|
| Authors | Study area | Main achievements |
|
| Feng et al. [41] | Region of Tibetan plateau in China | Implications for natural environmental response to human activities |
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| Han et al. [42] | China | Pathways for cleaner electricity production, reviews on energy consumption, economic cost, and environmental impact |
|
| He et al. [43] | Beaver county, Pennsylvania | Energy-water nexus for identifying environmental impacts during shale gas operations under stochastic input |
|
| He et al. [44] | China | Evaluate the ecological vulnerability, environmental and social management, ecological conservation potential impacts of natural, social, economic, environmental pollution, and human health elements |
|
| Liu et al. [45] | Guangzhou, China | Establish an environmental assessment model of construction and demolition waste |
|
| Lu et al. [46] | Western Europe | Policy recommendations, consideration of socioeconomic, geo-hydrological, climate, and groundwater factors study on the aquifer thermal energy storage |
|
| Wang et al. [47] | Shaanxi province, Northwest China | Hydrological model and assessing the environmental impact of slope failure |
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| Chen et al. [48] | China | Water pollution for agricultural irrigation resources |
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| Chen et al. [49] | United States | Multicriteria design of shale-gas-water supply chains and production systems towards optimal life cycle economics and greenhouse gas emissions under uncertainty |
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| Chen et al. [50] | China and the United States | Water management in gas supply chains |
|
Cheng et al. [51],
He et al. [26],
He et al. [52], | Pennsylvania and West Virginia; United States; China | Optimal water resources management, high consumption of water resources rowing greenhouse gas |
|
Ma et al. [53],
Ou et al. [54] | China | Reduce supersaturated total dissolved gas in riverine wetlands |
|
Piotrowski et al. [55],
Tyrrell and George [56],
Yang et al. [57] | China, Brazil | Water quality, spatial and temporal changes of surface water quality |
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