Balancing water scarcity and economic development in the city of Windhoek

Iionga-Gaoses, Lorraine

12 1900

Thesis (MDF)--Stellenbosch University, 2008. / ENGLISH ABSTRACT: The need for economic development is a pressing reality for many developing countries. Developing cities with a high urbanisation rate in water-scarce regions face tougher conditions in meeting their development targets according to the Millennium Development Goals (MDGs). Creating a balance between water scarcity and the need for economic development is of the utmost importance if such regions are to grow. The City of Windhoek experienced this firsthand when Ramatex Textile was introduced. The Government of Namibia did everything in its power to secure Ramatex’s operation in Windhoek. Windhoek, however, is known for being a water-scarce area. This created competition amongst the different water users, and future establishments of such water-intensive factories became questionable. This research report studies the extreme case of Ramatex’s establishment and gives guidelines on future handling of such water-intensive establishments. The study also gives an example of how to make decisions using Multicriteria Decision Making tools, specifically the Analytical Hierarchy Process method using Ramatex’s information. The judgement values given in the MCDM process are fictitious and do not represent the true views of any of the stakeholders. The process was only conducted to demonstrate that such tools can be used to aid decision making. Surveys and workshops need to be conducted to solicit the true reflections of the stakeholders involved in any envisaged development projects. / AFRIKAANSE OPSOMMING: Die behoefte aan ekonomiese ontwikkeling is vir baie ontwikkelende lande ’n neerdrukkende realiteit. Ontwikkelende stede met ’n hoë verstedelikingskoers wat in waterskaars landstreke geleë is, kom voor groot uitdagings te staan om hul ekonomiese ontwikkelingsdoelwitte volgens die Millennium-ontwikkelingsdoelstellings te bereik. Die daarstelling van ’n balans tussen waterskaarste en die behoefte aan ekonomiese groei is van kardinale belang indien sulke stede wil groei. Windhoek, die hoofstad van Namibië het eerstehandse ondervinding hierin opgedoen met die opening van die Ramatex-tekstielfabriek. Die regering van Namibië het alles binne sy vermoë gedoen om die tekstielfabriek se bedrywighede in Windhoek te beskerm. Windhoek is egter bekend vir sy waterskaarste, wat tot mededinging tussen die verskillende waterverbruikers gelei het, en ook daartoe aanleiding gegee het dat toekomstige waterintensiewe ondernemings bevraagteken is. Hierdie navorsingsverslag ondersoek die besluit vir die oprigting van die Ramatex-tekstielfabriek en gee riglyne vir die toekomstige hantering van soortgelyke waterintensiewe ondernemings. Die studie gee ook ’n voorbeeld van die gebruik van multikriteria-besluitnemingsinstrumente om besluite te neem, met spesifieke verwysing na die analitiese hiërargieproses deur die gebruik van inligting aangaande Ramatex. Die beoordelende waardes in die multikriteriabesluitnemingsproses is denkbeeldig en verteenwoordig nie die ware standpunte van enige van die belanghebbendes nie. Die proses is bloot uitgevoer om aan te toon dat soortgelyke instrumente in toekomstige besluitneming gebruik kan word. Opnames en werksessies moet gehou word ten einde te verseker dat alle belanghebbendes se insette en menings aangaande toekomstige ontwikkelingsprojekte in ag geneem word.

Theses -- Business management

Dissertations -- Business management

Dissertations -- Development finance

Theses -- Development finance

Assessing the costs and benefits of water use for production and the potential of water demand management in the Crocodile Catchment of South Africa

Crafford, J.G. (Jacobus Gert)

