Water supply eco-economic benefit evaluation of middle route of south-to-north water diversion project in Hebei Water-recipient Area

Y X Wang, L Cheng, H L Tian and X H Liu
Institute of Physics (IOP)
Published 2018

Publication Date:	2018-11-06
Publisher:	Institute of Physics (IOP)
Print ISSN:	1755-1307
Electronic ISSN:	1755-1315
Topics:	Geography Geosciences Physics
Published by:	http://www.iop.org/

Staff View

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autor	Y X Wang, L Cheng, H L Tian and X H Liu
beschreibung	The Hebei water-recipient area of the middle route project of China’s South-to-North Water Diversion Project (SNWD Project) is located in the Haihe River Basin, which was arid and had higher utilization intensity than other regions in China. Surface water shortage and groundwater over-pumping caused the world’s largest underground water funnel group in the research area. Water supply from the middle route of the SNWD Project is of great significance to ease acute water shortage, alleviate groundwater over-pumping and improve groundwater quality in Hebei water-recipient area. The purpose of this article was to evaluate the eco-economic benefits of the delivered water from the middle route of SNWD Project to alleviate groundwater over-pumping in Hebei water-recipient area by means of reference model method, cost-benefit method and substitute cost method. The results of reference model method, cost-benefit method, and substitute cost method were 5.526, 10.770 and 9.831 billion Yuan...
citation_standardnr	6352867
datenlieferant	ipn_articles
feed_id	108844
feed_publisher	Institute of Physics (IOP)
feed_publisher_url	http://www.iop.org/
insertion_date	2018-11-06
journaleissn	1755-1315
journalissn	1755-1307
publikationsjahr_anzeige	2018
publikationsjahr_facette	2018
publikationsjahr_intervall	7984:2015-2019
publikationsjahr_sort	2018
publisher	Institute of Physics (IOP)
quelle	IOP Conference Series: Earth and Environmental Science
relation	http://iopscience.iop.org/1755-1315/191/1/012064
search_space	articles
shingle_author_1	Y X Wang, L Cheng, H L Tian and X H Liu
shingle_author_2	Y X Wang, L Cheng, H L Tian and X H Liu
shingle_author_3	Y X Wang, L Cheng, H L Tian and X H Liu
shingle_author_4	Y X Wang, L Cheng, H L Tian and X H Liu
shingle_catch_all_1	Water supply eco-economic benefit evaluation of middle route of south-to-north water diversion project in Hebei Water-recipient Area The Hebei water-recipient area of the middle route project of China’s South-to-North Water Diversion Project (SNWD Project) is located in the Haihe River Basin, which was arid and had higher utilization intensity than other regions in China. Surface water shortage and groundwater over-pumping caused the world’s largest underground water funnel group in the research area. Water supply from the middle route of the SNWD Project is of great significance to ease acute water shortage, alleviate groundwater over-pumping and improve groundwater quality in Hebei water-recipient area. The purpose of this article was to evaluate the eco-economic benefits of the delivered water from the middle route of SNWD Project to alleviate groundwater over-pumping in Hebei water-recipient area by means of reference model method, cost-benefit method and substitute cost method. The results of reference model method, cost-benefit method, and substitute cost method were 5.526, 10.770 and 9.831 billion Yuan... Y X Wang, L Cheng, H L Tian and X H Liu Institute of Physics (IOP) 1755-1307 17551307 1755-1315 17551315
shingle_catch_all_2	Water supply eco-economic benefit evaluation of middle route of south-to-north water diversion project in Hebei Water-recipient Area The Hebei water-recipient area of the middle route project of China’s South-to-North Water Diversion Project (SNWD Project) is located in the Haihe River Basin, which was arid and had higher utilization intensity than other regions in China. Surface water shortage and groundwater over-pumping caused the world’s largest underground water funnel group in the research area. Water supply from the middle route of the SNWD Project is of great significance to ease acute water shortage, alleviate groundwater over-pumping and improve groundwater quality in Hebei water-recipient area. The purpose of this article was to evaluate the eco-economic benefits of the delivered water from the middle route of SNWD Project to alleviate groundwater over-pumping in Hebei water-recipient area by means of reference model method, cost-benefit method and substitute cost method. The results of reference model method, cost-benefit method, and substitute cost method were 5.526, 10.770 and 9.831 billion Yuan... Y X Wang, L Cheng, H L Tian and X H Liu Institute of Physics (IOP) 1755-1307 17551307 1755-1315 17551315
shingle_catch_all_3	Water supply eco-economic benefit evaluation of middle route of south-to-north water diversion project in Hebei Water-recipient Area The Hebei water-recipient area of the middle route project of China’s South-to-North Water Diversion Project (SNWD Project) is located in the Haihe River Basin, which was arid and had higher utilization intensity than other regions in China. Surface water shortage and groundwater over-pumping caused the world’s largest underground water funnel group in the research area. Water supply from the middle route of the SNWD Project is of great significance to ease acute water shortage, alleviate groundwater over-pumping and improve groundwater quality in Hebei water-recipient area. The purpose of this article was to evaluate the eco-economic benefits of the delivered water from the middle route of SNWD Project to alleviate groundwater over-pumping in Hebei water-recipient area by means of reference model method, cost-benefit method and substitute cost method. The results of reference model method, cost-benefit method, and substitute cost method were 5.526, 10.770 and 9.831 billion Yuan... Y X Wang, L Cheng, H L Tian and X H Liu Institute of Physics (IOP) 1755-1307 17551307 1755-1315 17551315
shingle_catch_all_4	Water supply eco-economic benefit evaluation of middle route of south-to-north water diversion project in Hebei Water-recipient Area The Hebei water-recipient area of the middle route project of China’s South-to-North Water Diversion Project (SNWD Project) is located in the Haihe River Basin, which was arid and had higher utilization intensity than other regions in China. Surface water shortage and groundwater over-pumping caused the world’s largest underground water funnel group in the research area. Water supply from the middle route of the SNWD Project is of great significance to ease acute water shortage, alleviate groundwater over-pumping and improve groundwater quality in Hebei water-recipient area. The purpose of this article was to evaluate the eco-economic benefits of the delivered water from the middle route of SNWD Project to alleviate groundwater over-pumping in Hebei water-recipient area by means of reference model method, cost-benefit method and substitute cost method. The results of reference model method, cost-benefit method, and substitute cost method were 5.526, 10.770 and 9.831 billion Yuan... Y X Wang, L Cheng, H L Tian and X H Liu Institute of Physics (IOP) 1755-1307 17551307 1755-1315 17551315
shingle_title_1	Water supply eco-economic benefit evaluation of middle route of south-to-north water diversion project in Hebei Water-recipient Area
shingle_title_2	Water supply eco-economic benefit evaluation of middle route of south-to-north water diversion project in Hebei Water-recipient Area
shingle_title_3	Water supply eco-economic benefit evaluation of middle route of south-to-north water diversion project in Hebei Water-recipient Area
shingle_title_4	Water supply eco-economic benefit evaluation of middle route of south-to-north water diversion project in Hebei Water-recipient Area
timestamp	2025-06-30T23:37:16.594Z
titel	Water supply eco-economic benefit evaluation of middle route of south-to-north water diversion project in Hebei Water-recipient Area
titel_suche	Water supply eco-economic benefit evaluation of middle route of south-to-north water diversion project in Hebei Water-recipient Area
topic	R TE-TZ U
uid	ipn_articles_6352867