Relevant bibliographies by topics / Energy sector in India

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Energy sector in India'

Author: Grafiati
Published: 5 June 2025
Last updated: 25 June 2025

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Journal articles on the topic "Energy sector in India"

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Paliwal, Pramod, Abhinav Sengupta, and Neha Dixit. "Sustainable growth of Indian coal industry: policy perspectives and recommendations." Journal of Mines, Metals and Fuels 69, no. 2 (2021): 35. http://dx.doi.org/10.18311/jmmf/2021/27331.

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Coal is the most abundant fossil fuel resource in India, and the country’s industrial and economic heritage has been built upon indigenous coal. India is the world’s 3rd largest energy consumer after China and USA. However, as the country goes through profound economic and societal transformations, such as economic and population growth, urbanization and industrialization, energy demand is expected to increase substantially. Looking into the significance of coal not only in the energy-mix but also in the economic development of India, the paper is aimed at an assessment of coal sector in India which shall also help contextualize the place of coal in India’s contemporary energy, industrial and social sectors amidst a range of developments – both national and international - related to coal sector. The authors looked into various aspects of Indian coal sector from a policy perspective and suggested subsequent course of action so the same can be used by Indian coal mining stakeholders towards the larger goal of sustainable growth of coal sector including coal mining. The analysis produced important policy recommendations for coal industry stakeholders including the Indian Government, who is the sovereign owner of coal mine acreage in India.
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Patil, Sandip, and Ketan Dhande. "An effect of green energy utilization on Industrial development in India." Journal of Industrial Engineering and Decision Making 2, no. 1 (2021): 31–36. http://dx.doi.org/10.31181/jiedm200201031p.

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India is a developing country, with a population of about 1,387,297,452. India requires a lot of energy both for development and running all its systems smoothly. Most of the energy consumed in India is in electrical form. The electrical energy consumption of India is around 1,137.00 billion kWh of electric energy per year. When counted per person, this energy comes to an average of around 841 kWh. When looking at the tactical data given out by the Indian government, 80% of the total electrical energy is produced using fossil fuels, even though there is a lot of abundant availability of renewable energy here in India. This paper studies the various renewable energy sources currently utilized in various sectors in India. This paper looks at the effect of technical efficiency gains on energy use in industrial, agricultural, and other sectors in India, at varying levels of aggregation. This paper gives the present status of energy sources and utilization areas. Although around 80% of the average temperature zone is available in the Indian subcontinent, the electrical energy produced in India via solar energy is less than around 1.3% of total consumption. India currently produces 63.730 GW, which is very less when compared to the total energy required. Similarly, India produces 32 GW of electrical energy from the wind sector, which is very little compared to the total energy consumption.
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Tabassum, Zahira, and Dr Chandrashekhar Shastry. "Renewable energy Sector in Gujarat, India." Journal of University of Shanghai for Science and Technology 23, no. 06 (2021): 1128–40. http://dx.doi.org/10.51201/jusst/21/05401.

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Excessive use of traditional energy sources such as fossil fuels has resulted in significant environmental deterioration. India is one of the world’s fastest-growing energy consumers, and it is making continual efforts to increase renewable energy generation. The use of renewable energy sources to generate electricity is expanding every day. Renewable energy integration with existing power systems is a difficult endeavor that necessitates strategy and development. Climate-friendly energy systems will result from the use of renewable energy sources in power generation, as they lower CO2 emissions caused by fossil fuels used in conventional power generation. This research looks at a renewable energy scenario using Gujarat as a case study, which is a leader in renewable energy generation. The policies taken by the Gujarat government to increase renewable energy’s participation in the energy mix, as well as the challenges and potential solutions for boosting the deployment of renewable energy sources across Gujarat, are discussed. This study can be used as a guide for policymakers and researchers in other states and around the world who want to boost renewable energy share.
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Verma, Piyush, Alka Verma, and Anupam Agnihotri. "India’s initiatives on Improving Energy Efficiency in Aluminium Industries." Asia Pacific Journal of Energy and Environment 2, no. 2 (2015): 53–60. http://dx.doi.org/10.18034/apjee.v2i2.224.

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India is an important player in the aluminium, especially because of its abundant bauxite reserves and low-cost skilled manpower. The sector has a significant importance in the growth of Indian economy since the aluminium consumption follows GDP growth curve. Indian aluminium sector is observed as one of the energy intensive sectors with ample scope for improvements in energy efficiency as compared to world standards. The aluminium industries are upgrading themselves by adapting state-of-art technologies, which are more energy-efficient and sustainable in a highly competitive market. These initiatives are further accelerated and motivated by an innovative incentivization scheme (called Perform, Achieve and Trade) of Govt. of India. Currently, the first phase (2012-15) is under implementation, and an unexpected movement towards energy efficiency is envisaged as a result that will ultimately lead towards production of low carbon aluminium for the society.
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Bogaraj, T., and J. Kanakaraj. "Indian renewable power sector: potential, policies, barriers, and its prospective." Journal of Electrical Engineering 21, no. 3 (2021): 109–24. http://dx.doi.org/10.59168/lqlt9690.

