of water transfer projects; (4) verify the rationality of the method through examples; (5) use SWOT analysis to put forward effective suggestions for regional development; (6) discuss the advantages and disadvantages of this method.

Overview of the Area Studied
The Middle Route of the South-North Water Transfer Project is proposed to meet the development needs of all parts of North China (Figure 1). This project passes through the west side of the third step of China's topography and draws water from the middle reaches of the Yangtze River and its tributary Hanjiang River, which can supply water to most areas of the Huang-Huai-Hai Plain by gravity. During the near term, water has been diverted from Danjiangkou Reservoir along the Hanjiang River, a tributary of the Yangtze River, and channeled along the piedmont plain of Funiu Mountain and Taihang Mountain before ending in Beijing. In the long-term, it is planned to divert water from the Three Gorges Reservoir or the main stream of the Yangtze River below to increase the amount of water diverted to the north. The Middle Route of the South-North Water Transfer Project has good water quality, large coverage, self-flowing water transfer, and other advantages. This project is planned to divert 14.6 billion m 3 of water from Danjiang Reservoir annually, which mainly supplies water to Hubei, Henan, Hebei, Beijing, and Tianjin in the Tangbai River Basin, the middle and upper reaches of Huaihe River, and the western plain of Haihe River Basin. It focuses on solving the water shortage situation of more than 20 large and medium-sized cities along the diverting route such as Beijing, Tianjin, and Shijiazhuang, and takes into account the ecological environment and agricultural water use all along, which is a major solution to the water resources crisis in North China [30]. ecological environmental impact; (2) use the G1 method and entropy weight method to determine the weight of each index; (3) establish a comprehensive evaluation system based on the comprehensive evaluation method for the coupled and coordinated development of water transfer projects; (4) verify the rationality of the method through examples; (5) use SWOT analysis to put forward effective suggestions for regional development; (6) discuss the advantages and disadvantages of this method.

Overview of the Area Studied
The Middle Route of the South-North Water Transfer Project is proposed to meet the development needs of all parts of North China (Figure 1). This project passes through the west side of the third step of China's topography and draws water from the middle reaches of the Yangtze River and its tributary Hanjiang River, which can supply water to most areas of the Huang-Huai-Hai Plain by gravity. During the near term, water has been diverted from Danjiangkou Reservoir along the Hanjiang River, a tributary of the Yangtze River, and channeled along the piedmont plain of Funiu Mountain and Taihang Mountain before ending in Beijing. In the long-term, it is planned to divert water from the Three Gorges Reservoir or the main stream of the Yangtze River below to increase the amount of water diverted to the north. The Middle Route of the South-North Water Transfer Project has good water quality, large coverage, self-flowing water transfer, and other advantages. This project is planned to divert 14.6 billion m³ of water from Danjiang Reservoir annually, which mainly supplies water to Hubei, Henan, Hebei, Beijing, and Tianjin in the Tangbai River Basin, the middle and upper reaches of Huaihe River, and the western plain of Haihe River Basin. It focuses on solving the water shortage situation of more than 20 large and medium-sized cities along the diverting route such as Beijing, Tianjin, and Shijiazhuang, and takes into account the ecological environment and agricultural water use all along, which is a major solution to the water resources crisis in North China [30].

Evaluation Process
The Middle Route of the South-North Water Transfer Project will have an impact on the economy, ecology, and society of the water offering area and the water receiving area. In order to comprehensively analyze the contribution that water supply makes to social development, economic development, and ecological environment in the Middle Route of the South-North Water Transfer Project, and further improve the public recognition of this project, it is of great significance to establish a comprehensive evaluation system for the coordinated development of the water offering area and the water receiving area.
The comprehensive evaluation process of coordinated development of the Middle Route of the South-North Water Transfer Project is shown in Figure 2.

