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Akhilesh Kumar Yadav
Department of Mining Engineering, Indian Institute of Technology (Banaras Hindu University), Varanasi 221 005, India

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Journal article
Published: 26 April 2021 in Applied Sciences
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Acid mine drainage (AMD) occurs naturally in abandoned coal mines, and it contains hazardous toxic elements in varying concentrations. In the present research, AMD samples collected from an abandoned mine were treated with fly ash samples from four thermal power plants in Singrauli Coalfield in the proximate area, at optimized concentrations. The AMD samples were analyzed for physicochemical parameters and metal content before and after fly ash treatment. Morphological, geochemical and mineralogical characterization of the fly ash was performed using SEM, XRF and XRD. This laboratory-scale investigation indicated that fly ash had appreciable neutralization potential, increasing AMD pH and decreasing elemental and sulfate concentrations. Therefore, fly ash may be effectively used for AMD neutralization, and its suitability for the management of coalfield AMD pits should be assessed further.

ACS Style

Saba Shirin; Aarif Jamal; Christina Emmanouil; Akhilesh Yadav. Assessment of Characteristics of Acid Mine Drainage Treated with Fly Ash. Applied Sciences 2021, 11, 3910 .

AMA Style

Saba Shirin, Aarif Jamal, Christina Emmanouil, Akhilesh Yadav. Assessment of Characteristics of Acid Mine Drainage Treated with Fly Ash. Applied Sciences. 2021; 11 (9):3910.

Chicago/Turabian Style

Saba Shirin; Aarif Jamal; Christina Emmanouil; Akhilesh Yadav. 2021. "Assessment of Characteristics of Acid Mine Drainage Treated with Fly Ash." Applied Sciences 11, no. 9: 3910.

Journal article
Published: 26 April 2021 in Environmental Challenges
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The acid mine water body has naturally occurred in the abandoned coal mine. An acid mine water body is the major problem of high sulfur coal mining areas that generate acidic water. The acidic mine water generated contains hazardous toxic elements in varying concentrations. Water samples have been collected from an abandoned mine (Gorbi). Flyash samples have been collected from the various thermal power plants of Singrauli Coalfield. The experiment has done at the laboratory scale. The water sample has been analyzed by analytical techniques, which are pH multiparameter equipment and ICP-ES. The Morphological, geochemical and mineralogical characterization of flyash has been done using available standard techniques SEM, XRF and XRD. The laboratory investigation of the pH value of flyash indicates this has appreciable neutralization potential and may effectively be used to neutralize acid water. This research has tried to develop a treatment method of acid mine water using flyash at a laboratory scale. This paper has suggested mitigation measures and how to control the pollutants so that the ecosystem of the area gets least disturbed by the associated mining activity. The purpose of studying is to assess their suitability for dumping in pit suffering from acid mine drainage.

ACS Style

Saba Shirin; Akhilesh Kumar Yadav. Assessment and suitability for the dumping of flyash in an abandoned mine. Environmental Challenges 2021, 4, 100111 .

AMA Style

Saba Shirin, Akhilesh Kumar Yadav. Assessment and suitability for the dumping of flyash in an abandoned mine. Environmental Challenges. 2021; 4 ():100111.

Chicago/Turabian Style

Saba Shirin; Akhilesh Kumar Yadav. 2021. "Assessment and suitability for the dumping of flyash in an abandoned mine." Environmental Challenges 4, no. : 100111.

Journal article
Published: 08 March 2021 in Environmental Challenges
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The study aimed to provide quantitative data on air pollution on people living in an industrial area of middle India. The twenty-four monitoring of nitrogen dioxide concentrations, sulfur dioxide, PM2.5 and PM10 was used to investigate people's exposure and health effects in the surrounding study area from January 2016 to December 2017. The particulate matter concentrations and associated elements in particulate matter were analyzed by gravimetric analysis and DBAAS, ICP-OES, Ion-Chromatography, Mercury analyzer, and CHNS analyzer. A risk level of metals in human health was occurring in the following decreasing order as Pb > Zn > Mn > Co > Cr > Ni > Hg > Cd > As, and risk level of metals in human health of carcinogenic and non-carcinogenic metals were observed to be lower than USEPA standard risk level of metals under acceptable level (10−6 year−1). The strongest association of metals areareare found for PM2.5 followed by PM10, with no indication of a threshold value for the health effects.

