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Dr Nitesh Kumar Sahu

vidwan id: 418615
Male

Assistant Professor, Department of Fuel, Minerals and Metallurgical Engineering
Indian Institute of Technology (Indian School of Mines), Dhanbad

Orchid Icon 0000-0001-9941-215X Google Scholar Icon 57211023053 Researcher Icon DWL-8505-2022 Google Scholar Icon toF8mUoAAAAJ

Expertise

  • Energy and Fuels

Publications

Total Articles 8
Books 0
Proceedings 0

Publications

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Scopus

Citations 13
h-index 3

CrossRef

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Citations 10
h-index 2
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Professional Recognition

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Community & Membership

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Bio

Turbulent combustion, Pressurized Drop tube reactor, Numerical modeling of Solid-fuel Combustion in Entrained flow reactors, Turbulence modeling

Personal Details

  • Male
  • Assistant Professor , Indian Institute of Technology (Indian School of Mines), Dhanbad
  • IIT (ISM)
Ph.D
Indian Institute of Technology Delhi 2023
B.Tech
Other Institute 2014
Assistant Professor Aug 2023 – Present
Indian Institute of Technology (Indian School of Mines), Dhanbad | Department of Fuel, Minerals and Metallurgical Engineering
Research Associate Jul 2022 – Jul 2023
I.I.T. DELHI
Teaching Assistant Jul 2017 – Jul 2022
I.I.T. DELHI

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Scholarly Work

Characterizing the effect of swirl generation method on the reacting flow dynamics inside entrained flow pulverized-solid-fuel reactors

Funding Agency: IIT Dhanbad

PI

2,000,000

2024 - Ongoing

Ongoing
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PRESSURIZED DROP TUBE REACTOR FOR HIGH-PRESSURE KINETICS OF SOLID FUELS UNDER NEAR-ENTRAINED-FLOW CONDITIONS

INDIAN INSTITUTE OF TECHNOLOGY DELHI
Engineering and Technology Application No. : 202411063747 Filed : 23-08-2024
Published : N/A Filed

Scholarly Publications

Computational Investigation on the Impact of Coal Feed Size in a Tangentially Fired Gasifier

Open Access
Article
Combustion Science and Technology. Year: 2024. Volume: 196 , Issue: 14 , Pages: 2938-2957 .
Authors: Sahu N.K.;Dewan A.;Kumar M.
DOI 10.1080/00102202.2022.2157210
1 2

Characterizing flow field transition in a pressurized tangential-injection gas-fired reactor

Open Access
Article
Thermal Science and Engineering Progress. Year: 2023. Volume: 41 .
Authors: Sahu N.K.;Dewan A.;Kumar M.
DOI 10.1016/j.tsep.2023.101811

Sophisticated interplay of operating conditions governs flow field transition and optimal conversion inside tangentially fired gasifiers

Open Access
Article
Year: 2022. Volume: 252 .
Authors: Sahu N.K.;Kumar M.;Dewan A.
DOI 10.1016/j.energy.2022.123975
4 3

Erratum: “Computational Study of 16 KWth Furnace Cofired Using Pulverized Bituminous Coal and Liquified Petroleum Gas Operated in Un-Staged and Air-Staged Conditions” [ASME J. Energy Resour. Technol., 143(8), p. 082102; DOI: 10.1115/1.4048868]

Open Access
Erratum
Year: 2022. Volume: 144 , Issue: 4 .
Authors: Sahu N.K.;Kumar M.;Dewan A.
DOI 10.1115/1.4053144

Computational study of 16 kWth furnace cofired using pulverized bituminous coal and liquified petroleum gas operated in un-staged and air-staged conditions

Open Access
Article
Year: 2021. Volume: 143 , Issue: 8 .
Authors: Sahu N.K.;Kumar M.;Dewan A.
DOI 10.1115/1.4048868
2 3

A Computational Study of Entrained Flow Furnace with Swirl Burner Configuration and Low Turbulence Intensity Flow

Open Access
Conference Paper
Year: 2021. Pages: 73-80 .
Authors: Sahu N.K.;Kumar M.;Dewan A.
DOI 10.1007/978-981-16-0698-4_8

Computational study of non-reactive swirling flow in tangentially-fired configuration gasifier

Open Access
Conference Paper
Year: 2020. Volume: 28 , Pages: 2053-2056 .
Authors: Sahu N.K.;Kumar M.;Dewan A.
DOI 10.1016/j.matpr.2020.02.400
1 2

Computational study of coal combustion in an entrained flow furnace

Open Access
Conference Paper
AIP Conference Proceedings. Year: 2019. Volume: 2148 .
Authors: Sahu N.K.;Kumar M.;Dewan A.
DOI 10.1063/1.5123977
2 3