Abstract
Coal could be utilized as an important source of energy because it contain an ample amount of organic matter favoring suitability for hydrocarbon generation and industrial utilization. Indian coal deposits are associated with two stratigraphic horizons: Gondwana coal of the Permian age and Tertiary coal and lignites of the Paleogene age.
The Permian coal has high demand in India due to its grade, for industrial utilization and power generation, resulting in the shortage of reserves with a hike in price. Therefore, people are orientated to Tertiary coal and lignite deposits for their optimum utilization.
The significant lignite deposits of India occur in the states Tamil Nadu, Gujarat, Rajasthan, Jammu & Kashmir, and Kerala. Besides the lignite horizons, coal-bearing horizon seams also occur in Tertiary sediments. The known coal deposits of the Tertiary age occur in the northern and north-eastern parts of India. In the northern region, Tertiary coal deposits occur in the state of Jammu & Kashmir. Whereas, in the north-eastern part, Tertiary coal deposits are located in Meghalaya, Assam, Arunachal Pradesh, and Nagaland.
The objective of this review is to provide brief information about the contribution of Indian coal petrologists on various Tertiary coal deposits for their source rock potential.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Anandan, K.S., Sahay, S.N. and Karthikeyan, S. (2010) Delineation of recharge area and artificial recharge studies in the Neyveli hydrogeological basin. Mine. Water Environ., v.29(1), pp.14–22.
Bannerjee, M., Mendhe, V.A., Kamble, A.D., Varma, A.K., Singh, B.D. and Kumar, S. (2022). Facets of coalbed methane reservoir in East Bokaro Basin, India. Jour. Pet. Sci. Eng., v.208, pp.109255.
Basu, T.N. (1967) Petrographic characteristics and their bearing on the origin and correlation of Indian coals. Jour. Mines Met. Fuels, v.15, pp.177–187.
Biswas, S., Varma, A.K., Kumar, M., Mani, D., Saxena, V.K. and Mishra, V. (2020) Influence of geochemical, organo-petrographical and palynofacies assemblages on hydrocarbon generation: A study from upper Oligocene coal and shale of the Makum Coal Basin, Assam, India. Mar. Petrol. Geol., v.114, pp.104206.
Boral, P., Varma, A.K. and Maity, S. (2021) Nitration of Jharia Basin Coals, India: a study of structural modifications by XRD and FTIR Techniques. Int. Jour. Coal Sci. Tech., v.8(5), pp.1–20.
Calder, J.H., Gibling, M.R. and Mukhopadhyay, P.K. (1991) Peat formation in a westphalian B piedmont setting, cumberland basin, Nova Scotia: Implications for the maceral-based interpretation of rheotrophic and raised paleomires. Contribution series No. 91–002.
Chakraborty, D., Singh, A.K. and Banerjee, P.K. (2008) Floatability characteristics: A case study with three typical Indian prime coking coals. Miner. Process. Extr. Metall. Rev., v.29(4), pp.299–317.
Chandra, D. (1953) Origin of some lenticles of fusain in the Barakar Sandstone of Kurasia Coalfield. Quart. Jour. Geol. Min. Metall. Soc. India, v.25, pp.123.
Chandra, D. (1954) Sclerotia in Indian Coals. Quart. Jour. Geol. Min. Metall. Soc. India, v.26(1), pp.47–48.
Chandra, D., 1958. Microfossils of lignites of India and Pakistan. Jour. Palaeontol. Soc. India, v.3, pp.211–213.
Chandra, D. (1965) Reflectance of Indian Coals. Quart. Jour. Geol. Min. Metall. Soc. India, v.37(1), pp.37–38.
Chaudhari, S.G. and Ghose, S. (1978) Coal petrography- A guide to the preparation of coals for metallurgical use. Metals & Minerals Rev., v.17(8), pp.278–287.
Das, P.R., Mendhe, V.A., Kamble, A.D., Sharma, P., Shukla, P. and Varma, A.K. (2022) Petrographic and Geochemical Controls on Methane Genesis, Pore Fractal Attributes, and Sorption of Lower Gondwana Coal of Jharia Basin, India. ACS omega, v.7(1), pp.299–324.
Diessel, C.F.K. (1986) On the correlation between coal facies and depositional environments. In: Proceeding 20th Symposium of Department Geology, University of New Castle, New South Wales, pp.19–22.