ACS Style

Akhilesh Kumar Yadav. Human health risk assessment in opencast coal mines and coal-fired thermal power plants surrounding area due to inhalation. Environmental Challenges 2021, 3, 100074 .

AMA Style

Akhilesh Kumar Yadav. Human health risk assessment in opencast coal mines and coal-fired thermal power plants surrounding area due to inhalation. Environmental Challenges. 2021; 3 ():100074.

Chicago/Turabian Style

Akhilesh Kumar Yadav. 2021. "Human health risk assessment in opencast coal mines and coal-fired thermal power plants surrounding area due to inhalation." Environmental Challenges 3, no. : 100074.

Article
Published: 06 October 2020 in Environmental Monitoring and Assessment
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In this study, the activities of 40K, 210Pb, 232Th, 234U, 235U, and 238U in size-segregated particulate matter (PM) were measured in the Singrauli Coalfield, India. Different isotopic compositions were found relative to natural uranium ratios. The radioactivity concentration ratios in different PM sizes [PM2.5, PM10, and suspended particulate matter (SPM)] suggested that anthropogenic sources affected the uranium isotopic compositions in the area. A different isotopic composition from the natural uranium composition was found. The correlation coefficients between the measured isotopes (40K, 210Pb, 232Th, 234U, 235U, and 238U) and meteorological factors were calculated. PM emissions were affected by the meteorological conditions, which in turn, influenced the U and Th concentrations in PM. The 232Th/238U activity ratio in particulate matter was between 0.20 and 1.54 with an average value of 0.9 ± 0.5, 0.2 to 1.1 (0.8 ± 0.7), and 0.2 to 1.2 with an average value of 0.8 ± 0.8 in PM2.5, PM10, and SPM, respectively. These range were quite different from the average crustal ratio of 3.5, indicating that the 238U concentrations were elevated in this region relative to Th. However, compared with Th, the dose contribution of U to the public was negligible. The average effective dose in public owing to inhalation of natural radioactive 40K, 210Pb, 232Th, and 234U, 235U, and 238U in the atmosphere was between 0.03 and 327 nSv year−1. These doses associated with the inhalation of particulate matter were lower than world airborne reference value as reported by UNSCEAR (2000a). Graphical abstract

ACS Style

Akhilesh Kumar Yadav; Philip Karl Hopke. Characterization of radionuclide activity concentrations and lifetime cancer risk due to particulate matter in the Singrauli Coalfield, India. Environmental Monitoring and Assessment 2020, 192, 1 -13.

AMA Style

Akhilesh Kumar Yadav, Philip Karl Hopke. Characterization of radionuclide activity concentrations and lifetime cancer risk due to particulate matter in the Singrauli Coalfield, India. Environmental Monitoring and Assessment. 2020; 192 (11):1-13.

Chicago/Turabian Style

Akhilesh Kumar Yadav; Philip Karl Hopke. 2020. "Characterization of radionuclide activity concentrations and lifetime cancer risk due to particulate matter in the Singrauli Coalfield, India." Environmental Monitoring and Assessment 192, no. 11: 1-13.

Journal article
Published: 01 January 2020 in Journal of Hazardous, Toxic, and Radioactive Waste
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This study was conducted at the Singrauli coal mine environment in Singrauli coalfield, India. The activity concentrations of thorium (Th232), uranium (U238), and potassium (K40) in rock samples were analyzed by gamma spectrometry using a p-type high-purity germanium (HPGe) detector with a carbon fiber window. From terrestrial radionuclide activity concentration, the ambient radiation gamma dose rate was calculated using UNSCEAR 2000 coefficients. The average activity concentrations Th232, U238, and K40 were 77.6±38.2, 122.6±46.1, and 843.5±26.0 Bq·kg−1, respectively. The average activity ratio of Th232/U238 in various types of rocks was 1.8±0.5 Bq·kg−1. The radium equivalent activity (Raeq) for various types of rock samples varied from 132.8.1±2.8 to 382.9±6.2 Bq·kg−1, with an average value of 317.7±6.53 Bq·kg−1. The absorbed average gamma dose rate was 145±44 nGy·h−1. The annual average effective equivalent dose was 0.29±0.09 mSv·y−1.

