Your search found 5 records
(Location: IWMI HQ Call no: 363.7284 G000 MEK Record No: H041343)
(1.27MB)
With issues of climate change, increase in urban population and the increased demand for water from competing sectors, wastewater recycling is becoming an important strategy to complement the existing water resources for both developing and developed countries. There are lessons, experiences, data and technology that can be shared for mutual benefit. The current paper is part of a doctoral research and presents a comprehensive literature review on the following issues in India and Australia: some key statistics of wastewater use and recycling; rationale for wastewater use; problems in promoting recycling; research gaps; economic characteristics of wastewater; wastewater markets and its future potential.
(Location: IWMI HQ Call no: 363.7284 G000 MEK Record No: H041344)
(320KB)
Use of un-treated/partially treated wastewater for irrigation in the dry countries of Asia and Africa and recycling of treated wastewater in the water scarce developed countries has become a common practice due to various reasons. While the lack of wastewater treatment to appropriate levels before use is a major problem in developing countries, the high cost of wastewater recycling is the major problem in developed countries. The current paper is part of a doctoral research and presents the conceptual framework for the research and the methodology that can be used to tackle the problems associated with wastewater recycling.
(Location: IWMI HQ Call no: e-copy only Record No: H042323)
(0.15 MB)
The drought conditions of the past seven years in Australia and increasing environmental awareness have led to an active promotion of wastewater recycling. The absolute and relative cost of recycling is one of the key factors that will have a big influence on the future of wastewater recycling in Australia.
This article outlines the development of a toolkit/decision support tool for allocating wastewater among different sectors to achieve desired objectives in a cost-efficient way. It deals in particular with answering these questions: How can the cost-effectiveness of wastewater recycling be judged and budget allocated? For which sectors in a defined region will wastewater recycling be cost-efficient? Wastewater has a number of alternative uses and each alternative is associated with a set of costs from the point of treatment to the point of use. As a result, recycling can satisfy more than one objective such as: reduce the discharge of nutrients to natural water bodies, ave/substitute potable water, bring more land under cultivation, and save water for environmental purposes. The methodology chosen to evaluate the best alternative or alternatives is Cost-Effectiveness Analysis.
4 Mekala, Gayathri Devi; Davidson, B.; Boland, A. M.. 2007. Economics of wastewater treatment and recycling: an investigation of conceptual issues. Paper presented at the 51st Annual Conference of Australian Agricultural and Resource Economics Society, Queenstown, New Zealand, 13-16 February 2007. 11p.
(Location: IWMI HQ Call no: e-copy only Record No: H042324)
(0.08 MB)
In the context of continuous droughts, the search for alternative water sources and increasing environmental restrictions on discharge of treated wastewater into natural water bodies, treated wastewater recycling offers a potential solution. In this paper the methods needed to assess the questions - to what extent treated wastewater can complement the existing water sources in different sectors and at what cost - are discussed? It was concluded that a comparative Benefit Cost Analysis of different combinations of uses and treatment levels would be a critical component in the development of a decision support tool which could be used by urban planners and water authorities. It was also found that community acceptance of recycled water, distribution of costs and benefits of recycling and its broader impact on regional development are issues that need to be considered, along with the economics of wastewater recycling.
(Location: IWMI HQ Call no: e-copy only Record No: H042325)
(0.24 MB)
The current study uses contingent valuation technique to estimate the value of clean water in river Musi in Hyderabad, India. The main source of pollution of the river is untreated domestic and industrial wastewater from the urban area of Hyderabad. Therefore, people’s Willingness To Pay [WTP] for the treatment of their wastewater to different quality levels (Level C, B & A) is estimated using a payment card method. Four variables were considered to influence the willingness to pay - number of years the household lived in Hyderabad; individual perceived importance of controlling water pollution; household income levels and proximity to the river. The results of the logistic regression confirmed that the variables - perceived importance of the respondent of controlling water pollution and household incomes have a significant influence on people’s WTP. Only 30% of the respondents were willing to pay for wastewater to be treated to level C. It was concluded from the survey results that 100% cost recovery of sewerage services and wastewater treatment would not be possible in Hyderabad in the current situation. However, a phased increase in the water tariffs accompanied with simultaneous improvements in service delivery mechanisms and awareness among consumers may be successful in the long-run.
Powered by DB/Text
WebPublisher, from