Transport Properties of HPSR Gases

Research output: Chapter in Book/Report/Conference proceedingConference contribution

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Transport Properties of HPSR Gases. / Naseri Seftejani, Masab; Schenk, Johannes.
The Chinese Society for Metals. 2018.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Harvard

Naseri Seftejani, M & Schenk, J 2018, Transport Properties of HPSR Gases. in The Chinese Society for Metals. China Symposium on Sustainable Steelmaking Technology 2018, Tianjin, China, 24/10/18.

APA

Vancouver

Naseri Seftejani M, Schenk J. Transport Properties of HPSR Gases. In The Chinese Society for Metals. 2018

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@inproceedings{37e62adf15c84f3a8a519dfd8b3b64cd,
title = "Transport Properties of HPSR Gases",
abstract = "During the process of hydrogen plasma smelting reduction (HPSR), hydrogen in the plasma state reduces iron oxide in a plasma arc reactor. In HPSR, a mixture of H2-Ar or H2-N2 is injected into the plasma arc zone. The main thermophysical properties of the plasma gases are the transport coefficients and heat and mass transfer, which are the main parameters that influence the ionization degree and consequently the reduction rate of iron oxides. In this study, the transport coefficients of argon, nitrogen, hydrogen, and mixtures of argon-hydrogen and nitrogen-hydrogen are discussed. The properties of plasma gases in terms of viscosity, thermal and electrical conductivity, and heat capacity are also presented. Moreover, the energy demand of steel production with the use of different plasma gases is evaluated and compared. The gas compositions of H2-Ar and H2-N2 mixtures at high temperatures were calculated by FactSageTM 7.1",
author = "{Naseri Seftejani}, Masab and Johannes Schenk",
year = "2018",
month = oct,
day = "24",
language = "English",
booktitle = "The Chinese Society for Metals",
note = "China Symposium on Sustainable Steelmaking Technology 2018 ; Conference date: 24-10-2018 Through 26-06-2019",

}

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TY - GEN

T1 - Transport Properties of HPSR Gases

AU - Naseri Seftejani, Masab

AU - Schenk, Johannes

PY - 2018/10/24

Y1 - 2018/10/24

N2 - During the process of hydrogen plasma smelting reduction (HPSR), hydrogen in the plasma state reduces iron oxide in a plasma arc reactor. In HPSR, a mixture of H2-Ar or H2-N2 is injected into the plasma arc zone. The main thermophysical properties of the plasma gases are the transport coefficients and heat and mass transfer, which are the main parameters that influence the ionization degree and consequently the reduction rate of iron oxides. In this study, the transport coefficients of argon, nitrogen, hydrogen, and mixtures of argon-hydrogen and nitrogen-hydrogen are discussed. The properties of plasma gases in terms of viscosity, thermal and electrical conductivity, and heat capacity are also presented. Moreover, the energy demand of steel production with the use of different plasma gases is evaluated and compared. The gas compositions of H2-Ar and H2-N2 mixtures at high temperatures were calculated by FactSageTM 7.1

AB - During the process of hydrogen plasma smelting reduction (HPSR), hydrogen in the plasma state reduces iron oxide in a plasma arc reactor. In HPSR, a mixture of H2-Ar or H2-N2 is injected into the plasma arc zone. The main thermophysical properties of the plasma gases are the transport coefficients and heat and mass transfer, which are the main parameters that influence the ionization degree and consequently the reduction rate of iron oxides. In this study, the transport coefficients of argon, nitrogen, hydrogen, and mixtures of argon-hydrogen and nitrogen-hydrogen are discussed. The properties of plasma gases in terms of viscosity, thermal and electrical conductivity, and heat capacity are also presented. Moreover, the energy demand of steel production with the use of different plasma gases is evaluated and compared. The gas compositions of H2-Ar and H2-N2 mixtures at high temperatures were calculated by FactSageTM 7.1

M3 - Conference contribution

BT - The Chinese Society for Metals

T2 - China Symposium on Sustainable Steelmaking Technology 2018

Y2 - 24 October 2018 through 26 June 2019

ER -