ACS Style

Akhilesh Kumar Yadav; Sunil Kumar Sahoo; Pradyumna Lenka; Aerattukkara Vinod Kumar; Raj Mangal Tripathi. Assessment of Radionuclide Concentration and Radiation Dose in Rock in Singrauli Coalfield, India. Journal of Hazardous, Toxic, and Radioactive Waste 2020, 24, 04019035 .

AMA Style

Akhilesh Kumar Yadav, Sunil Kumar Sahoo, Pradyumna Lenka, Aerattukkara Vinod Kumar, Raj Mangal Tripathi. Assessment of Radionuclide Concentration and Radiation Dose in Rock in Singrauli Coalfield, India. Journal of Hazardous, Toxic, and Radioactive Waste. 2020; 24 (1):04019035.

Chicago/Turabian Style

Akhilesh Kumar Yadav; Sunil Kumar Sahoo; Pradyumna Lenka; Aerattukkara Vinod Kumar; Raj Mangal Tripathi. 2020. "Assessment of Radionuclide Concentration and Radiation Dose in Rock in Singrauli Coalfield, India." Journal of Hazardous, Toxic, and Radioactive Waste 24, no. 1: 04019035.

Article
Published: 17 April 2019 in Air Quality, Atmosphere & Health
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In this study, trace element concentrations in PM10 and suspended particulate matter (SPM) have been investigated for their distribution, enrichment factor, and health impacts in Ganjam, Odisha. We investigated the presence of metals in air particulates to appraise the levels of the metals in the workplace of mine. The spatial variation of metals of toxicological around mining and residential areas were also studied. PM10 levels in mining and residential area were found to be in the range of 30–59 and 12–54 μg m−3, respectively, with an average value of 45 ± 12 and 32 ± 12 μg m−3, respectively, throughout the year and well within the prescribed NAAQS. SPM and PM10 concentrations were observed minimum in the rainy season because of precipitation and maximum in the winter season. The annual average concentration of Pb is higher in the SPM as compared to PM10 in the residential area and within 10% of the national ambient air quality standard of 500 ng m−3. Human health risk in the mining areas is 1.1 times higher than the risk for the nearby residential areas. Carcinogenic risk assessment illustrated that there is no potential danger to the populace in the investigation studied.

ACS Style

Akhilesh Kumar Yadav; Sunil Kumar Sahoo; Jay Singh Dubey; Aerattukkara Vinod Kumar; Govind Pandey; Raj Mangal Tripathi. Assessment of particulate matter, metals of toxicological concentration, and health risk around a mining area, Odisha, India. Air Quality, Atmosphere & Health 2019, 12, 775 -783.

AMA Style

Akhilesh Kumar Yadav, Sunil Kumar Sahoo, Jay Singh Dubey, Aerattukkara Vinod Kumar, Govind Pandey, Raj Mangal Tripathi. Assessment of particulate matter, metals of toxicological concentration, and health risk around a mining area, Odisha, India. Air Quality, Atmosphere & Health. 2019; 12 (7):775-783.

Chicago/Turabian Style

Akhilesh Kumar Yadav; Sunil Kumar Sahoo; Jay Singh Dubey; Aerattukkara Vinod Kumar; Govind Pandey; Raj Mangal Tripathi. 2019. "Assessment of particulate matter, metals of toxicological concentration, and health risk around a mining area, Odisha, India." Air Quality, Atmosphere & Health 12, no. 7: 775-783.

Research article
Published: 01 March 2019 in Environmental Quality Management
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The mining industry can be considered the backbone of the Indian economy as well as facilitating the power that drives most of the other industries in the company. The overburden and waste rocks produced during coal mining are major concerns in regard to the amount of land that is required for their disposal, as well as the stability of dumps for these materials, which are of increasing height. Land reclamation issues are also a concern. In this work the adverse impacts caused by the dumping of overburden on land and acidic mine water on water bodies is discussed. Remote sensing tools were used along with the laboratory experimentation to assess the various impacts. This study also shows that silt released from waste dumps, can affected the angle of repose of the overburden dump slope. The angle of repose of the overburden materials varies with particle size composition. Thus, use of in‐pit crushers in large opencast mining operations can effectively reduce the area locked under the waste dumps. The acid neutralization potential of fly ash and overburden for the treatment of acid water was tested in the laboratory by using fly ash and waste rock materials on acidic coalfield water. The results are encouraging, and fly ash may prove to be a good acid neutralizer when used in conjunction of coal overburden material.