23 July 2007

In South Africa, precipitation is extremely variable and water is scarce. South Africa is also a country with great welfare needs. Challenging economic development targets and plans therefore need to be implemented successfully within the constraints of limited water supply and unreliable water availability. These economic development plans are underpinned by the development and growth of economic activities such as agriculture, mining, energy production and many types of small, medium and micro enterprises, which are some of the largest water using sectors in the economy. Within these activities, increased competition places pressure on water users to keep supplying their markets with competitively priced goods, while rising costs of new water supplies puts pressure on water users to allocate sufficient water to their production processes. These market forces and the relative scarcity of water as an economic production factor, impact on financial viability and imply that the economic efficiency of water use becomes increasingly important. The National Water Act of 1998 (NWA) is a legislative response to this situation, and promotes a radical shift towards efficiency and equity goals in water allocation. Water users who require water as an input to economic activities are consequently seriously revising their water use patterns in response to one of the major implications of the NWA and its related principal strategy: water demand management. Water demand management strives to adhere to the principles of equity, social justice, economic efficiency and environmental sustainability, which are central to the NWA. This study evaluates the costs and benefits of water use in order to simulate the effects of water demand management activities on a catchment economy. The results of a number of studies were combined to generate an economy-wide model: a Social Accounting Matrix (SAM), for the case study area and to simulate the direct and indirect effects of water demand management on the people, the economy and the natural environment in the area. Water demand management (WDM) is defined as consisting of two phases. In the first phase, goals of full cost recovery, improving water use efficiency and allocating water optimally are targeted. The second phase of WDM arrives when a situation of absolute water scarcity is reached within a catchment. In this phase water demand outweighs water supply and water has to be allocated according to its scarcity value. Water markets play a large role here. The SAM was used to simulate the direct and indirect impacts on the economy and the environment of a number of WDM related scenarios. Water e-allocation decisions and the effects of various WDM policy instruments, such as reduction of water use subsidies and increases in water tariffs were simulated. Unintended consequences of other environmental policies on water use, in this case, carbon tax, were explored. Water scarcity predictions were done, and some of the transaction costs involved in water trading was quantified. The study concludes with a discussion on the indirect effects on the economy, the environment and people of changes affecting the agricultural (including forestry) activities. The direct and indirect impacts of WDM policies on the economy and the environment, and the importance of environmental-economic models in water cost benefit modeling are also discussed. Implications for policy and management are highlighted. This study shows specifically how, through modelling various scenarios, policy decisions aimed at managing specific variables (e.g. water use, carbon emissions) have an economic and environmental impact much wider than the sector in which the policy was targeted for. Each scenario shows how a water transaction, or a change in subsidy in the agricultural (including forestry) sector, could impact on the output of other economic sectors, and therefore the economy as a whole. It is therefore evident that policy decisions, which are implemented at a macro level, and could have a major direct impact on a wider range of economic sectors, should be carefully considered as they could have large, undesirable, unintended consequences. / Dissertation (MSc (Agricultural Economics))--University of Pretoria, 2004. / Agricultural Economics, Extension and Rural Development / MSc (Agric) / unrestricted

Water demand economic aspects

Water resources development south africa

Water use management

UCTD

Assessment of the water poverty index at meso-catchment scale in the Thukela Basin.

Dlamini, Dennis Jabulani Mduduzi.