Evaluation Process
The Middle Route of the South-North Water Transfer Project will have an impact on the economy, ecology, and society of the water offering area and the water receiving area. In order to comprehensively analyze the contribution that water supply makes to social development, economic development, and ecological environment in the Middle Route of the South-North Water Transfer Project, and further improve the public recognition of this project, it is of great significance to establish a comprehensive evaluation system for the coordinated development of the water offering area and the water receiving area.
The comprehensive evaluation process of coordinated development of the Middle Route of the South-North Water Transfer Project is shown in Figure 2. The first step is to collect information and data related to water offering areas, water receiving areas, and the water diversion project through literature research, field investigations, network queries, and technical monitoring.
The second step is to calculate the index with data collected by using the comprehensive evaluation system of coordinated development for the Middle Route of the South-North Water Transfer Project and evaluate the results to judge whether they show coordinated development or not: if coordinated, the evaluation is completed; if not coordinated, proceed to the third step.
The third step is to analyze the whole area and take measures to optimize it by relevant authorities, then collect information and data of the adjusted whole area after the optimization is completed and repeat the second step to calculate through the comprehensive evaluation system for the coordinated development of the Middle Route of the South-North Water Transfer Project to judge whether the evaluation results are coordinated. If it is still not coordinated, repeat the above process to continuously analyze and optimize until the evaluation results prove coordinated and the evaluation is completed. The first step is to collect information and data related to water offering areas, water receiving areas, and the water diversion project through literature research, field investigations, network queries, and technical monitoring.
The second step is to calculate the index with data collected by using the comprehensive evaluation system of coordinated development for the Middle Route of the South-North Water Transfer Project and evaluate the results to judge whether they show coordinated development or not: if coordinated, the evaluation is completed; if not coordinated, proceed to the third step.
The third step is to analyze the whole area and take measures to optimize it by relevant authorities, then collect information and data of the adjusted whole area after the optimization is completed and repeat the second step to calculate through the comprehensive evaluation system for the coordinated development of the Middle Route of the South-North Water Transfer Project to judge whether the evaluation results are coordinated. If it is still not coordinated, repeat the above process to continuously analyze and optimize until the evaluation results prove coordinated and the evaluation is completed. Namely, there is a logical relationship inherent to these indexes, and superficially they also reflect the economy-ecological environment-social service system. (3) Practical principle: The operability analysis of evaluation indicators has the following requirements: 1 availability of information and data; 2 low impact on managerial costs; 3 meet the economic needs of coordinated development of the two areas; 4 meet the ecological and environmental needs for the coordinated development of the two areas; 5 meet the social service needs for the coordinated development of the two areas. This index evaluation system requires that indexes have strong applicability, namely meeting the criteria of 1 and 2 and at least one of the three criteria of 3 to 5 . (4) Dynamic principle: The study of the eco-environment-economy-society system is a dynamic process, where its development potential needs to be investigated dynamically, so it is necessary to collect index data for years to determine the changes.

Define the Index System
The Middle Route of the South-North Water Transfer Project is a complex system integrating social services, ecological environment, and economic development, with the subsystems interacting and check and balancing with each other. Based on the abovementioned principles for defining indexes, this paper selects 15 strongly applicable and highly representative key indicators from the perspectives of geographical location, pollutant type, economic impact, ecological environment impact, and social service function to establish a comprehensive, flexible, and easy-to-quantify evaluation index system of coordinated development for the Middle Route of the South-North Water Transfer Project, as shown in Figure 3.

Define the Value of Each Index
The evaluation index system of coordinated development for the Middle Route of the South-North Water Transfer Project identifies fifteen indexes from three aspects of economy, social services, and ecological environment. According to their contribution to regional coordinated development, the indicators can be divided into positive indicators and negative indicators. The greater the positive index value is, the more conducive it is to regional coordinated development, while the contrary is a negative index. The following method is given to define the value of each index, which can further determine the coordinated development degree of this project.

Define the Value of Economic Subsystem Indexes
There are three indicators in the economic subsystem: Input Ratio of the Water Diversion Project, Regional Input Intensity, and Output Index of the Water Diversion Project. The calculation formula of each index in the economic subsystem is shown in Table 1, and the description of the calculation variables of each indicator are shown in Table S1 (electronic supplementary material).

Define the Value of Eco-Environment Subsystem Indexes
There are five indicators in the eco-environment subsystem: Degree Meeting Regional Ecological Water Use, Emergency Response against Pollution Outbreak, Regional Ecological Environment Index, Water Resources Capacity Index, and Water Origin Safety Level. The calculation formula of each index in the eco-environment subsystem is shown in Table 2,

Define the Value of Each Index
The evaluation index system of coordinated development for the Middle Route of the South-North Water Transfer Project identifies fifteen indexes from three aspects of economy, social services, and ecological environment. According to their contribution to regional coordinated development, the indicators can be divided into positive indicators and negative indicators. The greater the positive index value is, the more conducive it is to regional coordinated development, while the contrary is a negative index. The following method is given to define the value of each index, which can further determine the coordinated development degree of this project.