Dutta, A.K., Chaudhuri, S.G. and Lahiri, K.C. (1974) Application of coal petrography of metallurgical coke. Jour. Mines Met. Fuels, v.22(9), pp.260–270.
Dutta, S., Mathews, R.P., Singh, B.D., Tripathi, S.M., Singh, A., Saraswati, P.K., Banerjee, S. and Mann, U. (2011) Petrology, palynology and organic geochemistry of Eocene lignite of Matanomadh, Kutch Basin, western India: Implications to depositional environment and hydrocarbon source potential. Int. Jour. Coal Geol., v.85(1), pp.91–102.
Fox, C.S. (1926) The Crystalline Nature of the Chief Constituent of Ordinary Coal. Nature, v.118(2982), pp.913–913.
Gabzdyl, W. and Varma, A.K. (1992) Mean reflectance of vitroplast: a significant characteristic of hydrogenation residues. Fuel, v.71(4), pp.476–479.
Gabzdyl, W. and Varma, A.K. (1993) Thermogravimetric studies in prediction of coal behaviour during coal liquefaction. Jour. Thermal Analysis, (United Kingdom), v.39(1), pp.31–40.
Ghosh, S., Golding, S.D., Varma, A.K. and Baublys, K.A. (2018) Stable isotopic composition of coal bed gas and associated formation water samples from Raniganj Basin, West Bengal, India. Int. Jour. Coal Geol., v.191, pp.1–6.
Gowrisankaran, S., Sethi, P.P., Hariharan, R. and Agarwal, K.P. (1987) Lignite deposits of India-their occurrences, depositional features and characteristics. Proc. Nat. Sem. Coal Res. India, Varanasi, pp.481–553.
Hutton, A.C. (1995) Organic Petrography: Principles and Techniques. In: Composition, Geochemistry and Conversion of Oil Shales, Springer, Dordrecht, pp.1–16.
Kalkreuth, W.D., Marchioni, D.L., Calder, J.H., Lamberson, M.N., Naylor, R.D. and Paul, J. (1991) The relationship between coal petrography and depositional environments from selected coal basins in Canada. Int. Jour. Coal Geol., v.19(1–4), pp.21–76.
Kumar, J., Mendhe, V.A., Kamble, A.D., Bannerjee, M., Mishra, S., Singh, B.D., Mishra, V.K., Singh, P.K. and Singh, H. (2018) Coalbed methane reservoir characteristics of coal seams of south Karanpura coalfield, Jharkhand, India. Int. Jour. Coal Geol., v.196, pp.185–200.
Kumar, A., Singh, A.K., Paul, D. and Kumar, A. (2020) Evaluation of hydrocarbon potential with insight into climate and environment present during deposition of the Sonari lignite, Barmer Basin Rajasthan. Energy and Climate Change, v.1, pp.100006.
Kumar, D., Ghosh, S., Tiwari, B., Varma, A.K., Mathews, R.P. and Chetia, R. (2021) Palaeocene-Eocene organic sedimentary archives of Bikaner-Nagaur Basin, Rajasthan, India: An integrated revelation from biogeochemical and elemental proxies. Int. Jour. Coal Geol., v.247, pp.103848.
Kumar, A., Singh, A.K., Paul, D. and Kumar, A. (2021a) Paleoenvironmental, paleovegetational, and paleoclimatic changes during Paleogene lignite formation in Rajasthan, India. Arab. Jour. Geosci., v.14(22), pp.1–15.
Kumar, A., Nath, M. and Singh, A.K. (2021b) Source Rock Characterization for Hydrocarbon Generative Potential and Thermal Maturity of Sutunga Coals, (East Jaintia Hill) Meghalaya, India: Petrographic and Geochemical Approach. Jour. Geol. Soc. India, v.97(6), pp.643–648.
Lahiri, A. (1951) Metamorphism of Coal. Econ. Geol., v.46, pp.252–266.
Lahiri, K.C., Basu, T.N. (1952) Refractive indices of vitrain as an idea of rank of coal. Jour. Sci. Indian Res., v.11(B), pp.486–490.
Lahiri, K.C., Bhattacharya, R.R. (1961) Petrographic studies of some Indian coals, Pt. I Petrographic techniques for the examination of Indian Coals. Jour. Mines Met. Fuels, v.9(9), pp.1–3 & 18.
Lomax, J. (1911) The microscopical examination of coal and its use in determining the inflammable constituent present therein. Trans. Inst. Min. Eng., v.42, pp.1–21.