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Increasing prices, green house gas emission, and depleting nature of fossil fuel makes the world to think about alternate sources of energy particularly renewable energy sources which are green sources, and freely available. Carbon dioxide emissions can be reduced by replacing the existing fossil fuel based systems with renewable energy sources as far as possible and increasing the energy efficiency of existing systems. Policies of Indian government to adapt more renewable energy sources are rigorous in the last decade. Various strategies taken by Indian government for the last two decades have increased the renewable share in the electricity sector. But the energy demand is increasing at about 10% every year. Renewable energy sources are added in a phased manner into the Indian electricity sector. This paper presents different renewable technologies, developments, potential, and barriers to renewable energy adaption in India. Unused potential of various renewable sources in India are indicated. Also, policies of Government and current, future status of renewable sources are summarised.
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Bagchi, Prantik, and Santosh Kumar Sahu. "Energy Intensity, Productivity and Pollution Loads: Empirical Evidence from Manufacturing Sector of India." Studies in Microeconomics 8, no. 2 (2020): 194–211. http://dx.doi.org/10.1177/2321022220930968.

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We explain the relationship between energy intensity and productivity for the organized manufacturing sector of India. Using data from the secondary sources, we explain the relationships at aggregate, state and industry levels. The novelty of this paper lies in bringing in pollution loads in explaining inter-industry variations in energy intensity. Results of this study indicate that the organized manufacturing sector of India has gained energy efficiency and productivity. We found heterogeneity among Indian states in productivity growth and energy intensity. The results indicate that small states performed well whereas large states fall in the productivity paradox. The productivity dilemma hypothesis is validated at industry level analysis however, results are inconsistent to validate the decoupling growth hypothesis. Pollution loads as classified by Government of India, plays a vital role in explaining energy intensity variations across industries, which calls for better policies aiming at pollutive industries specifically to achieve sustainable growth for the manufacturing sector of the Indian economy.
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K.A., Ibragimova. "Energy Sector of India: Past and Present." MGIMO Review of International Relations 2, no. 53 (2017): 109–30. http://dx.doi.org/10.24833/2071-8160-2017-2-53-109-130.

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SAHU, ASISH KUMAR. "THE COAL CHALLENGE IN INDIA." International Journal of Students' Research in Technology & Management 3, no. 1 (2015): 231–33. http://dx.doi.org/10.18510/ijsrtm.2015.315.

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Coal contributes over half of India’s primary commercial energy and is likely to remain India’s most important source of energy for the coming decade or two. However, extraction and usage of coal leads to severe environmental problems within India and also contributes to climate change inducing green-house gas emissions. But the challenges of coal in India go beyond this, as the sector is plagued with governance challenges, inefficiency and allegations of corruption. This article takes a holistic view of the Indian coal sector. It summarizes the challenges produced by coal as well as the challenges that affect the sector. Furthermore, the article provides a glimpse into the perspectives of an energy future for the country with a reduced role for coal.
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Chawla, Yash, Fumio Shimpo, and Maciej M. Sokołowski. "Artificial intelligence and information management in the energy transition of India: lessons from the global IT heart." Digital Policy, Regulation and Governance 24, no. 1 (2022): 17–29. http://dx.doi.org/10.1108/dprg-05-2021-0062.

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Purpose India is a fast-growing economy, that has a majority share in the global information technology industry (IT). Rapid urbanisation and modernisation in India have strained its energy sector, which is being reformed to cope. Despite being the global IT heart and having above average research output in the field of artificial intelligence (AI), India has not yet managed to leverage its benefits to the full. This study aims to address the role of AI and information management (IM) in India’s energy transition to highlight the challenges and barriers to its development and use in the energy sector. Design/methodology/approach The study, through analysis of proposed strategies, current policies, available literature and reports, discusses the role of AI and IM in the energy transition in India, highlighting the current situation and challenges. Findings The results show dispersed research and development incentives for IT in the Indian energy sector; however, the needed holistic top-down approach is lacking, calling for due attention in this matter. Adaptive and swift actions from policymakers towards AI and IM are warranted in India. Practical implications The ongoing transition of the Indian energy sector with the integration of smart technologies would result in increased access to big data. Extracting the maximum benefits from this would require a comprehensive AI and IM policy. Social implications The revolution in AI and robotics must be carried out in line with sustainable development goals, to support climate action and to consider privacy issues – both areas in India must be strengthened. Originality/value The paper offers an original discussion on certain applicable solutions regarding the energy transition of AI coming from the Global South; they are based on lessons learned from the Indian case studies presented in this study.
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Chowdhury, Arnav. "Factors Affecting Customer Satisfaction in Public Sector Banks (With Special Reference to State Bank of India)." International Journal for Research in Applied Science and Engineering Technology 9, no. 10 (2021): 398–402. http://dx.doi.org/10.22214/ijraset.2021.38422.