Define the Value of Economic Subsystem Indexes
There are three indicators in the economic subsystem: Input Ratio of the Water Diversion Project, Regional Input Intensity, and Output Index of the Water Diversion Project. The calculation formula of each index in the economic subsystem is shown in Table

Index Calculation Formula Index Attribute Notes
Input Ratio of the Water In which PI is the input of the water diversion project itself; BG indicates the total project budget and based on a survey, the estimated total investment is CNY 19.125 billion.

Regional Input
Intensity In which RI is the regional funding input; GDP area is the regional GDP.
Output Index of the Water Diversion Project C 3 In which OP is the output value of the water diversion project; GDP area is the regional GDP.
Positive Where q d is the measured daily runoff in the evaluation year; Q is the average annual runoff. Emergency Response against Pollution Outbreak The score of each index E i is defined through expert consultation, with a maximum of 10 points for each index.
Regional Ecological Environment Index C 6 In which NDVI represents the annual vegetation index of China; NDVI soil is the NDVI value of the area without vegetation coverage; NDVI veg represents the NDVI value of the area completely covered by vegetation.

FOE = FO/FE
In which FO is the number of fish species; FE is the number of fish species in the reference state.
In which BIBI 0 is the monitoring value of the integrity index; BIBI E is the best-expected value of the integrity index.

WQI = WQ/100
The water quality evaluation levels are divided into five categories: excellent, good, poor, very poor, and extremely poor, and the corresponding WQ value ranges are 0-20, 20-40, 40-60, 60-80, and 80-100.  Table 3, and the description of the calculation variables of each indicator are shown in Table S3 (electronic supplementary material). Table 3. Calculation formula of each index in social service subsystem.

Index Calculation Formula Index Attribute Notes
Water Functional Area Qualification Index C 9 C 9 = WFA SN WFA T

Positive
In the formula, WFA SN is the number of functional areas that meet water quality standards in the basin; WFA T is the total number of water functional areas in the basin.
Storage Adjustment and Flood Control Index C 10 C 10 = C r C p × 100% Positive In which C r is the adjustable water storage capacity of reservoirs; C p is the planned storage capacity of reservoirs.
Special Industry Development Index C 11 C 11 = GDP GI +GDP TI GDP area

Positive
In which GDP area is the regional GDP; GDP GI is the GDP of green industry and GDP TI is the GDP of the tourism industry.
Public Satisfaction Index C 12 The score of each index E i is defined through expert consultation, with a maximum of 10 points for each index. Water Resource Development and Utilization Rate C 13 In which WR is the total amount of regional water resources; WU is the development and utilization amount of regional water resources.
Water Supply Guarantee Rate C 14 In the formula, G is the number of periods that water supply is met; Y is the number of runtime periods.

Irrigation Guarantee
Rate In the formula, G is the number of periods that the intended irrigation water consumption is met; Y is the number of runtime periods.
Indicator values of C 1 , C 2 , C 3 , C 4 , and C 10 may be greater than 1. In order to eliminate the impact caused by different orders of magnitude of data, values of these five indicators are assigned, as shown in Table 4.

Define the Weight of Each Index
In this paper, a comprehensive and integrated weighting method [31] is used, which combines the advantages of the subjective weighting method and the objective one. By comparing the weight vectors obtained by subjective and objective methods, the deviation of a specific index can be minimized, thus combining the advantages of both methods.

The Subjective Weighting Method
Among many subjective weighting methods, the G1 method does not need to make matrix consistency judgments or conduct consistency tests [32,33]; the adjustment process dominated by experts' will fully reflect subjectivity, and the calculation process is concise, clear, and explicit. Therefore, this paper chooses the G1 method as the subjective weighting method. Its calculation steps are illustrated as follows.
A. When m policy-makers' order relationships are consistent: Firstly, define the order relationship: namely under the premise of a certain evaluation criterion, the order relationship of the evaluation indicators is determined by the importance of the evaluation indicators, and finally, a relationship sequence is obtained: Then, the comparative judgment of the relative importance between x k−1 and x k is given: w k−1 w k = r k k = n, n − 1, n − 2, . . . , 2. (1) For value assignment for r k, refer to Table 5. Table 5. r k reference value [34]. r k Notes Index x k−1 is obviously more important than index x k 1.6 Index x k−1 is strongly more important than index x k 1.8 Index x k−1 is extremely more important than index x k Finally, calculate the index weight coefficient: When m policy-makers' order relationships are inconsistent: Assuming that there are P types of order relationship, the number of experts is M 1 , M 2 , . . . , M P , it is sufficed Then the weight for each type of order relationship is w i j (i = 1, 2, . . . , P; j = 1, 2, . . . , n).
The coefficient for each index's weight is