January 2006

The connection between water and human wellbeing is increasingly causing concern about the implications of water scarcity on poverty. The primary fear is that water scarcity may not only worsen poverty, but may also undermine efforts to alleviate poverty and food insecurity. A review of literature revealed that the relationship between water scarcity and poverty is a complex one, with water scarcity being both a cause and consequence of poverty. Furthermore, water scarcity is multidimensional, which makes it difficult to define, while it can also vary considerably, both temporally and spatially. Finally, the relationship between water scarcity and poverty is a difficult one to quantify. Within the context of water scarcity, indicators are viewed by many development analysts as appropriate tools for informing and orienting policy-making, for comparing situations and for measuring performance. However, simplistic traditional indicators cannot capture the complexity of the water-poverty link; hence a proliferation of more sophisticated indicators and indices since the early 1990s. The Water Poverty Index (WPI), one of these new indices, assesses water scarcity holistically. Water poverty derives from the conceptualisation of this index which relates dimensions of poverty to access to water for domestic and productive use. However, the WPI has not been applied extensively at meso-catchment scale, the scale at which water resources managers operate. In South Africa, the Thukela Catchment -in the province of KwaZulu-Natal presents a unique opportunity to assess the WPI at this scale. The Thukela is a diverse catchment with respect to physiography, climate and (by extension) natural vegetation, land use, demography, culture and economy. While parts of the catchment are suitable for intensive agricultural production and others are thriving economic centres, a large percentage of the population in the catchment lives in poverty in high risk ecosystems, with their vulnerability exacerbated by policies of the erstwhile apartheid government. Many rural communities, a high percentage of which occupy these naturally harsh areas, have low skills levels, with a high proportion of unemployed people, low or no income and low services delivery. Infrastructural development, which relates to municipal service delivery, is often made prohibitively expensive by the rugged terrain in which many people live. As in other catchments in South Africa, the Thukela is affected by policies and initiatives aimed at accomplishing the objectives of post-1994 legislation such as the South Africa Constitution and the National Water Act. The potential of the WPI to assess the impacts of these initiatives on human wellbeing and to inform decision .making in the Thukela catchment was investigated. An analysis of a 46 year long series of monthly summations of daily values of streamflows output by the ACRU agrohydrological simulation model has shown that the Thukela, in its entirety , is a water-rich catchment. The reliability of the streamflows, which has implications for communities who collect water directly from 1 streams, is high along main channels but can be considerably less along low order tributaries of the main streams. The flow reliability along the small tributaries is less in winter than in summer. A high percentage of the catchment's population, in addition to being poor and not having access to municipal services, live near, and rely on, the small tributaries for their water supplies. Admittedly, this analysis addresses only one dimension of water poverty, viz. physical water shortage. Nevertheless, the study revealed that despite the Thukela's being a water-rich catchment, many communities are still water stressed. A more holistic characterisation of the water scarcity situation in the Thukela catchment was achieved using the WPI. A review of possible information sources for computing the WPI in South Africa found that many monitoring programmes, information systems and databases are either in existence and are active, or being restructured, or are under different stages of development. If and when they are all fully functional , they should be able to support national assessments of the WPI at meso-scale without the need to collect additional information. A combination of information from some of the active databases and secondary data from other local studies was used to compute the WPI in the Thukela catchment. The assessment uncovered the following: • There is an apparent association between water poverty and socio-economic disadvantage in the Thukela catchment. • There was an improvement in the water poverty situation in most parts of the Thukela catchment between 1996 and 2001, although the degree of improvement varied from subcatchment to subcatchment. Climate change, if it manifests itself by higher temperatures and reduced rainfall, will most likely worsen water poverty throughout the Thukela catchment, with the subcatchments in which many of the poor communities are located being more likely to experience the most severe impacts as the coping capacities of those communities are already strained under current climatic conditions. The findings of this study illustrate the potential of WPI as a tool for informing decision making and policy evaluation at the meso-catchment scale at which many water-related decisions are made. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2006.

Water-supply--KwaZulu-Natal--Wembezi.

Water-supply, Rural--KwaZulu-Natal.

Environmental indicators.

Hydrologic models.

Poverty--South Africa.

Analysis and prediction of chemical treatment cost of potable water in the Upper and Middle Vaal water management areas.

Gebremedhin, Samuel Kahsai.