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Abstract: Public sector banks in India play a vital role in the Indian economy, especially State Bank of India, as it is the largest public sector Bank in the country. However, gone are days when SBI was the only option for most of the people in India. With emergence of Private Sector Banks and other Public sector Banks, customer satisfaction plays an important role now a days. This research is all about finding the Factors affecting customer satisfaction in public sector banks with special reference to State Bank of India. Keywords: customer satisfaction in banks. State Bank of India, Banks in India, public sector banks customer satisfaction.
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Dissertations / Theses on the topic "Energy sector in India"

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Udayakumar, Suhasini. "Socio-Economic Sustainability of Rural Energy Access in India." Thesis, KTH, Energi och klimatstudier, ECS, 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-180366.

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Rural energy access has been a persistent issue in India causing the country to become one of the most energy poor nations of the world. Despite the launch of several heavily funded programs for the provision of electricity and modern fuels to rural areas, majority of the country‘s village households remain neglected and deficient in energy. Calls have been made for the reconstruction of policies, programs and institutional frameworks that engage in dispersion of energy to the rural poor. Such policies, programs and institutional frameworks vary across different states within India. These differences need to be understood in depth to formulate suitable mechanisms for energy access. In particular, social and economic aspects of energy access need to be studied to overcome barriers in providing energy to the rural poor. This study discerns how different states are performing in terms of providing sustainable energy access to rural people. It conducts an analysis of the socio-economic sustainability of energy access to the rural household in six states of the country (Andhra Pradesh, Himachal Pradesh, Maharashtra, Punjab, Rajasthan and West Bengal) over the course of two time periods(1996-2002, 2005-2011), with the aid of key performance indicators. Results indicate that all the states have improved their energy access conditions over the past few decades. However, the rates of growth are vastly different and some states still continue to remain highly inadequate in their performances. Punjab has consistently been the most successful state while West Bengal continues to be the most energy-poor state despite a reasonable growth in energy sustainability. The possible reasoning behind these disparities could be dissimilarity in economic development between the states, size and population density of the states, isolation of villages and ineffectiveness and inequity of subsidy schemes. These needs further exploration at individual state level. Transition to less-expensive and easily installable renewable technologies, communicating benefits of modern energy to rural population and channeling subsidies towards lower income groups can improve reach of modern energy towards the rural poor of India.
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Sankar, Chidambaram, and Mana Mohan Muniraja. "Study of Solar Thermal Energy in the Industrial Sector : Case on multinational companies in India." Thesis, Uppsala universitet, Institutionen för samhällsbyggnad och industriell teknik, 2020. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-423194.

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Solar thermal technology is a rapidly evolving technology that still has a smaller market share than other green technologies. Therefore, this study aims to recognize barriers and drivers for the use of solar thermal technologies in the industrial sector. A literature review summarized the existing literature problems concerning drivers and barriers for the use of solar thermal technology in the industrial sector. To establish drivers and barriers to the use of solar thermal technology in the industrial sector and to supplement the literature review, a cross-sectional analysis was carried out in this study. Case studies have been performed in India, where two companies have undergone pilot testing of solar thermal systems in their manufacturing processes, and one has an option to incorporate solar thermal systems. Purposeful sampling was used to select the companies for the interviews, while convenience sampling and the snowball sampling were used to pick interview participants, further in this research six interviews was conducted from 4 different companies in the industrial sector. The findings were presented with thematic analysis. Drivers and Barriers have been divided into themes. Namely, Drivers include futuristic technology and Barriers include high costs, infrastructure requirements, more efficient and cheaper alternatives and lack of institutional support. Futuristic technology theme explains why this technology is beneficial for industrial adoption in the Indian market. High-cost theme explains why this technology is expensive over other renewable sources. Infrastructure requirements theme explains installation barriers influencing the adoption of solar thermal systems in the industrial process. Efficient and cheaper alternatives theme explains competitors influencing the adoption of solar thermal energy in the industrial sector. Lack of institutional support theme explains government and multinational companies that are influencing the adoption of solar thermal energy in the industrial sector. Aspects covered by the theme, high costs were most frequently mentioned among the respondents, suggesting that barriers play a significant role in implementing solar thermal systems. In contrast, aspects covered by the themes lack institutional support, infrastructure requirements, and more efficient and cheaper alternatives have not been addressed in the literature. Finally, the study concluded that the adoption of solar thermal energy in the Industrial Sector faces various barriers and drivers that must be investigated before the implementation.
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Balls, Jonathan. "Fluid capitalism at the bottom of the pyramid : a study of the off-grid solar power market in Uttar Pradesh, India." Thesis, University of Oxford, 2016. https://ora.ox.ac.uk/objects/uuid:d4457f09-bf69-4ec6-802e-dcdfa7495455.