The Objective Weighting Method
The entropy method follows mathematical laws, and information comes from the original data in each system, which fully demonstrates the scientific and objective features of the objective weighting method. Therefore, this paper chooses the entropy method as an objective weighting method [35,36]. Its calculation steps are illustrated as follows.
Firstly, it is assumed that there are m objects to be evaluated and n evaluation indexes. For the i-th target scheme, the formula for calculating the evaluated weight p ij of the j-th index is as follows: Then, calculate the entropy value of the j-th index: In which k = 1/ ln m. Finally, calculate the entropy weight of the j-th index: The Comprehensive Integrated Weighting Method In this paper, both the subjective method and the objective method are used to weight n indexes respectively, and two index weight vectors are obtained: The arbitrary linear combination of these two weight vectors is: In the formula, a k is the linear combination coefficient; w is the comprehensive weighting vector set.
The two linear combination coefficients a k in Formula (7) are optimized to minimize the deviation between w and each w k . It can be concluded that: (a 1, a 2 ) calculated by Formula (8) is then normalized, namely The final combination weight is:

Define the Coordinated Development Level
Coupling, derived from physics, refers to the phenomenon that two or more systems or motion forms influence each other through various interactions. Introducing the coupling coordination model into the study can not only reflect the coordination between the economy-ecological environment-social service systems, but also demonstrate the stage of coordinated development, namely: (1) Calculate the comprehensive evaluation index of three systems f (x), g(y), k(m): In the formula, f (x) represents the comprehensive evaluation function of the economic subsystem, g(y) represents the comprehensive evaluation function of the ecological environment subsystem, and k(m) represents the comprehensive evaluation function of the social service subsystem; ω x , ω y , and ω m respectively represent the weight of each index of the economic subsystem, the ecological environment subsystem, and the social service subsystem.; x,y,m respectively are the total number of indexes in each system; C is the indicator value.
(2) Calculate the coupling coordination degree: With the help of the coupling coordination model, the economy-ecological environmentsocial service system coupling degree O, the coupling coordination degree D, and the comprehensive evaluation index M of the regional economy-ecological environment-social service system are obtained: In the formula, a, b, and c are undetermined coefficients, and the weights of the three subsystems can be calculated as undetermined coefficients by the comprehensive weighting method.
See Table 6 for classification and evaluation criteria of coordinated development level.

Application Discussion
(1) Application The construction and development of the middle route of the South-to-North Water Diversion Project has always attracted national attention. With the rise of smart cities, smart water diversion projects are also emerging quietly. In recent years, the national investment in the information construction of water diversion projects has increased, far exceeding the previous budget. At the same time, due to the short operation time of the South-to-North Water Transfer Project, the output index is relatively low, so the index values in the economic subsystem are shown in Table 7. Since September 2017, 47 rivers in northern China have been replenished with ecological water by the middle route project, and the total amount of water replenished has reached 5.39 billion m 3 . Among them, 3.32 billion m 3 has been replenished by the pilot river section of the comprehensive control of groundwater overdrawing in North China, with significant ecological and environmental benefits. The index values in the eco-environment subsystem are relatively good (Table 7). Since the opening of the project, the South-to-North Water Diversion Project has become the main source of water in large and medium-sized urban areas along the Beijing-Tianjin-Hebei and Henan routes, benefiting a growing number of people year after year. It fundamentally changes the water supply pattern in the water receiving area, improves the water quality of the city, and improves the water supply guarantee rate in the water receiving area along the line. The indicators of the social service subsystem are relatively good ( Table 7). The weight of each index in Table 7 can be calculated according to Equations (1)-(10) for weight calculation. According to Equations (11) Based on Table 6, at present, the coordination of the middle route of the South-to-North Water Diversion Project is high coupled coordination.
(2) Discussion This paper proposes a comprehensive evaluation method for the coordinated development of water transfer projects based on the coupled coordination model. The comprehensive weighting method that combines the G1 method and the entropy weight method avoids the impact of the small amount of observation data and coordinates the impact of subjective and objective factors on the index weight so that the weight of each index conforms to common sense and has a scientific basis. The introduction of the coupling coordination model can realize the dynamic relationship between the three subsystems of coordinated economy, ecological environment, and social services, and can also reflect the degree of interdependence and mutual restriction between the systems. The coordination degree model is introduced to analyze the coordination relationship between different subsystems. The specific calculation formulas are as follows.
In the formula, E 1 , E 2 , and E 3 respectively represent the coordination degree between economy and ecological environment, economic and social services, ecological environment and social services; F represents the degree of coordinated development.
According to the calculation formulas Equation (11), Equations (15)- (17), and Table 7, the coordination degree between the economy and the ecological environment, economic and social services, and the ecological environment and social services are calculated respectively. According to Formulas (19) and (20), the coordinated development degree between the economy and the ecological environment, the economy and social services, and the ecological and social services can be calculated, and the coordinated relationship between the two systems can be quantitatively analyzed. The results are as follows.
The larger the F value, the worse the coordination between the two systems. The coordination between the economic system and the ecological environment system is weaker than the coordination between the economic system and the social service system, and the coordination between the ecological and social services is the best. Because the improvement of the ecological environment requires abandoning part of the economic development, and the improvement of the quality of social services also requires a certain amount of economic input, there are conflicting relations between the economic system and the ecological environment system, and the economic system and the social service system. Therefore, the coordination between the economic system and the ecological environment system, the economic system, and the social service system is not as good as the coordination between the ecological and social services.