Mallick, M., Dutta, S., Singh, B.D., Bhattacharya, S. and Singh, A. (2021) Petrographic and Organic Geochemical Characterizations of Early Eocene Lignites, Cambay Basin, Western India. In: Macromolecular Characterization of Hydrocarbons for Sustainable Future, Springer, Singapore, pp.143–171.
Mathews, R.P. and Singh, B.D. (2016) Characterization of solid bitumen from Panandhro lignite (western India) based on FTIR and Pyrolysis GC-MS study. Curr. Sci., v.111(11), pp.1842–1846.
Mathews, R.P., Singh, B.D., Singh, H., Singh, V.P. and Singh, A. (2018a) Characterization of Panandhro Lignite Deposits (Kachchh Basin), western India: Results from the Bulk Geochemical and Palynofloral Compositions. Jour. Geol. Soc. India, v.91(3), pp.281–289.
Mathews, R.P., Singh, B.D. and Singh, V.P. (2018b) Evaluation of organic matter, hydrocarbon source, and depositional environment of onshore Warkalli sedimentary sequence from Kerala-Konkan Basin, south India. Jour. Geol. Soc. India, v.92(4), pp.407–418.
Mathews, R.P., Singh, B.D., Singh, V.P., Singh, A., Singh, H., Shivanna, M., Dutta, S., Mendhe, V.A. and Chetia, R. (2020) Organo-petrographic and geochemical characteristics of Gurha lignite deposits, Rajasthan, India: Insights into the palaeovegetation, palaeoenvironment and hydrocarbon source rock potential. Geosci. Front., v.11(3), pp.965–988.
Misra, B.K. (1991) Genesis of Indian Tertiary coals and lignites: a biopetrological and palaeobotanical view point. Palaeobotanist, v.40, pp.490–513.
Misra, B.K. (1992) Optical properties of some Tertiary coals from northeastern India: their depositional environment and hydrocarbon potential. Int. Jour. Coal Geol., v.20(1–2), pp.115–144.
Misra, S., Varma, A.K., Hazra, B., Biswas, S. and Samad, S.K. (2019) The influence of the thermal aureole asymmetry on hydrocarbon generative potential of coal beds: Insights from Raniganj Basin, West Bengal, India. Int. Jour. Coal Geol., v.206, pp.91–105.
Misra, S., Das, S.K., Varma, A.K., Mani, D., Kalpana, M.S., Ekblad, A. and Biswas, S. (2020) Multi-proxy approach on the hydrocarbon generation perspective of Barjora Basin, India. Mar. Petrol. Geol., v.112, pp.104108.
Mukherjee, B.C. (1952) Study of reflecting power of different petrological components of coal samples from New Gobindpur Colliery, Jharia Coalfied, as determined by Seyler’s method. Science & Culture, v.17(9), pp.393–395.
Mukherjee, B.C. (1953) Microscopic study of coal and its application to Industry. Eastern Metals Rev., v.6, pp.43.
Mukherjee, B.C. (1955) Petrological character of coal and their significance to Industry. Indian Mining Jour., v.111(9), pp.8–9.
Mukherjee, B.C. (1962) A note on the petrological characters and their significance of coal from Umaria, Madhya Pradesh. Proceeding 49th Indian Science Congress.
Mukherjee, B.C. (1969) Petrological studies of coals from East Bokaro Coalfield, Bihar. Jour. Geol. Soc. India, v.10(1), pp.56–63.
Mukherjee, B.C. (1976) Petrographic characters of coals from Makum Coalfield, Assam. Jour. Geol. Soc. India, v.17(1), pp.89–93.
Nath, M., Kumar, A. and Singh, A.K. (2022) Assessment of hydrocarbon generative potential of Late Paleocene coals from East Khasi Hills, Meghalaya, North-East India. Petrol. Sci. Tech., v.40(18), pp.2238–2250.
Navale, G.K.B. (1961) Pollen and spore from Neyveli Lignite, South India. Palaeobotanist, v.10(1–2), pp.87–90.
Navale, G.K.B. (1981) Petrographic evaluation of Indian coals. Proceeding in International Congress of Coal Science Essen, pp.44–50.
Navale, G.K.B. and Mishra, B.K. (1985) Significance of vitrinite and inertinite in the lower Gondwana coals of Peninsular India. Geophytology, v.15(1), pp.39–44.