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This thesis examines 'Bottom of the Pyramid' (BoP) capitalism through an empirical study of the off-grid solar power market in the North Indian state of Uttar Pradesh. Over the last three decades, the extension and neoliberalisation of capitalism across the Global South has gathered pace. In many countries, including India, there has been a proliferation of businesses serving low-income populations following economic liberalisation, and a resulting growth in what is increasingly been theorised as 'BoP capitalism'; primarily in a literature produced by economics, business, and development scholars. In this literature, the development of capitalism at the bottom of the pyramid through the Global South is predominantly being theorised as a free market story, of formal, regularised businesses succeeding by selling good quality, branded but value- conscious, innovative, and frugal goods and services. Furthermore, the argument is being made that this is 'social capitalism', that formal businesses entering BoP markets can deliver developmental and environmental benefits to low-income populations. New markets for off-grid solar power products that are growing in multiple countries in the Global South provide one significant example of BoP capitalism. Within India, an off-grid solar power market has been developing since the 1990s within a newly liberalised market context. A body of research reports that private businesses are selling good quality and value-conscious solar goods and services to India's poor. This market has been framed as highlighting the potential of BoP capitalism to bring energy and light to India's poor, while also delivering developmental benefits. The contribution of this thesis is to challenge the existing body of literature on BoP capitalism, which tells a story of BoP capitalism through the Global South being developed by formal businesses, according to market dynamics, and sees no place for informal businesses as formal ones develop. Based on ten months of qualitative fieldwork in 2013-2014 in the state of Uttar Pradesh, looking comparatively at formal, regularised and commercialised solar shops and dealerships and at informal, small-scale solar shops, this thesis explores BoP capitalism in the Indian context. This thesis has several main findings. Firstly, it shows how a new group of formal solar shops and dealerships selling good quality, branded, and standardised products, and providing an installation service, after-sales servicing, and formal bank financing are developing the BoP solar market in Uttar Pradesh in a fashion familiar to the wider literature on BoP capitalism. Secondly, it shows how the success of these solar shops and dealerships was not a free market story, but how they are being shaped and supported through state and non-state resources and patronage, and that their growth was often dependent upon informal relationships with rural development banks, which opened-up bank financing options for solar customers and access to government subsidies. Thirdly, it looks at how informal solar shops were successfully selling off- grid solar products, adopting distinctly different business practices to formal solar businesses, and developing the market in a distinctly different way. I trace how informal businesses were not just successful because they were selling cheap and substandard goods, but were also thriving because they were the site of improvised and what I term 'jugaad' products and business practices. Jugaad is a Hindi term, referring to improvised and ingenious innovation and action. This thesis highlights a context of fluid capitalism at the BoP in India, where formal and informal solar businesses are developing the BoP solar market in distinctly different ways, and where state and non- state actors are shaping the market.
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Soni, Vivek. "System modeling for security and sustainability in Indian energy sector: select issues." Thesis, IIT Delhi, 2016. http://localhost:8080/iit/handle/2074/7110.

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Mahapatro, G. "Renewable energy in India." Thesis, Sumy State University, 2016. http://essuir.sumdu.edu.ua/handle/123456789/45261.

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Renewable energy in India comes under the purview of the Ministry of New and Renewable Energy. India was the first country in the world to set up a ministry of non-conventional energy resources, in early 1980s. India's cumulative grid interactive or grid tied renewable energy capacity (excluding large hydro) has reached about 42 GW, of which 66% comes from wind, while solar PV contributed nearly 14.59% along with biomass and small hydro power of the renewable energy installed capacity in India.
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Sharma, Prajesh. "Potential of Geothermal Energy in India." Thesis, Högskolan i Halmstad, Akademin för ekonomi, teknik och naturvetenskap, 2019. http://urn.kb.se/resolve?urn=urn:nbn:se:hh:diva-40524.

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In this research paper, review of world geothermal energy production and their capacity is shown. Here, a research is conducted to know the potential and possibility of geothermal energy in India. All the geothermal province with their geographical locations are shown and a brief calculation is conducted in order to show the potential of the particular province. As India is having the low temperature geothermal fields, binary geothermal plants are used for this analysis and results are calculated by using R134a as a working fluid at different temperatures. The results are sufficient to prove the potential of geothermal energy in India.  Importance of Ground Source Heat Pump (GSHP) and power savings by its contribution over traditional heating and cooling methods is shown statistically. 9 different states of India are divided by their climatic condition, severe winter and moderate winter to calculate the heat demand in those states. Also, for the cold demands these states are considered to be same as per the climatic situation in summer. Then, comparison is done between GSHP and the traditional heating and cooling systems. The result shows the drastic power saving by using GSHP for space heating as well as cooling, over electric heater and air conditioner respectively.
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Bhandani, Abhay kumar. "Select study of mobile service adoption in Indian telecom sector." Thesis, IIT Delhi, 2016. http://localhost:8080/iit/handle/2074/7071.

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Srinivas, Nidhi. "Crafting consensus in the third world : strategy formation in the third sector." Thesis, McGill University, 2001. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=38419.

