This is a repository of (only) journal articles related to air pollution covering all the key subjects like emission inventories, emission factors, dispersion modeling, source apportionment, health impact studies, energy scenarios, etc. While the list is populated with India specific papers, a number of interesting and useful papers from other countries are also included. Follow the article links to the journal pages for full articles.
If you want to search the metadata of the papers,click here. Note that this is a repository of papers which we found interesting and we are sharing the title, abstract, and link to only those articles here.
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Sahu, S K; Ohara, T; Beig, G The role of coal technology in redefining India’s climate change agents and other pollutants Journal Article Environmental Research Letters, 12 (10), 2017, (cited By 1). Abstract | Links | BibTeX | Tags: carbon dioxide; carbon emission; carbon monoxide; chemical pollutant; coal; emission control; energy budget; fossil fuel; greenhouse gas; hydrocarbon reserve; industrial development; power plant; thermal power; United Nations Framework Convention on Climate Change; volatile organic compound, Climate change, Coal technologies; Coal-based thermal power plants; GHGs; Indian power sectors; Industrial development; pollutants; Thermal power; United nations framework convention on climate changes, India; United States @article{Sahu2017,
title = {The role of coal technology in redefining India’s climate change agents and other pollutants}, author = {S K Sahu and T Ohara and G Beig}, url = {https://www.scopus.com/inward/record.uri?eid=2-s2.0-85033677890&doi=10.1088%2f1748-9326%2faa814a&partnerID=40&md5=1ee1aa2d3ece9aa33304725c6bb5cf35}, doi = {10.1088/1748-9326/aa814a}, year = {2017}, date = {2017-01-01}, journal = {Environmental Research Letters}, volume = {12}, number = {10}, publisher = {Institute of Physics Publishing}, abstract = {It is well established that carbon dioxide (CO2) is the most prominent agent of climate change. The level of CO2 in the atmosphere has been increasing persistently over the last few decades due to rising dependence on fossil fuels for energy production. India is facing a potential energy crisis. India has large coal reserves and coal is currently the linchpin of the Indian power sector, making Indian coal-derived emissions a focus of global attention. Further, India’s journey from a challenging energy security situation to the ‘Make in India’ initiative is expected to drive energy needs exponentially. Thus, in the context of a rapidly changing climate, it has become imperative to quantify the emissions of greenhouse gases (GHGs) from emerging coal-based energy plants in India. The present work attempts not only to do this, with the intention of highlighting India’s commitment to reducing CO2 emissions, but also to redefine India’s future emissions. We draw attention to India’s attempt to transform the coal technology used in coal-based thermal power plants. We have tried to adopt a holistic approach to quantify the past (2010), present (2015) and future (2025) emission trends for important GHGs like CO2 and other critical air pollutants from rapidly penetrating low-emission advanced coal technology. Our estimation shows that CO2 emissions will increase from 1065 Tg yr-1 (2015) to 2634 Tg yr-1 (2025), which is approximately 147% of the current value. This rapid increase is largely attributed to rising energy demand due to industrial development, followed by demand from the domestic and agricultural sectors. The present trend of CO2 emissions is sure to propel India to become world’s second largest emitter of GHGs in 2025, dislodging the United States. We have also estimated the emission of other pollutants like NOx, SO2, black carbon, organic carbon, particulate matter (PM2.5, PM10), volatile organic compounds and CO. Our findings seem to suggest that India will able to cut CO2 emission from the traditionally dominant thermal power sector by at least 19% in 2025. Present attempts at emission reduction, along with the government’s massive initiatives towards building renewable energy infrastructure, could be well aligned to India’s Intended Nationally Determined Contribution submission to COP21 of the United Nations Framework Convention on Climate Change. With such a rapid expansion of energy production it can be assumed that cost-effective and uninterrupted power (i.e. 24/7) can be provided to all citizens of the country well before 2025. © 2017 IOP Publishing Ltd.}, note = {cited By 1}, keywords = {carbon dioxide; carbon emission; carbon monoxide; chemical pollutant; coal; emission control; energy budget; fossil fuel; greenhouse gas; hydrocarbon reserve; industrial development; power plant; thermal power; United Nations Framework Convention on Climate Change; volatile organic compound, Climate change, Coal technologies; Coal-based thermal power plants; GHGs; Indian power sectors; Industrial development; pollutants; Thermal power; United nations framework convention on climate changes, India; United States}, pubstate = {published}, tppubtype = {article} } It is well established that carbon dioxide (CO2) is the most prominent agent of climate change. The level of CO2 in the atmosphere has been increasing persistently over the last few decades due to rising dependence on fossil fuels for energy production. India is facing a potential energy crisis. India has large coal reserves and coal is currently the linchpin of the Indian power sector, making Indian coal-derived emissions a focus of global attention. Further, India’s journey from a challenging energy security situation to the ‘Make in India’ initiative is expected to drive energy needs exponentially. Thus, in the context of a rapidly changing climate, it has become imperative to quantify the emissions of greenhouse gases (GHGs) from emerging coal-based energy plants in India. The present work attempts not only to do this, with the intention of highlighting India’s commitment to reducing CO2 emissions, but also to redefine India’s future emissions. We draw attention to India’s attempt to transform the coal technology used in coal-based thermal power plants. We have tried to adopt a holistic approach to quantify the past (2010), present (2015) and future (2025) emission trends for important GHGs like CO2 and other critical air pollutants from rapidly penetrating low-emission advanced coal technology. Our estimation shows that CO2 emissions will increase from 1065 Tg yr-1 (2015) to 2634 Tg yr-1 (2025), which is approximately 147% of the current value. This rapid increase is largely attributed to rising energy demand due to industrial development, followed by demand from the domestic and agricultural sectors. The present trend of CO2 emissions is sure to propel India to become world’s second largest emitter of GHGs in 2025, dislodging the United States. We have also estimated the emission of other pollutants like NOx, SO2, black carbon, organic carbon, particulate matter (PM2.5, PM10), volatile organic compounds and CO. Our findings seem to suggest that India will able to cut CO2 emission from the traditionally dominant thermal power sector by at least 19% in 2025. Present attempts at emission reduction, along with the government’s massive initiatives towards building renewable energy infrastructure, could be well aligned to India’s Intended Nationally Determined Contribution submission to COP21 of the United Nations Framework Convention on Climate Change. With such a rapid expansion of energy production it can be assumed that cost-effective and uninterrupted power (i.e. 24/7) can be provided to all citizens of the country well before 2025. © 2017 IOP Publishing Ltd.
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