Navale, G.K.B., Mishra, B.K. and Prakash, A. (1983) The microconstituents of Godavari coals, South India. Int. Jour. Coal Geol., v.3(1), pp.31–61.
Pareek, H.S. (1958) The techniques of preparation of coal for microscopic study. Indian Mining Jour., v.6(12), pp.1–12.
Pareek, H.S. (1963) Petrology of Talcher Coals. Econ. Geol., v.58(7), pp.1089–1109.
Pareek, H.S. (1964) Petrological nature of fusinised resins in the Gondwana (Permian) Coals of India. Curr. Sci., v.33(23), pp.715–716.
Pareek, H.S. (1966) Fusinized resins in Gondwana coals. Econ. Geol., v.61, pp.137–146.
Pareek, H.S. (1969) Petrological study of coal from Singrauli Coalfield, M.P. Rec. Geol. Surv. India, v.97(2), pp.87–90.
Pareek, H.S. (1970) A note on the microscopic study of Nichahom Lignite, Kashmir. Jour. Mines Met. Fuels, v.18(3), pp.103–104.
Pareek, H.S. (1977) Coal, its formation and composition. Indian Minerals., v.31(1), pp.6–19.
Pareek, H.S. (1981) Basin configuration and sedimentary stratigraphy of Western Rajasthan. Jour. Geol. Soc. India, v.22, pp.17–527.
Pareek, H.S. (1984) Pre-Quaternary geology and mineral resources of Northwestern Rajasthan. Mem. Geol. Surv. India, v.115, pp.1–96.
Pareek, H.S. (1986) The role of coal petrography characteristics in evaluating the non-coking nature of the coals of Ramagundam and Kothagudem Coalfields, Godavari Valley basin, Andhra Pradesh, India. Int. Jour. Coal Geol., v.6(2), pp.181–198.
Pareek, H.S. (1988) Petrographic characteristics of the solid fuels of India with particular reference to the coking coals. Int. Jour. Coal Geol., v.10, pp.285–307.
Pareek, H.S. (1990) Petrography and rank of the Bhangtar Coals, southeastern Bhutan. Int. Jour. Coal Geol., v.15, pp.219–243.
Pareek, H.S. (2004) Progress of coal Petrology in India. Mem. Geol. Soc. India, no.57, pp.161
Pareek, H.S. and Pandey, B.C. (1971) On the microscopic nature of coals from Majiri area, Wardha Valley Coalfield, Maharashtra. Palaeobotanist, v.19(1), pp.76–82.
Paul, S. and Dutta, S. (2015) Biomarker signatures of Early Cretaceous coals of Kutch Basin, western India. Curr. Sci., v.108(2), pp.211–217.
Paul, S., Sharma, J., Singh, B.D., Saraswati, P.K. and Dutta, S. (2015) Early Eocene equatorial vegetation and depositional environment: Biomarker and palynological evidences from a lignite-bearing sequence of Cambay Basin, western India. Int. Jour. Coal Geol., v.149, pp.77–92.
Prachiti, P.K., Manikyamba, C., Singh, P.K., Balaram, V., Lakshminarayana, G., Raju, K., Singh, M.P., Kalpana, M.S. and Arora, M. (2011) Geochemical systematics and precious metal content of the sedimentary horizons of Lower Gondwanas from the Sattupalli coal field, Godavari Valley, India. Int. Jour. Coal Geol., v.88(2–3), pp.83–100.
Püttmann, W., Sun, Y.Z. and Kalkreuth, W. (1994) Variation of petrological and geochemical compositions in a sequence of humic coals, cannel coals, and oil shales. Energy & fuels, v.8(6), pp.1460–1468.
Raja Rao, C.S. (1981) Coalfields of India (vol. I). Coalfields of North Eastern India, Bull. Geol. Surv. India, Series A, 45, pp.1–76.
Raja Rao, C.S. (1983) Coalfields of India (vol III). Coal resources of Madhya Pradesh, Jammu & Kashmir. Bull. Geol. Surv. India, Series A, v.45, pp.75–80.
Rajak, P.K., Singh, V.K., Kumar, A., Singh, V., Rai, A., Rai, S., Singh, K.N., Sharma, M., Naik, A.S., Mathur, N. and Singh, P.K. (2021) Study of Hydrocarbon Source Potential of Kapurdi Lignites of Barmer Basin, Rajasthan, Western India. Jour. Geol. Soc. India, v.97(8), pp.836–842.
