Hostname: page-component-6d856f89d9-jhxnr Total loading time: 0 Render date: 2024-07-16T05:46:38.907Z Has data issue: false hasContentIssue false
  • English
  • Français

Cost Benefit Analysis of Centralized Wastewater Reuse Systems

Published online by Cambridge University Press:  19 January 2015

Xiao Liang  and
Meine Pieter van Dijk
Xiao Liang
Affiliation:
UNESCO-IHE Institute for Water Education
Meine Pieter van Dijk
Affiliation:
UNESCO IHE Institute for water education
Rights & Permissions [Opens in a new window]

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

The present paper carries out a cost benefit analysis of centralized wastewater reuse systems in Beijing. This study consists of two parts: financial analysis and economic analysis. The financial analysis is made from the point of view of plant manager, in which financial benefits and cost is calculated. The economic analysis is made from the point of view of society, in which the economic, environmental and social benefits and cost are determined. The results of financial analysis show that the financial benefits are larger than cost, which means the centralized wastewater reuse systems are financially feasible. It implies that the investment on centralized wastewater reuse systems is profitable. The results of economic analysis show that the ratio of benefit to cost is larger than 1, which means the centralized wastewater reuse systems are economically feasible. It implies that centralized wastewater reuse systems have positive effects on the society. From the point of view of plant manager, centralized wastewater reuse systems could operate in a long term, while from the point of view of government or society, the centralized wastewater reuse systems are worth to be promoted.

Keywords

centralizedcost benefit analysiseconomical analysisfinancial analysiswastewater reuse
Type
Article
Information
Journal of Benefit-Cost Analysis , Volume 3 , Issue 3 , 23 August 2012 , pp. 1 - 30
Copyright
Copyright © Society for Benefit-Cost Analysis 2012