ACS Style

Saba Shirin; Aarif Jamal; Pushkar Ranjan; Akhilesh Kumar Yadav. Study on assessment of slope stability and mixed disposal of overburden in voids of Singrauli Coalfield. Environmental Quality Management 2019, 28, 131 -139.

AMA Style

Saba Shirin, Aarif Jamal, Pushkar Ranjan, Akhilesh Kumar Yadav. Study on assessment of slope stability and mixed disposal of overburden in voids of Singrauli Coalfield. Environmental Quality Management. 2019; 28 (3):131-139.

Chicago/Turabian Style

Saba Shirin; Aarif Jamal; Pushkar Ranjan; Akhilesh Kumar Yadav. 2019. "Study on assessment of slope stability and mixed disposal of overburden in voids of Singrauli Coalfield." Environmental Quality Management 28, no. 3: 131-139.

Research article
Published: 14 December 2018 in Environmental Quality Management
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The development of effective strategies for the management and control of air pollution is a key environmental challenge that society faces today. The most visible impact of mining on the environment is on air quality. Mining activities continuously degrade the quality of air by contributing suspended particulate matter (SPM). The impact of mining on the environment and on the quality of air, in particular, influences not only the health of mining professionals, but the health of nearby populations. Furthermore, suspended solids in the form of particulate matter affect mining production and the condition of the mining machinery. SPM management in surface or opencast mines is an issue that must be monitored and controlled at every mine. The present study examines SPM pollution in mines and in areas surrounding various mining operations. It also discusses the management of particulate matter.

ACS Style

Akhilesh Kumar Yadav; Aarif Jamal. Suspended particulate matter and its management system surrounding opencast coal mines. Environmental Quality Management 2018, 1 .

AMA Style

Akhilesh Kumar Yadav, Aarif Jamal. Suspended particulate matter and its management system surrounding opencast coal mines. Environmental Quality Management. 2018; ():1.

Chicago/Turabian Style

Akhilesh Kumar Yadav; Aarif Jamal. 2018. "Suspended particulate matter and its management system surrounding opencast coal mines." Environmental Quality Management , no. : 1.

Research article
Published: 19 September 2018 in Environmental Quality Management
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In the structure of the systematic investigation of the environment of the Singrauli coal field of the Singrauli and Sonbhadra Districts, mining activities are among the primary pollutant‐producing sources of particulate matter. In this study, the age group found to receive the highest dose—and to be at highest risk for adverse health effects—was children at the age of 1 year. Furthermore, the inhalation dose and health risks are 1.4 times higher for actual mine workers when they are in the mine areas than for persons in non‐mining, areas. Furthermore, inhalation doses were observed to be higher in summer than in winter and the rainy season.

ACS Style

Akhilesh Kumar Yadav; Aarif Jamal. Impact of mining on human health in and around mines. Environmental Quality Management 2018, 28, 83 -87.

AMA Style

Akhilesh Kumar Yadav, Aarif Jamal. Impact of mining on human health in and around mines. Environmental Quality Management. 2018; 28 (1):83-87.

Chicago/Turabian Style

Akhilesh Kumar Yadav; Aarif Jamal. 2018. "Impact of mining on human health in and around mines." Environmental Quality Management 28, no. 1: 83-87.

Research article
Published: 01 June 2018 in Environmental Quality Management
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Particulate matter (PM) is one of the primary pollutants produced from mining operations. This paper summarizes the existing techniques used to identify sources of PM and their contribution to ambient air pollution. Human health studies indicate that there is an association between airborne PM and adverse health effects. Particularly in coal mining areas, the burning of coal and PM from machinery operations cause low air quality that is physically harmful. Thus, the sources of smoldering combustion, that are typical in coal mine burns, increase the risk to mine workers who are exposed to high concentrations of known toxicity associated with PM. Recent studies on the modeling of PM concentration profiles across various sources were reviewed for this paper.

ACS Style

Akhilesh Kumar Yadav; Aarif Jamal. Technological reviews of particulate matter and their source identification techniques. Environmental Quality Management 2018, 27, 87 -95.

AMA Style

Akhilesh Kumar Yadav, Aarif Jamal. Technological reviews of particulate matter and their source identification techniques. Environmental Quality Management. 2018; 27 (4):87-95.

Chicago/Turabian Style

Akhilesh Kumar Yadav; Aarif Jamal. 2018. "Technological reviews of particulate matter and their source identification techniques." Environmental Quality Management 27, no. 4: 87-95.