Analysis Suggestion
According to the coordination between the three subsystems, using SWOT analysis, combined with the actual situation, suggestions for the coordinated development of water transfer projects are given.
SWOT analysis (S for strengths, W for weaknesses, O for opportunities, and T for threats) is a situation analysis based on internal and external environmental and competition conditions, in which process various main internal strengths, weaknesses, and external opportunities and threats closely related to the research object are listed through investigation and arranged in the form of a matrix and then all kinds of factors are matched and analyzed with system analysis, thus drawing a series of corresponding conclusions for decision-making. The contribution of SWOT lies in matching these seemingly independent factors for comprehensive analysis, which makes strategic planning more scientific and comprehensive. However, in the process of SWOT analysis, you may encounter some problems, which can be solved by the more advanced POWER SWOT analysis. POWER is the acronym for Personal Experience, Order, Weighting, Empathize detail, and Rank and prioritize, which is also called advanced SWOT analysis.
Based on the advanced SWOT analysis method, this paper evaluates the degree of regional coordinated development after the completion of the Middle Route of the South-North Water Transfer Project, and the evaluation results are shown in Table 8. It can be seen from Table 6 that the internal advantages of the project are well played and bring many opportunities for regional development; the implementation of the water diversion project reduces the unreasonable structure in original regional resources distribution, drives the economic development and environmental improvement of the whole water offering area, and makes great contributions to society. Based on the recommendations of the advanced SWOT analysis results (Table 8), it is concluded: (1) SO (Strengths and Opportunities): the Middle Route of the South-North Water Transfer Project can vigorously boost ecotourism in water source areas, improve the coordinated development mechanism of water source protection areas, and play a role in strengthening water quality management along the route; (2) WO (Weaknesses and Opportunities): carry out ecological restoration plans in the water receiving area and plan the overall urban water system; support green eco-economy in water source areas and promote the industrial transformation and upgrading of water source areas; (3) ST (Strengths and Threats): it is necessary to establish a sound guarantee system and evaluation system, improve managerial ability, optimize the environment to attract investment, and increase the protection of groundwater in the water offering area; (4) WT (Weaknesses and Threats): to establish a reasonable ecological compensation mechanism for water source areas, the water receiving areas need to bear the costs, improve the water resources management system, enhance water-resource utilization efficiency, intensify publicity of water-saving knowledge, and raise people's awareness of watersaving. Based on the results of advanced SWOT analysis, the paper gives some detailed suggestions (Table 9), which are more conducive to the future development of the project. There is a big gap in regional development between the water receiving area and the water source area 1/3 The flooded area of the water source area is large and the resettlement task is heavy The contradiction between water resources protection and economic and social development in the water source area is prominent The task of ensuring water quantity and water quality in the water diversion process is arduous The amount of water obtained by the Middle Route of the South-North Water Transfer Project in the receiving area is difficult to make up for the absolute added value of water consumption 1/3 6 The benefits of water transfer have not been fully utilized 2/4 Table 9. Suggestions based on the results of advanced SWOT analysis.