January 2009

This study is a component of a research project on the economic costs of eutrophication in the Vaal River system. Its objective is to investigate the relationship between raw water quality and the chemical costs of producing potable water at two water treatment plants: Zuikerbosch Station #2 (owned by Rand Water) in the Upper Vaal Water Management Area (UVWMA), and Balkfontein (owned by Sedibeng Water) in the Middle Vaal Water Management Area (MVWMA). Time series data on raw water quality and chemical dosages used to treat raw water were obtained for Zuikerbosch Station #2 (hereafter referred to as Zuikerbosch) for the period November 2004 – October 2006 and for Balkfontein for the period January 2004 to December 2006. Descriptive statistics reveal that raw water in the Vaal River is of a poorer quality at Balkfontein compared to that at Zuikerbosch. Furthermore, the actual real chemical water treatment costs (measured in 2006 ZAR) averaged R89.90 per megalitre at Zuikerbosch and R126.31 at Balkfontein, indicating that the chemical water treatment costs of producing potable water tend to increase as raw water quality declines. Collinearity among water quality (WQ) variables at both water treatment plants was analysed using Principal Component Analysis (PCA). The dimensions of water quality identified in the analysis are similar to those reported in Pieterse and van Vuuren’s (1997) study of the Vaal River. For both water treatment plants, Ordinary Least Squares (OLS) regression was used to identify the relationship between real chemical costs of water treatment and the dimensions of water quality identified through the respective Principal Components Analyses. The estimated regression models account for over 50.2% and 34.7% of variation in real chemical water treatment costs at Zuikerbosch and Balkfontein, respectively. The coefficient estimated for PC1 at Zuikerbosch is statistically significant at the 1% level of probability with high negative loadings of total alkalinity and turbidity. Increases in the levels of total alkalinity and turbidity in raw water treated at Zuikerbosch is negatively related to the chemical costs of water treatment. An increased total alkalinity level was found to reduce the chemical costs of treating potable water. PC2 is statistically the most important variable in the estimated explanatory model for Balkfontein. The estimated regression coefficient for PC2 is statistically significant at the 5% level of probability. The estimated relationship between chemical water treatment costs and PC2 shows that there is a positive relationship between the raw water temperature and chemical water treatment costs. However, increases in the levels of chlorophyll and pH in raw water treated at Balkfontein is negatively related to the chemical costs of water treatment. Total hardness, magnesium, calcium, sulphate, conductivity, and chloride, being the highest positive loadings in PC1, relate negatively to the chemical cost of treating water. For predictive rather than explanatory purposes, a partial adjustment regression model was estimated for each of the two water treatment plants. Using this model, real chemical water treatment costs were specified as a function of real chemical water treatment costs in the previous time period, and of raw water quality variables in the current period. The R2 statistics for the two regression models were 61.4% using the data for Zuikerbosch and 59.9% using the data for Balkfontein, suggesting that both models have reasonable levels of predictive power. The chemical cost of water treatment for Zuikerbosch and Balkfontein are predicted at R96.25 and R90.74 per megalitre per day respectively. If raw water nitrate in the UVWMA increases by 1% per megalitre a day while other factors remain constant, chemical water treatment costs at Zuikerbosch can be expected to increase by 0.297% per megalitre and the cost accompanied this change is (R0.285*1998ML*365days) R207,841.95 provided that Zuikerbosch treats an average of 1998 megalitres per day. Likewise, if Zuikerbosch maintains its daily average operating capacity and is able to maintain an optimal level of total alkalinity in UVWMA, the estimated saving on chemical water treatment cost will be R150.063.78 per annum. At Balkfontein, chemical water treatment cost is expected to increase on average by 0.346% per megalitre per day for a 1% per megalitre per day increase in the level of chlorophyll-a, and the cost accompanied this change is R41,128.20 per annum. The prediction also shows a 2.077% per megalitre per day increase chemical water treatment cost for a 1% increase in turbidity and this accompanied with a chemical water treatment cost of R 249,003 per annum, provided that Balkfontein operates at its full capacity (i.e., 360 megalitres per day). / Thesis (M.Sc.Agric.)-University of KwaZulu-Natal, Pietermaritzburg, 2009.

Water--Purification--South Africa.

Water--Purification--Costs.

Water treatment plants--South Africa.

Theses--Agricultural economics.

The Nexus between water supply infrastructure and socio-economic developments in Amhara Region, Ethiopia, 1941-2005