Review
Published: 01 March 2016 in Environmental Quality Management
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Compositional changes to air quality from coal mining are not only the most visible impact from these activities on the environment, they can also immediately affect the health of mine professionals and adjoining populations. The presence of gases and suspended solids emitted by mining activities affects the human respiratory system and decreases production in mines. This article summarizes a case study of several Northern Coalfields Limited (NCL) coal mines with an emphasis on particulate matter (PM) to report the status of air quality connected to coal production and overburden removal.The concentrations of sulfur dioxide (SO2), nitrogen oxides (NOx), and suspended particulate matter (SPM) reported in the literature are also summarized in table form to allow comparisons to the permissible standards set by the Indian Central Pollution Control Board (CPCB) and other standards used around the world. An up-to-date status of air quality at coal mines is compared for mines located in different parts of India. Subsequently, all coal mines were divided into different classes in regard to the severity of their emissions. These classes are, in increasing order of severity, green, yellow, red, and black. SPM measurements were tabulated in regard to concentration and composition. Our article concludes with the recommendation that an environmental impact assessment (EIA) to be conducted to better characterize changes in the environment from mining emissions to develop integrated mitigation measures and to identify additional parameters to define air quality at mines.

ACS Style

Akhilesh Kumar Yadav; Aarif Jamal. A Review on the Present Scenario of Air Quality Associated with Indian Mining Operations. Environmental Quality Management 2016, 25, 99 -105.

AMA Style

Akhilesh Kumar Yadav, Aarif Jamal. A Review on the Present Scenario of Air Quality Associated with Indian Mining Operations. Environmental Quality Management. 2016; 25 (3):99-105.

Chicago/Turabian Style

Akhilesh Kumar Yadav; Aarif Jamal. 2016. "A Review on the Present Scenario of Air Quality Associated with Indian Mining Operations." Environmental Quality Management 25, no. 3: 99-105.

Journal article
Published: 18 February 2016 in Toxicological & Environmental Chemistry
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The concentrations of suspended particulate matter in the air of the Orissa Sand Complex had an average value of 128 ± 10 µg m−3 in residential areas and 170 ± 8 µg m−3 in mining areas. PM10 levels in residential areas were found to have an average of 35 ± 10 µg m−3, in mining areas 45 ± 10 µg m−3. The distribution of some elements is also discussed here. Inhalation doses were observed to be higher in summer than in winter and the rainy season. The highest dose rate was for the age group of 1 year, and health risks were found to be highest for the same. For adults, inhalation dose and health risk are 1.3 times higher in mining than in residential areas.

ACS Style

Sunil Kumar Sahoo; Aerattukkara Vinod Kumar; Akhilesh Kumar Yadav; Raj Mangal Tripathi. Metal characterization of airborne particulate matters in a coastal region. Toxicological & Environmental Chemistry 2016, 1 -10.

AMA Style

Sunil Kumar Sahoo, Aerattukkara Vinod Kumar, Akhilesh Kumar Yadav, Raj Mangal Tripathi. Metal characterization of airborne particulate matters in a coastal region. Toxicological & Environmental Chemistry. 2016; ():1-10.

Chicago/Turabian Style

Sunil Kumar Sahoo; Aerattukkara Vinod Kumar; Akhilesh Kumar Yadav; Raj Mangal Tripathi. 2016. "Metal characterization of airborne particulate matters in a coastal region." Toxicological & Environmental Chemistry , no. : 1-10.

Journal article
Published: 01 July 2015 in Journal of Hazardous, Toxic, and Radioactive Waste
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ACS Style

Akhilesh Kumar Yadav. Elemental Composition and Source Apportionment of Suspended Particulate Matters and Health Risk Assessment in Mining and Nonmining Areas of Odisha, India. Journal of Hazardous, Toxic, and Radioactive Waste 2015, 19, 04014037 .

AMA Style

Akhilesh Kumar Yadav. Elemental Composition and Source Apportionment of Suspended Particulate Matters and Health Risk Assessment in Mining and Nonmining Areas of Odisha, India. Journal of Hazardous, Toxic, and Radioactive Waste. 2015; 19 (3):04014037.