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There has during a rapid growth of third sector organizations (TSOs) in the third world during the 1990s. Such growth has occurred during a period of severe cutbacks in state investment as well as rapid globalization of trade. Social activists have often organized TSOs in these countries as an alternative to private and public organizations. However the question of how leaders and managers of these TSOs sustain their activities remains important. Their dilemma of help is the focus of this study.<br>Through a study of strategy formation in three third sector organizations in the third world, this study focuses on how TSOs can be sustainable yet effective change agents. It develops a typology of TSOs with particular attention to type of third sector activity (operating, support, community), type of organizational form (Grassroots initiatives, Grassroots Organizations, Grassroots Federations, Development Support Organizations and International Development Support Organizations) and dominant strategy approach (domain, distinctiveness, and design). This study argues that attention to these three aspects needs to be complemented by exploring the processes through which strategies form in these organizations.<br>Accordingly the strategy process in three TSOs in South India was examined, in particular the origin of the strategy, tactics of consensus, and interests of participants. Examining the strategy process in TSOs revealed that strategies originated in intent or event, promoters' consensus-tactics were conceived or improvised and participant's interests were fixed or shifting.<br>These findings on strategy process show varied origins, interests and consensus tactics in TSOs. They also seem to be associated with particular capacities in these organizations to perform their chosen activities, as well as with changes in mission. The study concludes with a discussion of the significance of these findings and a call for bridging the literatures on good management and effective social change, for further researching capacity building in TSOs, and encouraging initiatives for cross sector learning.
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Hudson, Ben H. (Ben Hugh) 1974. "Private sector provision of Internet access in rural India." Thesis, Massachusetts Institute of Technology, 2002. http://hdl.handle.net/1721.1/67548.

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Thesis (M.C.P.)--Massachusetts Institute of Technology, Dept. of Urban Studies and Planning, 2002.<br>Includes bibliographical references (leaves 44-46).<br>In South India today, a number of ongoing projects seek to provide internet access to rural areas by combining computer, internet, and other telecommunications technologies in a profitable business model. Yet, in spite of growing interest in this work, few formal evaluations have been performed on specific projects and little progress has been made toward increasing discussion of the strengths and weakness of each. Though public, private, and non-profit funds have been in a number of different ways to stimulate rural projects of this sort, evaluations to date have tended to focus on efforts led by public and non-profit organizations. Little attention has been paid to the results of private sector investment. This analysis fills a portion of the existing information gap, examining the efforts of a major sugar cane processing plant in rural South India to provide internet access to villagers. The sugar cane plant's project is evaluated on viability of infrastructure; financial sustainability; and success in meeting the company's own social objectives. In the final analysis, the company seems poised to succeed in creating a functioning, profitable network of rural internet kiosks, however, its success at providing broad access to a diverse segment of communities is limited. Two important findings emerge from this study. First, though access to computers and the internet is still limited in absolute numbers, computer aware individuals and computer users are a demographically diverse group of individuals. An intense survey of rural households demonstrates that users of computers and the internet come from a broad range of backgrounds. Though only one-quarter of rural villagers in surveyed areas were computer aware and an even smaller seven percent actually use computers, the body of actual users was demographically diverse across variables such as gender, wealth, education, and age. Second, the private sector, while seemingly able to construct a viable infrastructure for providing computer and internet access in rural areas, only serves a limited range of individuals. The project examined here was used by only one-quarter of computer users in the local area, or less than 2% of village members in August 2001. Furthermore, while users in the region surveyed were, in general, from a broad range of backgrounds, usage at the rural private sector kiosks was decidedly unequal, serving mainly wealthy male farmers from higher castes. Potential does, however, exist for the expansion of the company's internet kiosk network in a way that will significantly broaden access, reducing the digital divide seen in this private sector initiative. The analysis therefore concludes with three recommendations for improving the project at the village (operator) level and three recommendations at the company (policy) level. At the village level, awareness and skill levels must be increased; information needs and existing use must be studied to facilitate content generation; and the kiosk model must be restructured to facilitate broader access. At the company level, a solid commitment should be made to explicit social objectives; an incentive program should be developed to encourage operators to reach out to a broader range of villagers; and strategic partnerships should be developed to increase demand and available content.<br>by Ben H. Hudson.<br>M.C.P.
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Mohanty, Sasmita. "Strategic changes in the telecommunications sector: Europe vs. India." Master's thesis, Universidade de Aveiro, 2012. http://hdl.handle.net/10773/10752.

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Mestrado em Gestão<br>Neste trabalho, as mudanças estratégicas no setor de telecomunicações da Europa são estudados. Dez maiores empresas da Europa são selecionados para esta análise. Suas mudanças estratégicas sobre a década 2001 - 2011 são estudadas e analisadas. Essas mudanças estratégicas do mercado Telecom Europeia são posteriormente comparados com o seu homólogo indiano. Estes dois mercados são, então, analisada a partir dos pontos de vista de mudanças estratégicas. Finalmente, as semelhanças e diferenças entre os dois mercados são analisados e comparados.<br>In this work, the strategic changes in the telecom sector of Europe are studied. Ten largest companies of Europe are selected for this analysis. Their strategic changes over the 2001 – 2011 decade are studied and analyzed. These strategic changes of European Telecom market are subsequently compared with its Indian counterpart. These two markets are then analyzed from the view points of strategic changes. Finally, the similarities and differences between the two markets are analyzed and compared.
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Books on the topic "Energy sector in India"

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India Core (Organization : New Delhi, India), ed. Overview of power sector in India, 2008. India Core Pub., 2008.

