Water Use of Fossil Energy Production and Supply in China

Lin, Gang; Jiang, Dong; Duan, Runyao; Fu, Jingying

doi:10.3390/w9070513

Cited by 12 publications

(4 citation statements)

References 32 publications

(45 reference statements)

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“…According to Dhakal [4], China's urban energy consumption accounts for 75% of the total consumption, and the demand for water resources is also increasing. Energy and water resources, as the basic resources of urban economic development, are in high demand for the promotion of urbanization [5]. At the same time, there is a dependency relationship between energy and water resources, which is called the energy-water nexus [6,7].…”

Section: Introductionmentioning

confidence: 99%

Impact of China’s Urbanization on Water Use and Energy Consumption: An Econometric Method and Spatiotemporal Analysis

Xiao

Wang

Zhao

et al. 2018

Water

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As important subsystems of the urban environment, water resources and energy are necessary for normal urban functions and play an important supporting role in urbanization. The rapid development of China’s economy is increasingly dependent on these two subsystems. Analyses of the relationship between urbanization and water use or energy consumption have become the focus of attention, but researchers have mainly evaluated the impact on the two subsystems separately without providing an integrated analysis, nor have they revealed the link between water use and energy consumption. We addressed this information gap by using an econometric method to empirically investigate the long-term equilibrium relationships and Granger causal relationships among urbanization, water use, and energy consumption in China, and by conducting a spatiotemporal analysis to identify the trends of water use intensity and energy consumption intensity under the effects of urbanization during 2005–2015. We found long-term equilibrium relationships among urbanization, water use, and energy consumption. Granger causality results reveal the presence of a unidirectional Granger causal relationship running from urbanization to energy consumption and to water use, and bidirectional causality between energy consumption and water use. Moreover, water use intensity and energy consumption intensity decreased significantly under urbanization during the study period.

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Section: Introductionmentioning

confidence: 99%

Impact of China’s Urbanization on Water Use and Energy Consumption: An Econometric Method and Spatiotemporal Analysis

Xiao

Wang

Zhao

et al. 2018

Water

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“…Such water requirements are typically referred to as "virtual water" or "water footprint" [57], allowing for the nontrivial optimization between carbon emissions and water consumption in the energy sector [58]. While the water footprint of power generation based on fossil fuels has been widely analyzed [59,60], concerns have been raised regarding the water needs of the renewable energy development [61,62]. Several methodologies have been proposed to quantify the water footprint of these technologies, aiming to assess the real sustainability of renewable sources of energy [63][64][65][66], e.g., PV [67], biomass [68], hydropower [69,70] or wind ones [71].…”

Section: Overviewmentioning

confidence: 99%

Data-driven appraisal of renewable energy potentials for sustainable freshwater production in Africa

Angelis

Tuninetti

Bergamasco

et al. 2021

Renewable and Sustainable Energy Reviews

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“…Previous research has been conducted to assess the water use of energy production from various sources, such as coal, petroleum, thermoelectricity, hydropower, and bioenergy [5,[11][12][13][14]. Water-use intensities at energy production sites are largely contingent on the technologies selected by producers [10,15,16].…”

Section: Introductionmentioning

confidence: 99%

Water Degradation by China’s Fossil Fuels Production: A Life Cycle Assessment Based on an Input–Output Model

Liang

Chai

et al. 2019

Sustainability

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Fossil energy production not only aggravates water depletion but also severely contaminates water resources. This study employed a mixed-unit input–output model to give a life cycle assessment of national average water degradation in production of common types of fossil fuels in China. The results show that the amount of grey water generated is much more than that of consumptive and withdrawn water in all cases. Although there is a high discharge amount of chemical oxygen demand (COD) in fossil fuel production, the pollutants of petroleum (PE) and volatile phenols (VP) require more dilution water than COD. PE is the greatest contributor to water degradation caused by primary fossil fuels, while VP pollution is prominent in production of upgraded fossil fuels. Basically, the main causes of water degradation, PE and VP discharge, occurs at coal mines, oil fields, refinery plants, and coking factories, rather than in the upstream sectors. A scenario analysis showed that water pollution can be significantly reduced if VP discharge in the coking process is controlled to be at the standard concentration. PE requires a standard withalower discharge concentration in order to further mitigate water pollution in production of fossil fuels. The coal production industry has a much lower pollutant removal rate but spends more on wastewater treatment, up to 12% of its profit. The other fossil fuel industries have high removal rates of PE and VP (97%–99%) and thus demand technological renovation to further remove those pollutants at a low concentration.

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Water Use of Fossil Energy Production and Supply in China

Cited by 12 publications

References 32 publications

Impact of China’s Urbanization on Water Use and Energy Consumption: An Econometric Method and Spatiotemporal Analysis

Impact of China’s Urbanization on Water Use and Energy Consumption: An Econometric Method and Spatiotemporal Analysis

Data-driven appraisal of renewable energy potentials for sustainable freshwater production in Africa

Water Degradation by China’s Fossil Fuels Production: A Life Cycle Assessment Based on an Input–Output Model

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