References

Aramaki, T., Galal, M., and Hanaki, K. (2006). Estimation of reduced and increasing health risks by installation of urban wastewater systems. Water Science and Technology, 53(9), 247252.Google Scholar
Asano, T. (2001). Water from (waste) water – the dependable water resource. In 11th Stockholm Water Symposium, Stockholm, Sweden.Google Scholar
Asano, T. (2005). Urban water recycling. Water Science and Technology, 51, 8389.Google Scholar
Asano, T., Maeda, M., and Takaki, M. (1996). Wastewater reuse and reuse in Japan: overview and implementation examples. Water Science and Technology, 34, 219226.Google Scholar
Baumann, D D, Boland, J J and Hanemann, W, 1998. Urban water demand management and planning, New York, McGraw-Hill.Google Scholar
Beijing Statistical Yearbook, 2009, Available at: www.bjstats.gov.cn/tjnj/2009-tjnjGoogle Scholar
Braden, J. B. and Van Ierland, E. C. (1999). Balancing: the economic approach to sustainable water management. Water Science and Technology, 39, 1723.CrossRefGoogle Scholar
BWA (2002a). Analysis of wastewater reuse in Beijing. The Working Papers of Beijing Water Authority.Google Scholar
BWA (2002b). Pricing the reused water in Beijing. The Working Papers of Beijing Water Authority.Google Scholar
BWA (2004). The research of the Gao Bei Dian wastewater reuse system. The Working Papers of Beijing Water Authority.Google Scholar
Camagni, R., Gibelli, M. C., and Rigamonti, P. (2002). Urban mobility and urban form: the social and environmental costs of different patterns of urban expansion. Ecological Economics, 40, 199216.CrossRefGoogle Scholar
Campbell, H. and Brown, R. (2005). A multiple account framework for cost benefit analysis. Evaluation and Program Planning, 28, 2332.CrossRefGoogle Scholar
China Statistical Yearbook, 2007, Available at: www.stats.gov.cn/tjsj/ndsj/2007/indexeh.htm.Google Scholar
China Statistical Yearbook, 2008, Available at: www.stats.gov.cn/tjsj/ndsj/2008/indexeh.htm.Google Scholar
China Statistical Yearbook, 2010, Available at: www.stats.gov.cn/tjsj/ndsj/2010/indexeh.htm.Google Scholar
Christova-Boal, D., Eden, R. E., and McFarlane, S. (1996). An investigation into greywater reuse for urban residential properties. Desalination, 106, 391397.CrossRefGoogle Scholar
Chu, J., Chen, J., Wang, C., and Fu, P. (2004). Wastewater reuse potential analysis: implications for China’s water resources management. Water Research, 38, 27462756.CrossRefGoogle ScholarPubMed
Dahmen, E. R. (2000). Financial and Economic Analysis. UNESCO–IHE Institute for Water Education, Lecture Notes HH334/00/1.Google Scholar
Dahowski, R. T., Li, X., Davidson, C. L., Wei, N., Dooley, J. J., and Gentile, R. H. (2009). A preliminary cost curve assessment of carbon dioxide capture and storage potential in China. Energy Procedia, 1, 28492856.Google Scholar
Gittinger, J. P. (1982). Economic Analysis of Agricultural Projects, The Johns Hopkins University Press (second edition).Google Scholar
Hernandez, F., Urkiaga, A., Fuentes, D. L., Bis, B., Chiru, E., Balazs, B., and Wintgens, T. (2006). Feasibility studies for water reuse projects: an economical approach. Desalination, 187, 253261.Google Scholar
Jia, H., Guo, R., Xin, K., and Wang, J. (2005). Research on wastewater reuse planning in Beijing central region. Water Science and Technology, 51, 195202.CrossRefGoogle ScholarPubMed
Li, H. (2003). A study on the relation between economic growth and employment elasticity. Journal of Finance and Economics (in Chinese), 29, 2427.Google Scholar
Liang, X. and van Dijk, M. P. (2010). Financial and economic feasibility of decentralized wastewater reuse systems in Beijing. Water Science and Technology, 61, 19651973.Google Scholar
Liu, X. and Chen, X. (2003). The evaluation model of shadow price of water. Technological Progress of Water and Energy (in Chinese), 23, 1417.Google Scholar
Luo, Y. (2007). The Social Cost of Residential Resettlement in China. Master’s thesis (in Chinese), Si Chuan University.Google Scholar
Malpezzi, S. (1999). Estimates of the Measurement and Determinants of Urban Sprawl in US Metropolitan Areas. Working Papers, The Center for Urban Land Economics Research, The University of Wisconsin.Google Scholar
Mao, J. C. T. (1966). Efficiency in public urban renewal expenditures through benefit-cost analysis. Journal of the American Planning Association, 32, 95107.Google Scholar
Mishan, E. J. (1988). Cost-benefit Analysis. London: Unwin Hyman.Google Scholar
National Development Reform and Commission, 2006. Chinese Economic Evaluation Parameters on Construction (in Chinese). Beijing.Google Scholar
OECD, 2007. Unsafe Water, Sanitation and Hygiene: Associated Health Impact and the Costs and Benefits of Policy Interventions at the Global Level. Working Party on National Environmental Policies Environment Policy Committee.Google Scholar
Osman, S., Nawawi, A. H., and Abdullah, J. (2008). Urban sprawl and its financial cost: a conceptual framework. Asian Social Science, 4, 3950.Google Scholar
Ottoson, J. and Stenström, T. A. (2003). Faecal contamination of greywater and associated microbial risks. Water Research, 37, 645655.Google Scholar
Rawski, T. G. (1979). Economic growth and employment in china. World Development, 7, 767782.CrossRefGoogle Scholar
Skeer, J. and Wang, Y. (2005). Carbon charges and natural gas use in china. Energy Policy, 34, 22512262.Google Scholar
Tol, R. S. J. (2005). The marginal damage costs of carbon dioxide emissions: an assessment of the uncertainties. Energy Policy, 33, 20642074.Google Scholar
Tol, R. S. J. (2008). The social cost of carbon: trends, outliers and catastrophes. Economics: The Open-Access, Open-Assessment E-Journal, 2, 122.Google Scholar
Yuan, R. H., Zhu, J. L., Tao, X. Y., and Mao, C. M. (2002). Application of shadow price method in calculation of water resources theoretical value. Journal of National Resources (in Chinese), 17, 757761.Google Scholar
Wang, B., 2007. Wastewater Reuse and Reuse in Chinese Cities (in Chinese). Available at: www.chinacitywater.org.Google Scholar
Wang, D. X., Wang, H., and Yin, M. W. (1999). Water resource, water resource value, water resource shadow price. Water Resource Evolution (in Chinese), 10, 195200.Google Scholar
WHO, 2004. Global Burden of Disease Report. Available at: www.who.org (accessed 10 June 2009).Google Scholar
WHO, 2007. Estimating the costs and health benefits of water and sanitation improvements at global level. Journal of Water and Health, 05(4), 467.Google Scholar
World Bank, 2007. Cost of pollution in China: economic estimates of physical damages. Available at: www.worldbank.org/eapenvironment (accessed 10 June 2009).Google Scholar
Wilderer, P. A. and Schreff, D. (2000). Decentralized and centralized wastewater management: a challenge for technology developers. Water Science and Technology, 41, 18.Google Scholar
Zhang, Y., Chen, X., Zheng, X., Zhao, J., Sun, Y., Zhang, X., Ju, Y., Shang, W., and Liao, F. (2007). Review of water reuse practices and development in China. Water Science and Technology, 55, 495502.Google Scholar