Raju, S.V. and Mathur, N. (2013) Rajasthan lignite as a source of unconventional oil. Curr. Sci., v.104(6), pp.752–757.
Samad, S.K., Mishra, D.K., Mathews, R.P., Ghosh, S., Mendhe, V.A. and Varma, A.K. (2020) Geochemical attributes for source rock and palaeoclimatic reconstruction of the Auranga Basin, India. Jour. Pet. Sci. Eng., v.185, pp.106665.
Sen, S. and Sen, M. (1970) Petrographic classification of Indian coals. Quart. Jour. Geol. Min. Metall. Soc. India, v.42(2), pp.97–100.
Sen, M. and Sen, S. (1981) A study on the petrographic nature of coals of dishergarh seam, Raniganj Coalfield. Metals and Minerals Rev., v.22(12), pp.287–292.
Senftle, J.T., Landis, C.R. and McLaughlin, R.L. (1993) Organic petrographic approach to kerogen characterization. In: Organic geochemistry, Springer, Boston, MA, pp.355–374.
Singh, P.K. (2012) Petrological and geochemical considerations to predict oil potential of Rajpardi and Vastan lignite deposits of Gujarat, Western India. Jour. Geol. Soc. India, v.80(6), pp.759–770.
Singh, A.K. (2015) Petrological investigation of Eocene coals, Garo Hills, Meghalaya, India. Arab. Jour. Geosci., 8(12), pp.10705–10714.
Singh, A.K. (2016) Petrographic and geochemical characterization of coal from Talcher coalfield, Mahanadi Basin, India. Jour. Geol. Soc. India, v.87(5), pp.525–534.
Singh, A.K. (2016a) Petrographic characterization and evolution of the Karharbari coals, Talcher Coalfield, Orissa, India. Int. Jour. Coal Sci. Technol., v.3(2), pp.133–147.
Singh, A.K. (2018) Classification and potential utilization of eocene coals of Meghalaya, north east India. Jour. Geol. Soc. India, v.91(2), pp.181–187.
Singh, A.K. and Banerjee, P.K. (2006) Liberation study of mineral matter from the coal: A case study of seam no. VII of west Bokaro coalfield, Jharkhand, India. Mineral Process. Tech., pp.573–581.
Singh, A.K. and Kumar, A. (2017a) Petro-chemical characterisation and depositional paleoenvironment of lignite deposits of Nagaur, Western Rajasthan, India. Environ. Earth Sci., v.76(20), pp.1–18.
Singh, A.K. and Kumar, A. (2017b) Liquefaction behavior of Eocene lignites of Nagaur Basin, Rajasthan, India: A petrochemical approach. Energy Sources A: Recovery Util. Environ. Eff., v.39(15), pp.1686–1693.
Singh, A.K. and Kumar, A. (2018a) Organic geochemical characteristics of Nagaur lignites, Rajasthan, India, and their implication on thermal maturity and paleoenvironment. Energy Sources A: Recovery Util. Environ. Eff., v.40(15), pp.1842–1851.
Singh, A.K. and Kumar, A. (2018b) Petrographic and geochemical study of Gurha Lignites, Bikaner Basin, Rajasthan, India: Implications for thermal maturity, hydrocarbon generation potential and paleodepositional environment. Jour. Geol. Soc. India, v.92(1), pp.27–35.
Singh, A.K. and Kumar, A. (2020) Assessment of thermal maturity, source rock potential and paleodepositional environment of the paleogene lignites in Barsingsar, Bikaner—Nagaur Basin, Western Rajasthan, India. Nat. Resour. Res., v.29(2), pp.1283–1305.
Singh, M.P. and Singh, P.K. (1994) Indications of Hydrocarbon Generation in the Coal Deposits of the Rajmahal Basin, Bihar: Revelations of Flourescence Microscopy. Jour. Geol. Soc. India, v.43(6), pp.647–658.
Singh, M.P. and Singh, G.P. (1995) Petrological evolution of the Paleogene coal deposits of Jammu, Jammu and Kashmir, India. Int. Jour. Coal Geol., v.27(2–4), pp.171–199.
Singh, M.P. and Singh, P.K. (1995a) Mineral matter in the Rajmahal coals: Study through incident light microscopy and scanning electron micrography. Jour. Geol. Soc. India, v.46, pp.557–564.
Singh, M.P. and Singh, P.K. (1996) Petrographic characterization and evolution of the Permian coal deposits of the Rajmahal basin, Bihar, India. Int. Jour. Coal Geol., v.29(1–3), pp.93–118.