Derb Tefera Tassew

05 1900

This thesis examines the historical introduction and spatial expansion of modern water supply infrastructure in Amhara region across the three successive regimes: imperial, military, and EPRDF. It attempts to explore the institutional setup of the three governments together with their policies and strategies. The study also aims at giving an idea about the socio-economic changes registered because of improved access to safe water. Furthermore, it assesses the water consumption and conservation pattern of the society and the environmental impact of the water infrastructure development. Modern infrastructure development in Ethiopia traced its beginning back to the late 19th century. Safe drinking water supply had been one of those modern infrastructures introduced in Addis Ababa. Not long afterwards, it proliferated to the provinces. In Amhara region, drinking water supply infrastructure construction began in the early 20th century. However, this thesis inquired whether there was a programmed water supply infrastructure development before the mid-1950s or not. The water supply work started gaining momentum and became a state program in the late imperial period. However, it was affected by financial, technological and trained human resource constraints, lack of appropriate institution, defective management systems, and improper implementation methods. The military government had strengthened water supply institutions and improved workers' expertise. These developments helped the water supply infrastructure work to be executed in a programmed manner. Yet, financial restraints, the incessant political chaos of the time and the accompanied disruptive working environment had greatly impacted the temporal and spatial coverage of the water supply infrastructure development. The promising start of the Derg period did not continue with similar pace during the early years of the EPRDF rule. Despite the efforts made to set up water institutions at Regional, Zonal and Woreda (district) levels, no significant achievement was recorded in the field. The aftermath of the civil war together with internal and external challenges epitomized the transition period had impinged on the water supply work. This thesis testifies to the emergence of some socio-economic changes in the region. Yet, the slow progress of the water supply infrastructure work had stalled the socio-economic change that should have been registered through improved access to safe water supply. Despite the observable environmental degradation, the thesis argues that the retarded water supply work had nothing to do with the dearth of fresh water. While the trend shows steady growth of water consumption level across the three regimes, the conservation habit of the population remained low. / D.Litt. et Phil. (History)

Ethiopia

Amhara Region

Imperial Regime

Infrastructure

Rural water supply

Socio-economic development

Urban water supply

Military Regime

EPRDF Regime

Accessibility

Inaccessibility

Environmental impact

363.6109634

Water use and sustainable development in South Africa

Ukwandu, Damian Chukwudi

11 1900

This study is non-empirical and is based on the conceptualisations and theoretical foundations that gave rise to the global issue of sustainable development. It also traces the evolution and meaning of sustainable development in the South African socio-cultural context, and shows how the legacies of colonialism and apartheid contributed towards the national policy of sustainable development. This study explains the reasons for the presence (or lack) of sustainable development paradigms in apartheid and post-apartheid South Africa, as well as their implications for the future development of the country as a whole. There is also an analysis of the effects of the liberalisation of the water sector on the citizenry, and how this can disempower millions of poor South Africans. Finally, this study offers solutions for the lack of sustainable use of water in South Africa. Amongst the findings and conclusions are the deleterious effects of employment equity, cut-backs in municipal funding that resulted in the outsourcing of critical services such as water provision, and the deployment of party cadres to local councils. / Human Resources / M.A. (Development Studies)

Sustainable development

Department of Water Affairs and Forestry

Water Research Commission

Palmer Development Group

Marginalisation

Poverty alleviation

Bantu education

Commercialisation

Sustainability

Development and underdevelopment

Developed and developing societies

Colonial and apartheid legacies

Development and natural capital

Development and moral capital

Water and development

Water and sanitation

Water and poverty alleviation

Neoliberalism

333.9100968

Water -- South Africa -- Management

Sustainable development -- South Africa

Water use and sustainable development in South Africa

Ukwandu, Damian Chukwudi

11 1900

This study is non-empirical and is based on the conceptualisations and theoretical foundations that gave rise to the global issue of sustainable development. It also traces the evolution and meaning of sustainable development in the South African socio-cultural context, and shows how the legacies of colonialism and apartheid contributed towards the national policy of sustainable development. This study explains the reasons for the presence (or lack) of sustainable development paradigms in apartheid and post-apartheid South Africa, as well as their implications for the future development of the country as a whole. There is also an analysis of the effects of the liberalisation of the water sector on the citizenry, and how this can disempower millions of poor South Africans. Finally, this study offers solutions for the lack of sustainable use of water in South Africa. Amongst the findings and conclusions are the deleterious effects of employment equity, cut-backs in municipal funding that resulted in the outsourcing of critical services such as water provision, and the deployment of party cadres to local councils. / Human Resources / M.A. (Development Studies)

Sustainable development

Department of Water Affairs and Forestry

Water Research Commission

Palmer Development Group

Marginalisation

Poverty alleviation

Bantu education

Commercialisation

Sustainability

Development and underdevelopment

Developed and developing societies

Colonial and apartheid legacies

Development and natural capital

Development and moral capital

Water and development

Water and sanitation

Water and poverty alleviation

Neoliberalism

333.9100968

Water -- South Africa -- Management

Sustainable development -- South Africa