Chicago/Turabian Style

Akhilesh Kumar Yadav. 2015. "Elemental Composition and Source Apportionment of Suspended Particulate Matters and Health Risk Assessment in Mining and Nonmining Areas of Odisha, India." Journal of Hazardous, Toxic, and Radioactive Waste 19, no. 3: 04014037.

Journal article
Published: 26 March 2015 in Environmental Quality Management
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ACS Style

Akhilesh Kumar Yadav; Sunil Kumar Sahoo; A. Vinod Kumar; Jay Singh Dubey; Pradyumna Lenka; D. Vidya Sagar; Raj Mangal Tripathi. Chemical Characterization and Variations of Particulate Matter in a Coastal Residential Area Proximate to a Beach Sand Mine in the Ganjam District of Odisha, India. Environmental Quality Management 2015, 24, 71 -91.

AMA Style

Akhilesh Kumar Yadav, Sunil Kumar Sahoo, A. Vinod Kumar, Jay Singh Dubey, Pradyumna Lenka, D. Vidya Sagar, Raj Mangal Tripathi. Chemical Characterization and Variations of Particulate Matter in a Coastal Residential Area Proximate to a Beach Sand Mine in the Ganjam District of Odisha, India. Environmental Quality Management. 2015; 24 (3):71-91.

Chicago/Turabian Style

Akhilesh Kumar Yadav; Sunil Kumar Sahoo; A. Vinod Kumar; Jay Singh Dubey; Pradyumna Lenka; D. Vidya Sagar; Raj Mangal Tripathi. 2015. "Chemical Characterization and Variations of Particulate Matter in a Coastal Residential Area Proximate to a Beach Sand Mine in the Ganjam District of Odisha, India." Environmental Quality Management 24, no. 3: 71-91.

Journal article
Published: 16 March 2014 in Toxicological & Environmental Chemistry
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ACS Style

Akhilesh Kumar Yadav; Sunil Kumar Sahoo; Aditi Chakrabarty Patra; Jay Singh Dubey; Pradyumna Lenka; D. Vidya Sagar; A. Vinod Kumar; R.M. Tripathi. Source identification of particulate matter and associated intake of elements through inhalation in an industrial area of Odisha, India. Toxicological & Environmental Chemistry 2014, 96, 410 -425.

AMA Style

Akhilesh Kumar Yadav, Sunil Kumar Sahoo, Aditi Chakrabarty Patra, Jay Singh Dubey, Pradyumna Lenka, D. Vidya Sagar, A. Vinod Kumar, R.M. Tripathi. Source identification of particulate matter and associated intake of elements through inhalation in an industrial area of Odisha, India. Toxicological & Environmental Chemistry. 2014; 96 (3):410-425.

Chicago/Turabian Style

Akhilesh Kumar Yadav; Sunil Kumar Sahoo; Aditi Chakrabarty Patra; Jay Singh Dubey; Pradyumna Lenka; D. Vidya Sagar; A. Vinod Kumar; R.M. Tripathi. 2014. "Source identification of particulate matter and associated intake of elements through inhalation in an industrial area of Odisha, India." Toxicological & Environmental Chemistry 96, no. 3: 410-425.

Journal article
Published: 07 February 2014 in Toxicological & Environmental Chemistry
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ACS Style

Akhilesh Kumar Yadav; Sunil Kumar Sahoo; Swagatika Mahapatra; Ajay Kumar; Govind Pandey; Pradyumna Lenka; R.M. Tripathi. Concentrations of uranium in drinking water and cumulative, age-dependent radiation doses in four districts of Uttar Pradesh, India. Toxicological & Environmental Chemistry 2014, 96, 192 -200.

AMA Style

Akhilesh Kumar Yadav, Sunil Kumar Sahoo, Swagatika Mahapatra, Ajay Kumar, Govind Pandey, Pradyumna Lenka, R.M. Tripathi. Concentrations of uranium in drinking water and cumulative, age-dependent radiation doses in four districts of Uttar Pradesh, India. Toxicological & Environmental Chemistry. 2014; 96 (2):192-200.

Chicago/Turabian Style

Akhilesh Kumar Yadav; Sunil Kumar Sahoo; Swagatika Mahapatra; Ajay Kumar; Govind Pandey; Pradyumna Lenka; R.M. Tripathi. 2014. "Concentrations of uranium in drinking water and cumulative, age-dependent radiation doses in four districts of Uttar Pradesh, India." Toxicological & Environmental Chemistry 96, no. 2: 192-200.