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India) India Core (Organization : New Delhi. Overview of power sector in India, 2005. www.IndiaCore.com, International Publications & Information Services, 2005.

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Hans, Asha. Managing the energy crisis: The power sector in India. South Asian Publishers, 1992.

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Power, India Ministry of, ed. Reports on India's power sector. Academic Foundation, 2003.

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Indian Renewable Energy Development Agency. Compendium of state government policies on renewable energy sector in India. Ministry of New and Renewable Energy, Indian Renewable Energy Development Agency, 2014.

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Ghosh, Debyani. Renewable energy strategies for Indian power sector. Centre de Sciences Humaines, 2001.

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France. Ambassade (India). Centre for Human Sciences, ed. Renewable energy strategies for Indian power sector. Centre de Sciences Humaines, 2001.

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Regional, Seminar on Energy Conservation in Electricity Sector (1991 Madras India). Regional Seminar on Energy Conservation in Electricity Sector, 11-14 Nov. 1991, Madras, India. The Board, 1992.

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Programme, United Nations Development, United Nations. Economic and Social Commission for Asia and the Pacific., Asian Employment Programme, ILO Regional Office for Asia & the Pacific., and Regional Energy Development Programme (United Nations), eds. Assessment of training needs in energy sector: Case study of a thermal power plant in India. United Nations Development Programme and Economic and Social Commission for Asia and the Pacific, 1988.

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International Conference on Financing of Energy Sector in Developing Countries (1998 New Delhi, India). Financing of energy sector in developing countries: Proceedings of the International Conference on Financing of Energy Sector in Developing Countries, organised by the Indian Members Committee-WEC, under the Institution of Engineers (India), during July 15-16, 1998 at New Delhi. Edited by Chaturvedi Pradeep, World Energy Council. Indian Member Committee., and Institution of Engineers (India). Delhi State Centre. Published for the Institution of Engineers (India), Delhi State Centre by Concept Pub. Co., 1999.

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Book chapters on the topic "Energy sector in India"

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Srivastav, Asheem. "Energy Sector Progression in India." In Advances in Geographical and Environmental Sciences. Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-8940-9_2.

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Chaudhuri, Tamal Datta. "India's Energy Sector." In The Indian Economy @ 75. Routledge India, 2024. http://dx.doi.org/10.4324/9781003416074-27.

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Dey, G. K. "Structural Materials in Nuclear Energy Sector." In Future Landscape of Structural Materials in India. Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-16-8523-1_4.

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Usmani, Rahil Akhtar. "Indian Energy Sector and Analysis of Potential of Bioenergy in India." In Springer Proceedings in Energy. Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-47257-7_8.

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Ramachandra, T. V. "Energy Footprint of India: Scope for Improvements in End-Use Energy Efficiency and Renewable Energy." In Energy Footprints of the Energy Sector. Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-13-2457-4_3.

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Chaudhuri, Chetana. "Energy Input–Output Analysis for Household Sector of India." In Applications of the Input-Output Framework. Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-13-1507-7_7.

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Singh, Vijeta, Nandita Mishra, and Farhad Taghizadeh-Hesary. "Policies to Alleviate Energy Poverty in the Cooking Sector in India." In The Handbook of Energy Policy. Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-16-9680-0_6-1.

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Singh, Vijeta, Nandita Mishra, and Farhad Taghizadeh-Hesary. "Policies to Alleviate Energy Poverty in the Cooking Sector in India." In The Handbook of Energy Policy. Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-19-6778-8_6.

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Yadav, Manish, Nitin Kumar Singh, and Sneha Gautam. "Commercial Coal Mining in India Opened for Private Sector: A Boon or Inutile." In Pollutants from Energy Sources. Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-13-3281-4_7.

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Bituila, S., Abhijeet Anand, Rangan Banerjee, and Priyanka Kaushal. "Emission Assessment from the Energy Sector of Tumuyon Khullen Village of Manipur, India." In Green Energy and Technology. Springer Nature Singapore, 2024. http://dx.doi.org/10.1007/978-981-97-5419-9_13.

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Conference papers on the topic "Energy sector in India"

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Bhardwaj, Monu, Namrata Prakash, and Rupa Khanna Malhotra. "Energy Sector and Carbon Trading in the Future: A Reference to India." In 2024 International Conference on Smart Devices (ICSD). IEEE, 2024. http://dx.doi.org/10.1109/icsd60021.2024.10751388.

