Modeling domestic water demand in Huaihe River Basin of China under climate change and population dynamics

A statistical model has been developed to forecast domestic water demand by considering climate change, population growth, urbanization, lifestyle changes and technological advances. The developed model is used to forecast future domestic water demand in different sub-basins of Huaihe River Basin of...

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Bibliographic Details
Main Authors: Wang, Xiao-Jun, Zhang, Jian-Yun, Shahid, Shamsuddin, Xie, Wei, Du, Chao-Yang, Shang, Xiao-Chuan, Zhang, Xu
Format: Article
Published: Springer Netherlands 2018
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Online Access:http://eprints.utm.my/id/eprint/85654/
http://dx.doi.org/10.1007/s10668-017-9919-7
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Institution: Universiti Teknologi Malaysia
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Summary:A statistical model has been developed to forecast domestic water demand by considering climate change, population growth, urbanization, lifestyle changes and technological advances. The developed model is used to forecast future domestic water demand in different sub-basins of Huaihe River Basin of China. The study reveals that mean temperature in Huaihe River Basin will increase by 0.7–1.6 °C, population will reach to 230 million, and 61.2% of the basin area will be urbanized by the year 2030, which will cause a sharp increase in domestic water demand. The increase in domestic water demand for 1 °C increase in mean temperature is found to vary between 0.549 × 108 and 5.759 × 108 m3 for different sub-basins of Huaihe River. The forecasted change in domestic water demand is also found to vary widely for different general circulation models (GCMs) used. The GCM BCC-CSM1-1 projected the highest increase in domestic water demand, 168.44 × 108 m3 in 2020, and the GISS-E2-R the lowest, 119.21 × 108 m3. On the other hand, the BNU-ESM projected the highest increase, 196.03 × 108 m3, and the CNRM-CM5 the lowest, 161.05 × 108 m3 in year 2030. Among the different sub-basins, the highest increase in water demand is projected in Middlestream of Huaihe River in the range of 46.9 × 108–65.5 × 108 m3 in 2020, and 61.3 × 108–76.1 × 108 m3 in 2030, which is supposed to cause serious water shortage and an increase in competition among water-using sectors.