Forecasting industrial water demand in Huaihe River Basin due to environmental changes

Wang Xiao-jun; Zhang Jian-yun; Shahid Shamsuddin; Bi Shou-hai; Elmahdi Amgad; Liao Chuan-hua; Li You-de

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Forecasting industrial water demand in Huaihe River Basin due to environmental changes

机译：淮河流域的工业用水需求因环境变化

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摘要

A framework is proposed for forecasting industrial water demand in the context of climate change, economic growth, and technological development. The framework was tested in five sub-basins of Huaihe River of China, namely Upstream of Huaihe River (UH), Middlestream of Huaihe River (MH), Downstream of Huaihe River (DH), Yishusi River (YSSR), and Coastal River of Shandong Peninsula (CSP) to project future changes in industrial water demand under different environment change scenarios. Results showed that industrial water demand in Huaihe River basin will increase in the range of 10 to 44.6% due to economic development, water-saving technological advances, and climate change. The highest increase was projected by general circulation model (GCM) BCC-CSM1-1 (179.16 x 108 m(3)) and the lowest by GCM GISS-E2-R (132.4 x 10(8) m(3)) in 2020, while the GCM BNU-ESM projected the highest increase (190.57 x 10(8) m(3)) and GCM CNRM-CM5 the lowest (160.41 x 10(8) m(3)) in 2030. Among the different sub-basins, the highest increase was projected in MH sub-basin where industrial water demand is already very high. On the other hand, the lowest increase in industrial water demand was projected in UH sub-basin. The rapid growth of high water-consuming industries and increased water demand for cooling due to temperature rise are the major causes of the sharp increase in industrial water demand in the basin. The framework developed in the study can be used for reliable forecasting of industrial water demand which in turn can help in selection of an appropriate water management strategy for adaptation to global environmental changes.

机译：建议在气候变化，经济增长和技术发展的背景下预测工业用水需求的框架。该框架在中国淮河的五个副盆地进行了测试，即淮河（呃），淮河（MH）中山峰（MH）的上游，淮河（DH），沂水河（YSSR）和沿海河山东半岛（CSP）在不同环境变化方案下项目工业用水需求的未来变化。结果表明，由于经济发展，节水技术进步和气候变化，淮河流域工业用水量将增加10％至44.6％。通过通用循环模型（GCM）BCC-CSM1-1（179.16×108m（3））和2020年（132.4 x 10（8）m（3））的最低增加，增加了最高的增加，而GCM BNU-ESM预计最高增加（190.57 x 10（8）m（3））和GCM CNRM-CM5最低（160.41 x 10（8）m（3））在2030年。在不同的子之中盆地，最高的增加是在工业用水需求已经非常高的MH子盆地中投射。另一方面，在UH子盆地中投射了工业用水需求的最低增加。高耗水产业的快速增长和由于温升由于温升导致的冷却需求增加是盆地工业用水需求急剧增加的主要原因。该研究中开发的框架可用于可靠的工业用水需求预测，这反过来可以帮助选择适当的水管理策略，以适应全球环境变化。

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来源
《Mitigation and Adaptation Strategies for Global Change》 |2018年第4期|共15页
作者
Wang Xiao-jun; Zhang Jian-yun; Shahid Shamsuddin; Bi Shou-hai; Elmahdi Amgad; Liao Chuan-hua; Li You-de;
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作者单位

Nanjing Hydraul Res Inst State Key Lab Hydrol Water Resources &

Hydraul En Nanjing 210029 Jiangsu Peoples R China;

Nanjing Hydraul Res Inst State Key Lab Hydrol Water Resources &

Hydraul En Nanjing 210029 Jiangsu Peoples R China;

Univ Teknol Malaysia Fac Civil Engn Johor Baharu 81310 Malaysia;

Minist Water Resources Dept Water Resources Beijing 100053 Peoples R China;

Bur Meteorol Urban Water Balance Climate &

Water Div Melbourne Vic 3008 Australia;

Nanjing Tech Univ Nanjing 211800 Jiangsu Peoples R China;

Huaihe River Water Resources Commiss Beijing 233001 Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类环境科学、安全科学;
关键词
Water demand forecasting; Climate change; Industrial water use; Water resources management; Huaihe River basin;

机译：水需求预测;气候变化;工业用水;水资源管理;淮河流域;

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1. Forecasting industrial water demand in Huaihe River Basin due to environmental changes [J] . Wang Xiao-jun, Zhang Jian-yun, Shahid Shamsuddin, Mitigation and Adaptation Strategies for Global Change . 2018,第4期

机译：淮河流域的工业用水需求因环境变化
2. Models for Initial Allocation of Emission Permits in a River Basin During Industrial Development: A Case Study of Huaihe River Basin,China [J] . Yu Shutong, Huang Xianjin, Cheng Xushui, 中国人口·资源与环境（英文版） . 2010,第002期

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3. Modeling domestic water demand in Huaihe River Basin of China under climate change and population dynamics [J] . Wang Xiao-Jun, Zhang Jian-Yun, Shahid Shamsuddin, Environment, development and sustainability . 2018,第2期

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Forecasting industrial water demand in Huaihe River Basin due to environmental changes

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