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Upadhyay, Chandra Kant, S. Mohan Krishnan, Aditya Gupta, and Sukhpreet Kaur. "Assessing State-Wise Policy Frameworks for Electric Vehicle Adoption: Transportation Sector in India." In 2025 International Conference on Sustainable Energy Technologies and Computational Intelligence (SETCOM). IEEE, 2025. https://doi.org/10.1109/setcom64758.2025.10932394.

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Guseva, Tatiana, Svetlana Panova, Yana Molchanova, Olga Sergienko, and Chirag Bhimani. "BEST AVAILABLE TECHNIQUES: CHALLENGES AND OPPORTUNITIES IN THE FOOD INDUSTRY." In 24th SGEM International Multidisciplinary Scientific GeoConference 2024. STEF92 Technology, 2024. https://doi.org/10.5593/sgem2024/5.1/s20.04.

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The article considers challenges and opportunities of Best Available Techniques (BAT) in the food industry, analysing cases of intensive poultry rearing and milk production. Authors emphasise that the food industry is one of the primary sectors of the world economy. According to The Food and Agriculture Organization of the United Nations, by 2050, a 70% increase in world production will be required to meet the needs of the planets expected 10 billion population. The authors discuss the potential for further development of the sector applying BAT principles, including approaches to reduce energy, water consumption, and enhancing the environmental performance of food production processes. The article compares BAT-associated resource consumption and emission levels in the European Union (EU), Russia and India. The article emphases that there is a room for significant improvement of energy and water management practices in the sectors, both in Russia and India. Techniques to be considered for the practical implementation are described in the European vertical (sectoral) and horizontal Reference Documents on BAT (BREF) as well as in the new Russian BREF on Energy Efficiency. Authors note that wastewater from milk industries and even poultry farms is often treated by Municipal Wastewater Treatment Plants (MWWTP), and recommend application of both techniques and BAT-associated emission levels stated in the Russian Reference Document on BAT for Municipal Wastewater Treatment Plants in the developing countries.
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Bisht, Arvind Singh, Oleg Lugovoy, and Tarun Sharma. "Decarbonizing the Indian Power Sector: Assessing the Impact of a 30-Year Plan to Net Zero." In 2024 IEEE 4th International Conference on Sustainable Energy and Future Electric Transportation (SEFET). IEEE, 2024. http://dx.doi.org/10.1109/sefet61574.2024.10717882.

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Bajaj, Harbans L., and Deepak Sharma. "Power Sector Reforms in India." In 2006 International Conference on Power Electronic, Drives and Energy Systems. IEEE, 2006. http://dx.doi.org/10.1109/pedes.2006.344320.

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Paul, Jai Sachith, Akhil P. Sivan, and K. Balachandran. "Energy sector in India: Challenges and solutions." In 2013 International Conference on Green Computing, Communication and Conservation of Energy (ICGCE). IEEE, 2013. http://dx.doi.org/10.1109/icgce.2013.6823492.

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Nirmal, Sanjay Kumar. "Sustainable and Green Construction Technologies in India." In IABSE Congress, New Delhi 2023: Engineering for Sustainable Development. International Association for Bridge and Structural Engineering (IABSE), 2023. http://dx.doi.org/10.2749/newdelhi.2023.1404.

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&lt;p&gt;India has taken up an ambitious Road Development Programme thereby planning Construction/Up- gradation of about 50000 km of National Highways in the next five years. This implies huge construction work in the road sector. As transport sector is responsible for about 14% of total energy related CO2 emissions and share of road transport in CO2 emissions is about 88% in India, there is huge scope to reduce CO2 emissions generated during construction by deploying low carbon measures. With the global focus shifting to low carbon transport, the highways sector offers a significant opportunity of reducing the carbon footprint of road transport. Mainstreaming of Sustainable and green construction technology included various measures including preparation of National Standards and Guidelines for construction materials &amp;amp; methods and developing green rating systems for Indian road sectors. Indian Roads Congress is an apex body of highway engineers with the mandate to prepare National Standards for entire road sector in India. Recently, IRC has prepared several codes and guidelines for promoting sustainable and green construction technologies. This paper discusses recent IRC codes on Sustainable and green solutions for reducing the carbon footprints of construction and maintenance works in road sector. The paper also discusses the challenges in the use of green technology in India and their possible solutions. The green rating system for Indian roads will also be useful in incentivizing various green technologies/materials.&lt;/p&gt;
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Singh, Digambar, and Yog Raj Sood. "Techno-economic development of renewable energy sector in India." In 2016 IEEE Region 10 Humanitarian Technology Conference (R10-HTC). IEEE, 2016. http://dx.doi.org/10.1109/r10-htc.2016.7906832.

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Sankari, B. Rengammal, Amit Rai, Ankur Kumar Rai, and Harsh Yadav. "Effect of COVID-19 on Energy Sector in India." In 2021 International Conference on Advance Computing and Innovative Technologies in Engineering (ICACITE). IEEE, 2021. http://dx.doi.org/10.1109/icacite51222.2021.9404590.