Singh, M.P. and Singh, P.K. (1998) Organic maturation study of Permian coal seams, Rajmahal basin, Bihar. Jour. Geol. Soc. India, v.51(3), pp.279–294.
Singh, M.P. and Singh, A.K. (2000) Petrographic characteristics and depositional conditions of Eocene coals of platform basins, Meghalaya, India. Int. Jour. Coal Geol., v.42(4), pp.315–356.
Singh, M.P. and Singh, A.K. (2001) Source rock characteristics and maturation of Palaeogene coals, Northeast India. Jour. Geol. Soc. India, v.57(4), pp.353–368.
Singh, M.P. and Singh, A.K. (2003) Hydrocarbon Emigration through Microfracturing in Vitrinite: Am Example from the Oligocene Coals of Borjan Coalfield, Nagaland. Jour. Geol. Soc. India, v.61(2), pp.170–176.
Singh, M.P. and Singh, A.K. (2006) Morphology, maceral association and distribution of pyrite in the Tertiary coals of northeast India: a proposal for the classification of high sulphur coals. Jour. Geol. Soc. India, v.67(6), pp.783–802.
Singh, M.P. and Shukla, R.R. (2004) Petrographic characteristics and depositional conditions of Permian coals of Pench, Kanhan, and Tawa Valley Coalfields of Satpura Basin, Madhya Pradesh, India. Int. Jour. Coal Geol., v.59(3–4), pp.209–243.
Singh, A., Misra, B.K., Singh, B.D. and Navale, G.K.B. (1992) The Neyveli lignite deposits (Cauvery basin), India: organic composition, age and depositional pattern. Int. Jour. Coal Geol., v.21(1–2), pp.45–97.
Singh, M.P., Singh, P.K. and Singh, A.K. (2003) Petrography and depositional environments of the Permian coal deposits of Deoghar Basin, Bihar. Jour. Geol. Soc. India, v.61(4), pp.419–438.
Singh, A.K., Singh, M.P., Sharma, M. and Srivastava, S.K. (2007) Microstructures and microtextures of natural cokes: a case study of heat-affected coking coals from the Jharia coalfield, India. Int. Jour. Coal Geol., v.71(2–3), pp.153–175.
Singh, P.K., Singh, M.P. and Singh, A.K. (2010) Petro-chemical characterization and evolution of Vastan Lignite, Gujarat, India. Int. Jour. Coal Geol., v.82(1–2), pp.1–16.
Singh, P.K., Singh, M.P., Prachiti, P.K., Kalpana, M.S., Manikyamba, C., Lakshminarayana, G., Singh, A.K. and Naik, A.S. (2012) Petrographic characteristics and carbon isotopic composition of Permian coal: Implications on depositional environment of Sattupalli coalfield, Godavari Valley, India. Int. Jour. Coal Geol., v.90, pp.34–42.
Singh, P.K., Singh, M.P., Singh, A.K., Naik, A.S., Singh, V.K., Singh, V.K. and Rajak, P.K. (2012a) Petrological and geochemical investigations of Rajpardi lignite deposit, Gujarat, India. Energy Explor. Exploit., v.30(1), pp.131–151.
Singh, P.K., Singh, M.P., Singh, A.K. and Naik, A.S. (2012b) Petrographic and geochemical characterization of coals from Tiru valley, Nagaland, NE India. Energy Explor. Exploit., v.30(2), pp.171–191.
Singh, P.K., Singh, A.L., Kumar, A. and Singh, M.P. (2012c) Mixed bacterial consortium as an emerging tool to remove hazardous trace metals from coal. Fuel, v.102, pp.227–230.
Singh, A., Thakur, O.P. and Singh, B.D. (2012d) Petrographic and depositional characteristics of Tadkeshwar lignite deposits (Cambay Basin), Gujarat. Jour. Geol. Soc. India, v.80(3), pp.329–340.
Singh, A.K., Singh, M.P. and Singh, P.K. (2013) Petrological investigations of Oligocene coals from foreland basin of northeast India. Energy Explor. Exploit., v.31(6), pp.909–936.
Singh, A., Mahesh, S., Singh, H., Tripathi, S.K. and Singh, B.D. (2013a) Characterization of Mangrol lignite (Gujarat), India: petrography, palynology, and palynofacies. Int. Jour. Coal Geol., v.120, pp.82–94.
