Using a consumption-based Multi-Regional Input-Output (MRIO) model, we investigate the distinctive characteristics, self-efficiency or external dependency, of energy demand's water footprint in China's two biggest and fastest developing megalopolises. We find that energy demand water footprint in the Jing-Jin-Ji and the Yangtze Delta amounted to 2.41 and 9.59 billion m³of water withdrawal respectively in 2010, of which 848.06 and 973.91 million m³was consumed. Among all energy products, electricity contributed the largest share to the energy sector's water footprint in both regions. The sectoral distribution of water footprint in the upstream supply chain differed by region. Most significantly, the agricultural sector accounted for more tha...
The relationship between water and energy is extremely close and complex, especially in water use sy...
Fossil energy and water resources are both important for economic and social development in China, a...
Water footprint (WF) is a measure of the actual appropriation of water resources. WF accounting can ...
Using a consumption-based Multi-Regional Input-Output (MRIO) model, we investigate the distinctive c...
Using a consumption-based Multi-Regional Input-Output (MRIO) model, we investigate the distinctive c...
Water is required throughout the life-cycle processes of energy production to meet the growing energ...
International audienceWater is required throughout the life-cycle processes of energy production to ...
International audienceWater is required throughout the life-cycle processes of energy production to ...
AbstractWater shortage and uneven distribution posed significant challenge to sustainable energy pro...
AbstractWater shortage and uneven distribution posed significant challenge to sustainable energy pro...
The energy sector is a major user of fresh water resources in China. We investigate the life cycle w...
Demand for hydropower is increasing, yet the water footprints (WFs) of reservoirs and hydropower, an...
Water consumption, energy use, and carbon emission are three related key anthropogenic impacts on th...
Significant energy resources are needed for traditional and nontraditional water utilization in Chin...
As China continues to sustain high rates of economic growth, it is important to better understand pa...
The relationship between water and energy is extremely close and complex, especially in water use sy...
Fossil energy and water resources are both important for economic and social development in China, a...
Water footprint (WF) is a measure of the actual appropriation of water resources. WF accounting can ...
Using a consumption-based Multi-Regional Input-Output (MRIO) model, we investigate the distinctive c...
Using a consumption-based Multi-Regional Input-Output (MRIO) model, we investigate the distinctive c...
Water is required throughout the life-cycle processes of energy production to meet the growing energ...
International audienceWater is required throughout the life-cycle processes of energy production to ...
International audienceWater is required throughout the life-cycle processes of energy production to ...
AbstractWater shortage and uneven distribution posed significant challenge to sustainable energy pro...
AbstractWater shortage and uneven distribution posed significant challenge to sustainable energy pro...
The energy sector is a major user of fresh water resources in China. We investigate the life cycle w...
Demand for hydropower is increasing, yet the water footprints (WFs) of reservoirs and hydropower, an...
Water consumption, energy use, and carbon emission are three related key anthropogenic impacts on th...
Significant energy resources are needed for traditional and nontraditional water utilization in Chin...
As China continues to sustain high rates of economic growth, it is important to better understand pa...
The relationship between water and energy is extremely close and complex, especially in water use sy...
Fossil energy and water resources are both important for economic and social development in China, a...
Water footprint (WF) is a measure of the actual appropriation of water resources. WF accounting can ...