Joyashree Roy

The rebound effect: some empirical evidence from India

Abstract The present paper looks at the effect of technical efficiency gains on energy use in three sectors in India, at varying levels of aggregation. High positive rebound implies that efficient technology, unless supplemented by appropriate pricing policy, will not be successful in containing demand. However, the main purpose of the paper is to focus on the unique mechanism of rebound that may occur in developing countries with unmet demand.

Renewable Energy in the Context of Sustainable Development

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Urban Health Inequities and the Added Pressure of Climate Change: An Action-Oriented Research Agenda

Climate change will likely exacerbate already existing urban social inequities and health risks, thereby exacerbating existing urban health inequities. Cities in low- and middle-income countries are particularly vulnerable. Urbanization is both a cause of and potential solution to global climate change. Most population growth in the foreseeable future will occur in urban areas primarily in developing countries. How this growth is managed has enormous implications for climate change given the increasing concentration and magnitude of economic production in urban localities, as well as the higher consumption practices of urbanites, especially the middle classes, compared to rural populations. There is still much to learn about the extent to which climate change affects urban health equity and what can be done effectively in different socio-political and socio-economic contexts to improve the health of urban dwelling humans and the environment. But it is clear that equity-oriented climate change adaptation means attention to the social conditions in which urban populations live—this is not just a climate change policy issue, it requires inter-sectoral action. Policies and programs in urban planning and design, workplace health and safety, and urban agriculture can help mitigate further climate change and adapt to existing climate change. If done well, these will also be good for urban health equity.

Economic benefits of arsenic removal from ground water--a case study from West Bengal, India.

People living in almost 50% of the districts in West Bengal are exposed to arsenic contaminated water. This paper seeks to estimate the economic costs imposed by arsenic-related health problems. We use data from a primary survey of 473 households carried out in the districts of North 24 Parganas and Midnapore. We take into account household actions to either decrease the exposure of family members to unsafe water or to alleviate the health effects of consuming arsenic-contaminated water. This allows us to assess the benefits of arsenic-safe water by estimating a three equation system that includes averting actions, medical expenditures and a sickness function. We find that by reducing arsenic concentration to the safe limit of 50 microg/l, a representative household will benefit by Rs 297 (

Electro-chemical arsenic remediation: Field trials in West Bengal

7) per month. The current cost of supplying filtered piped water by the Kolkata Municipal Corporation to households is Rs 127 (

Cost of oil-based decentralized power generation in India: Scope for SPV technology

3) per month per household. Thus, investing in safe drinking water is economically feasible and households are willing to pay for such investments if made aware of the effective gain in welfare. Poor households, who make up the highest proportion of arsenic-affected households and incur the largest number of sick days, will be major beneficiaries of such investments.

Qualitative Input-Output Analysis of the Indian Economic Structure

Millions of people in rural South Asia are exposed to high levels of arsenic through groundwater used for drinking. Many deployed arsenic remediation technologies quickly fail because they are not maintained, repaired, accepted, or affordable. It is therefore imperative that arsenic remediation technologies be evaluated for their ability to perform within a sustainable and scalable business model that addresses these challenges. We present field trial results of a 600 L Electro-Chemical Arsenic Remediation (ECAR) reactor operating over 3.5 months in West Bengal. These results are evaluated through the lens of a community scale micro-utility business model as a potential sustainable and scalable safe water solution for rural communities in South Asia. We demonstrate ECARs ability to consistently reduce arsenic concentrations of ~266 μg/L to <5 μg/L in real groundwater, simultaneously meeting the international standards for iron and aluminum in drinking water. ECAR operating costs (amortized capital plus consumables) are estimated as

Towards demand-side solutions for mitigating climate change

0.83-

Solar lanterns for rural households

1.04/m(3) under realistic conditions. We discuss the implications of these results against the constraints of a sustainable and scalable business model to argue that ECAR is a promising technology to help provide a clean water solution in arsenic-affected areas of South Asia.

Climate change mitigation policy paradigms—national objectives and alignments

Abstract In India growth of oil-based decentralized (backup and non-backup) power-generating systems is an outcome of the increasing demand for power with security in supply from consumers. Given the projections on demand for and supply of power through the centralized grid, growth of these systems is bound to be on the rise. The present study, based on primary data collected from a field survey, builds up a database for this decentralized power-generating sector to assess its role in the context of the Indian economy. Cost calculations and on-the-spot measurements of sound pollution and a standard estimate of air pollution from conventional oil-based power generators bring out clearly the problems of the existing systems. It has been shown that if pollution abatement costs and the scarcity value of diesel are included in cost calculation for widely used conventional diesel-based decentralized systems, along with standard accounting costs, then solar photovoltaic (SPV) technologies may be an ideal alternative to conventional oil-based systems in the decentralized power-generating sector. However, to encourage existing private entrepreneurs to go for this new technology, government intervention is necessary in a number of ways.