Singh, P.K., Singh, A.L., Kumar, A. and Singh, M.P. (2014) Petrographic considerations in demineralization of coal with bacteria: A new dimension in understanding the clean coal technology. Energy Explor. Exploit., v.32(4), pp.709–718.
Singh, A.L., Singh, P.K., Kumar, A., Yadav, A. and Singh, M.P. (2014a) Experimental study on demineralization of coal with pseudomonas mendocina strain B6—1 bacteria to obtain clean fuel. Energy Explor. Exploit., v.32(5), pp.831–846.
Singh, A.L., Singh, P.K., Kumar, A. and Singh, M.P. (2015) Demineralization of Rajmahal Gondwana coals by bacteria: Revelations from X-ray diffraction (XRD) and Fourier Transform Infra-Red (FTIR) studies. Energy Explor. Exploit., v.33(5), pp.755–767.
Singh, A.K., Singh, P.K., Singh, M.P. and Banerjee, P.K. (2015a) Utilization of the permian coal deposits of West Bokaro, India: A petrochemical evaluation. Energy Sources A: Recovery Util. Environ. Eff., v.37(10), pp.1081–1088.
Singh, P.K., Singh, V.K., Rajak, P.K., Singh, M.P., Naik, A.S., Raju, S.V. and Mohanty, D. (2016) Eocene lignites from Cambay basin, Western India: An excellent source of hydrocarbon. Geosci. Front., v.7(5), pp.811–819.
Singh, P.K., Rajak, P.K., Singh, M.P., Singh, V.K., Naik, A.S. and Singh, A.K. (2016a) Peat swamps at Giral lignite field of Barmer basin, Rajasthan, Western India: understanding the evolution through petrological modelling. Int. Jour. Coal Sci. Technol., v.3(2), pp.148–164.
Singh, P.K., Singh, A.L., Singh, M.P., Naik, A.S., Singh, D., Rai, S. and Kumar, A. (2016b) Demineralization of Gondwana coal with Pseudomonas mendocina strain B6-1: a case study of coal from Gopinathpur top and bottom seams of Mugma mine, Dhanbad, Jharkhand (India). Int. Jour. Coal Sci. Technol., v.3(2), pp.235–245.
Singh, P.K., Rajak, P.K., Singh, V.K., Singh, M.P., Naik, A.S. and Raju, S.V. (2016c) Studies on thermal maturity and hydrocarbon potential of lignites of Bikaner—Nagaur basin, Rajasthan. Energy Explor. Exploit., v.34(1), pp.140–157.
Singh, P.K., Singh, V.K., Singh, M.P. and Rajak, P.K. (2017) Paleomires of eocene lignites of Bhavnagar, Saurashtra basin (Gujarat), western India: petrographic implications. Jour. Geol. Soc. India, v.90(1), pp.9–19.
Singh, V.P., Singh, B.D., Mathews, R.P., Singh, A., Mendhe, V.A., Singh, P.K., Mishra, S., Dutta, S., Shivanna, M. and Singh, M.P. (2017a) Investigation on the lignite deposits of Surkha mine (Saurashtra Basin, Gujarat), western India: Their depositional history and hydrocarbon generation potential. Int. Jour. Coal Geol., v.183, pp.78–99.
Singh, V.P., Singh, B.D., Singh, A., Singh, M.P., Mathews, R.P., Dutta, S., Mendhe, V.A., Mahesh, S. and Mishra, S. (2017b) Depositional palaeoenvironment and economic potential of Khadsaliya lignite deposits (Saurashtra Basin), western India: based on petrographic, palynofacies and geochemical characteristics. Int. Jour. Coal Geol., v.171, pp.223–242.
Singh, A., Shivanna, M., Mathews, R.P., Singh, B.D., Singh, H., Singh, V.P. and Dutta, S. (2017c) Paleoenvironment of Eocene lignite bearing succession from Bikaner-Nagaur Basin, western India: organic petrography, palynology, palynofacies and geochemistry. Int. Jour. Coal Geol., v.181, pp.87–102.
Singh, A.K., Kumar, A., Singh, P.K., Singh, A.L. and Kumar, A. (2018) Bacterial desulphurization of low-rank coal: A case study of Eocene Lignite of Western Rajasthan, India. Energy Sources A: Recovery Util. Environ. Eff., v.40(10), pp.1199–1208.