SO WO
Strengthen protection of the water source area and establish an organizational mechanism for regional coordinated development Vigorously develop superior ecotourism in the water source area Deepen mutual assistance and cooperation between the water receiving city and the water source area, and improve the counterpart support mechanism Implement special treatment of the ecological environment in the middle and lower reaches of Hanjiang River, and incorporate Hubei water source area and the middle and lower reaches of Hanjiang River into national ecological compensation pilot areas Carry out ecological restoration plans in the water receiving area and plan the overall urban water system Focus on supporting the green eco-economy in the water source area, coordinate the development of the first, second and third industries, and promote the industrial transformation and upgrading of the water source area Threats (T) ST WT Strengthen the legal system, improve the managerial ability of ecological environment protection, and establish a perfect ecological environment governance system Control the total population in the water source area, adapt to the capacity of the environment, and improve the population quality accordingly Optimize the investment environment in water source areas to attract investors Strengthen environmental protection and ecological building, and adopt a long-term mechanism for water quality protection. Establish a water quality monitoring system and guarantee system to ensure the safety of the Middle Route of the South-North Water Transfer Project Establish and improve the regional water price system to promote efficient water conservation Increase the protection of groundwater in the water receiving area and the construction of supporting facilities such as water factories, and promote the replacement of water through diversion from south to north Establish a reasonable ecological compensation mechanism for the water source area, and the water receiving area bears the cost of ecological environment building in some of the water source areas Take the development-oriented immigration road of "combining local settlement and outward migration", rely on the national migration policy to make overall planning, plan re-immigration, and give economic compensation and guarantee a livelihood Resolutely implement the strategy of "giving priority to water saving" and comprehensively use various means such as laws and regulations, administration, economy, technology, and publicity to comprehensively promote the building of a water-saving society Improve water resources management system and water rights trading system, and enhance the water resource utilization efficiency

Conclusions
A comprehensive evaluation process for the coordinated development of water transfer projects is proposed. The main conclusions are as follows: (1) In accordance with the principles of representativeness, systematicness, pragmatism, and dynamics, 15 evaluation indicators were selected to establish an indicator system. These reflect the relationship between economy, ecological environment, and social services. (2) A subjective and objective comprehensive weighting method based on the G1 method and entropy weight method is proposed. The key of this method is to combine the entropy method which considers the objective attributes of the data and the analytic hierarchy process which considers the subjective characteristics of the data, and the final index weights are more reasonable.
The coupling coordination degree model is introduced, and a comprehensive evaluation system for the coordinated development of water transfer projects based on the comprehensive weighting method is proposed.
(4) Apply the comprehensive evaluation method to the coordinated development evaluation of the Middle Route of the South-to-North Water Transfer Project. The results show that the regional development of the water transfer project is high coupled coordination. The coordination between the economic system and the ecological environment system is weaker than the coordination between the economic system and the social service system, and the coordination between the ecological and social services is the best. The research results provide a new method for the evaluation of the coordinated development of water transfer projects. (5) Use SWOT analysis on the water receiving area and water transfer area of the Middle Route of the South-to-North Water Transfer Project, and put forward feasible suggestions for the relevant departments on the governance of the water receiving area and water transfer area. (6) Through a series of analyses we can conclude that this research method makes up for the deficiencies of previous methods. It integrates three aspects of the economy, ecological environment, and social services, and has the advantages of simplicity and thoroughness. This paper proposes a comprehensive evaluation process for the successful coordinated development of water transfer projects. (7) It also puts forward the direction of future research: Although the relationship between economy, ecological environment, and social services is considered, the index system is still imperfectly scientific and reasonable. Therefore, the establishment of a more comprehensive indicator system provides a possible way for future research.
Supplementary Materials: The following are available online at https://www.mdpi.com/article/ 10.3390/su132413600/s1. Table S1: The description of the calculation variables of each indicator; Table S2: The description of the calculation variables of each indicator; Table S3: The description of the calculation variables of each indicator. Informed Consent Statement: Informed consent was obtained from all subjects involved in the study.
Data Availability Statement: All data, models, and code generated or used during the study appear in the submitted article.

Conflicts of Interest:
The authors declare that they have no known competing financial interest or personal relationships that could have appeared to influence the work reported in this paper.