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Malini, A., and Dileep G. Menon. "Technological innovations in the banking sector in India: An analysis." In 2017 International Conference on Technological Advancements in Power and Energy (TAP Energy). IEEE, 2017. http://dx.doi.org/10.1109/tapenergy.2017.8397342.

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Reports on the topic "Energy sector in India"

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Ravindranath, N. H., A. Meili, and R. Anita. AIJ in the Non-Energy Sector in India: Opportunities and Concerns. Office of Scientific and Technical Information (OSTI), 1998. http://dx.doi.org/10.2172/6482.

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Zhou, Nan, and Michael A. McNeil. Assessment of Historic Trend in Mobility and Energy Use in India Transportation Sector Using Bottom-up Approach. Office of Scientific and Technical Information (OSTI), 2009. http://dx.doi.org/10.2172/971857.

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Wong, Ka Ying, Sakshi Pandey, Veronica Ern Hui Wee, and KE Seetha Ram. Planning and Capacity Building for High-Speed Rail Development in India: Five Key Lessons. Asian Development Bank Institute, 2023. http://dx.doi.org/10.56506/pgrm7468.

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India’s urbanization rate has increased from 26% in 1991 to 35% in 2021, and it is expected to reach 41% by 2030 (World Bank 2022). In response to this, as the backbone of its growing economy, the country’s infrastructure development, particularly transportation development, has been heavily emphasized. The railway sector will see an investment of $715.41 billion by 2030. Along with a series of supporting government policies, an opportunity to expand the high-speed rail (HSR) network has been presented in India. From the viewpoint of the government, HSR is an effective tool to address the surge in travel demand because of its mass transportation, high speed, and high energy efficiency (Suzuki et al. 2022). Besides, HSR projects bring about a ripple effect on the Indian economy by generating local employment opportunities, catalyzing the steel and cement sector and galvanizing AatmaNirbhar Bharat (an initiative by the Government of India to make the country self-reliant) through the indigenization of technology (National High Speed Rail Corporation Limited 2022). From the perspective of communities and individuals, HSR improves their quality of life by offering a faster and safer transportation option for work and travel.
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Abhyankar, Nikit, Amol Phadke, Jayant Sathaye, et al. Modeling Clean and Secure Energy Scenarios for the Indian Power Sector in 2030. Office of Scientific and Technical Information (OSTI), 2013. http://dx.doi.org/10.2172/1171352.

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Gonzalo, Manuel, Elisa Possas Gomes, Maria Gabriela von Bochkor Podcameni, and José Eduardo Cassiolato. State-led Responses to the Indian Energy Challenge: Infrastructure Expenditure, Central Public Sector Enterprises and Electrification. E-papers Servicos Editoriais Ltda, 2019. http://dx.doi.org/10.48207/23577681/bpcp0601.

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Krishna Sarangi, Gopal. Green job opportunities and employment generation potential in the Hindu Kush Himalaya – key findings and policy recommendations - Working Paper. International Centre for Integrated Mountain Development (ICIMOD), 2023. http://dx.doi.org/10.53055/icimod.1012.

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The aim of the study is to map and assess the green job opportunities and potential in selected countries in the Hindu Kush Himalayan (HKH) region with a specific focus on three key sectors, namely, renewable energy, energy efficiency, and productive use of energy, which are highly relevant to the region’s economic growth and development. The study uses the employment coefficient method as the tool of analysis for assessing green jobs. The analysis shows that India has the most potential to generate a significant number of green jobs in many of the sub-sectors considered, whereas Bhutan has the least potential to create green jobs in the sectors under reference. In small-scale decentralisation interventions such as SHS and ICS, Bangladesh emerges as the country with the highest potential to create jobs.
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anon. An Energy Overview of India. Office of Scientific and Technical Information (OSTI), 2003. http://dx.doi.org/10.2172/821394.

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de la Rue du Can, Stephane, Michael McNeil, and Jayant Sathaye. India Energy Outlook: End Use Demand in India to 2020. Office of Scientific and Technical Information (OSTI), 2009. http://dx.doi.org/10.2172/951787.

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Charalampous, Rodosthenis, Lorna Christie, Lydia Harriss, and Jonathan Wentworth. Energy sector digitalisation. Parliamentary Office of Science and Technology, 2021. http://dx.doi.org/10.58248/pn655.

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The incorporation of digital technologies in the energy sector can support progress towards key UK objectives such as achieving Net Zero emissions targets. It can also transform current methods of energy generation, transmission, regulation, and trading. This POSTnote presents an overview of key digital technologies and their main applications in the energy sector. It provides an overview of the potential benefits to using these technologies, and recent developments in this area. It describes the role of data in underpinning digital technologies in the sector, and some of the issues raised by its use. It also discusses broader challenges associated with energy sector digitalisation and measures that could help address them, including issues related to technology, regulation, and impact on consumers.
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Arent, D., R. Benioff, G. Mosey, et al. Energy Sector Market Analysis. Office of Scientific and Technical Information (OSTI), 2006. http://dx.doi.org/10.2172/894099.

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