Singh, A.K., Kumar, A. and Hakimi, M.H. (2018a) Organic geochemical and petrographical characteristics of the Nagaur lignites, Western Rajasthan, India and their relevance to liquid hydrocarbon generation. Arab. Jour. Geosci., v.11(15), pp.1–15.
Singh, A.K., Hakimi, M.H., Kumar, A., Ahmed, A., Abidin, N.S.Z., Kinawy, M., El Mahdy, O. and Lashin, A. (2020) Geochemical and organic petrographic characteristics of high bituminous shales from Gurha mine in Rajasthan, NW India. Sci. Rep., v.10(1), pp.1–19.
Singh, V.P., Singh, B.D., Mathews, R.P., Mendhe, V.A., Agnihotri, P., Mishra, S., Radhwani, M., Dutta, S., Subramanian, K.A., Singh, A. and Singh, H. (2021) Petrographical-geochemical characteristics and floral-faunal compositions of the Valia lignite deposits from Cambay Basin (Gujarat), western India. Int. Jour. Coal Geol., v.248, pp.103866.
Singh, A.K., Kumar, A. and Tripathi, J.K. (2021a) Mineralogical characteristics of low-rank coal from Nagaur, Rajasthan, India and their implication for the environment of paleomire. Energy Sources A: Recovery Util. Environ. Eff., v.43(8), pp.893–904.
Suárez-Ruiz, I. and Crelling, J.C. eds. (2008) Applied coal petrology: the role of petrology in coal utilization. Academic press.
Suárez-Ruiz, I. and Mendonça Filho, J.G. (Eds.) (2017) The Role of Organic Petrology in the Exploration of Conventional and Unconventional Hydrocarbon Systems (Vol. 1). Bentham Science Publishers.
Taylor, G.H., Teichmüller, M., Davis, A.C.F.K., Diessel, C.F.K., Littke, R. and Robert, P. (1998) Organic petrology. Gebrüder Borntraeger, Berlin, pp. 704.
Thakur, O.P., Singh, A. and Singh, B.D. (2010) Petrographic characterization of Khadsaliya lignites, Bhavnagar district, Gujarat. Jour. Geol. Soc. India, v.76(1), pp.40–46.
Tissot, B.P., Welte, D.H. (1984) Petroleum formation and occurrence, 2nd edn. Springer, Berlin, pp. 699
Varma, A.K. (1989) Geological petrographic characters of coals from Jharia and Raniganj coalfields in India. Prace Komisji Naukowych, Zeazyt nr. 14. Polska Academia Nauk, pp. 44.
Varma, A.K. (1996) Influence of petrographical composition on coking behavior of inertinite-rich coals. Int. Jour. Coal Geol., v.30(4), pp.337–347.
Varma, A.K. (1996a) Facies control on the petrographic composition of inertitic coals. Int. Jour. Coal Geol., v.30(4), pp.327–335.
Varma, A.K. (2002) Thermogravimetric investigations in prediction of coking behaviour and coke properties derived from inertinite rich coals. Fuel, v.81(10), pp.1321–1334.
Varma, A.K., Banerjee, S.K. and Sen, D. (2013) Petrographic characterization and rank evaluation of coal seams belonging to Korba basin, Chhattisgarh, India, Int. Jour. Appl. Nat. Sci., v.2(4), pp.117–124.
Varma, A.K., Kumar, M., Saxena, V.K., Sarkar, A. and Banerjee, S.K. (2014) Petrographic controls on combustion behavior of inertinite rich coal and char and fly ash formation. Fuel, v.128, pp.199–209.
Varma, A.K., Mishra, D.K., Samad, S.K., Prasad, A.K., Panigrahi, D.C., Mendhe, V.A. and Singh, B.D. (2018) Geochemical and organo-petrographic characterization for hydrocarbon generation from Barakar Formation in Auranga Basin, India. Int. Jour. Coal Geol., v.186, pp.97–114.
Varma, A.K., Sahoo, A., Saikia, B.K. and Das, T. (2019) Petrographic controls of coal from Ib valley Basin for carbon nano-products formation. Int. Jour. Coal Geol., v.211, p.103211.
Acknowledgment
The author sincerely acknowledges the Indian coal petrologists and geologists for making available their research articles.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Kumar, A. Tertiary Coal and Lignite Deposits of India and their Source Rock Potential: A Review on the Contribution of the Indian Coal Petrologists. J Geol Soc India 98, 1745–1753 (2022). https://doi.org/10.1007/s12594-022-2246-0
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s12594-022-2246-0