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Chemical Engineering Communications Volume 156, 1997 - Issue 1
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Original Articles

KINETICS OF REDUCTION OF NICKEL OXIDE WITH HYDROGEN GAS IN THE 230-452°C RANGE

A. H. RASHED Formerly Graduate Research Assistant, presently Research Manager, Keramont Corporation, Tuscon, Arizona, 85714, USA
&
Y. K. RAO Professor, Department of Materials Science and Engineering, University of Washington, FB-10, Seattle, Washington, 98195, USA
Pages 1-30 | Received 05 May 1995, Accepted 12 Dec 1995, Published online: 17 May 2010

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B Li, H Wang & Y G Wei. (2012) Kinetic analysis for non-isothermal solid state reduction of nickel laterite ore by carbon monoxide. Mineral Processing and Extractive Metallurgy 121:3, pages 178-184.
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Y. K. Rao & A. H. Rashed. (2001) Kinetics of reduction of nickel oxide with helium–hydrogen gas mixtures in the range 300–400°C. Mineral Processing and Extractive Metallurgy 110:1, pages 1-6.
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Articles from other publishers (24)

Sulong Shi, Yuxi Zhang, Yue Pan, Xin Liu, Fuhong Zhang, Hongyuan Yang, Qingya Liu & Zhenyu Liu. (2024) Hydrogenation of CaCO3 to CH4 catalyzed by NiCO3. Chemical Engineering Journal 485, pages 150012.
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Sonja Pöyhtäri, Juhani Ruokoja, Eetu-Pekka Heikkinen, Anne Heikkilä, Tommi Kokkonen & Pekka Tynjälä. (2023) Kinetic Analysis of Hydrogen Reduction of Nickel Compounds. Metallurgical and Materials Transactions B.
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A. U. Sharafutdinov, D. A. Agarkov, I. N. Burmistrov, D. S. Katrich, G. M. Korableva, A. V. Samoilov, I. I. Tartakovskii & S. I. Bredikhin. (2023) Reduction kinetics of nickel-based supporting anode composite substrates under operating conditions of intermediate-temperature solid oxide fuel cells. Journal of Solid State Electrochemistry.
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Sarika P. Patil, L.D. Jadhav & Muralidhar Chourashiya. (2022) Investigation of quality and performance of Cu impregnated NiO-GDC as anode for IT-SOFCs. Open Ceramics 9, pages 100230.
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A. Rukini, M. A. Rhamdhani, G. A. Brooks & A. Van den Bulck. (2022) Metals Production and Metal Oxides Reduction Using Hydrogen: A Review. Journal of Sustainable Metallurgy 8:1, pages 1-24.
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Kali Charan Sabat. (2021) Production of Nickel by Cold Hydrogen Plasma. Plasma Chemistry and Plasma Processing 41:5, pages 1329-1345.
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Jiang Chen & Peter C. Hayes. (2019) Mechanisms and Kinetics of Reduction of Solid NiO in CO/CO2 and CO/Ar Gas Mixtures. Metallurgical and Materials Transactions B 50:6, pages 2623-2635.
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Xiaokun Yang, Rhodri W. Jenkins, Juan H. Leal, Cameron M. Moore, Elizabeth J. Judge, Troy A. Semelsberger & Andrew D. Sutton. (2019) Hydrodeoxygenation (HDO) of Biomass Derived Ketones Using Supported Transition Metals in a Continuous Reactor. ACS Sustainable Chemistry & Engineering 7:17, pages 14521-14530.
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Chang Sup Oh, Seung-Hun Hong, Dong-Kyu Lee, Hang Goo Kim & Yong Ha Kim. (2017) Hydrogen Reduction of a Black Nickel Oxide Ore in a Fluidized-Bed Reactor without Sticking. Korean Journal of Materials Research 27:2, pages 63-68.
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A.S. Skrypnik & A.A. Matvienko. (2017) The study of Nickel product morphology developed during the gaseous reduction of Nickel oxide. Materials Today: Proceedings 4:11, pages 11425-11429.
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Chang-Sup Oh, Hang Goo Kim & Yong Ha Kim. (2016) Hydrogen Reduction of NiO Particles in a Single-Stage Fluidized-Bed Reactor without Sticking. Korean Journal of Materials Research 26:2, pages 79-83.
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Karin Vels Hansen, Torben Jacobsen, Karl Thyden, Yuehua Wu & Mogens B. Mogensen. (2014) In situ surface reduction of a NiO-YSZ-alumina composite using scanning probe microscopy. Journal of Solid State Electrochemistry 18:7, pages 1869-1878.
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Zhiquan Zhou, Lu Han & George M. Bollas. (2014) Kinetics of NiO reduction by H2 and Ni oxidation at conditions relevant to chemical-looping combustion and reforming. International Journal of Hydrogen Energy 39:16, pages 8535-8556.
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Boris V. L’vov & Andrew K. Galwey. (2011) The mechanism and kinetics of NiO reduction by hydrogen. Journal of Thermal Analysis and Calorimetry 110:2, pages 601-610.
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Laxmikant V. Saraf. (2011) Imaging Chemical Aggregation of Ni/NiO Particles from Reduced NiO-YSZ. Electrochemical and Solid-State Letters 14:10, pages B100.
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E. Ivers‐Tiffée, H. Timmermann, A. Leonide, N. H. Menzler & J. Malzbender. 2010. Handbook of Fuel Cells. Handbook of Fuel Cells.
B. V. L’vov. (2010) Thermochemical approach to the mechanism and kinetics of NiO reduction with hydrogen. Russian Journal of Applied Chemistry 83:5, pages 778-786.
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T. Hidayat, M.A. Rhamdhani, E. Jak & P.C. Hayes. (2009) Investigation of Nickel Product Structures Developed during the Gaseous Reduction of Solid Nickel Oxide. Metallurgical and Materials Transactions B 40:4, pages 462-473.
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T. Hidayat, M. A. Rhamdhani, E. Jak & P. C. Hayes. (2009) On the Relationships between the Kinetics and Mechanisms of Gaseous Hydrogen Reduction of Solid Nickel Oxide. Metallurgical and Materials Transactions B 40:4, pages 474-489.
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Borivoj Adnadević & Bojan Janković. (2008) A New Method for Evaluation of the Isothermal Conversion Curves from the Nonisothermal Measurements. Application in Nickel Oxide Reduction Kinetics. Industrial & Engineering Chemistry Research 48:3, pages 1420-1427.
Crossref
T. Hidayat, M.A. Rhamdhani, E. Jak & P.C. Hayes. (2009) The Kinetics of Reduction of Dense Synthetic Nickel Oxide in H2-N2 and H2-H2O Atmospheres. Metallurgical and Materials Transactions B 40:1, pages 1-16.
Crossref
M.A. Rhamdhani, E. Jak & P.C. Hayes. (2008) Basic Nickel Carbonate: Part I. Microstructure and Phase Changes during Oxidation and Reduction Processes. Metallurgical and Materials Transactions B 39:2, pages 218-233.
Crossref
T. Hidayat, M.A. Rhamdhani, E. Jak & P.C. Hayes. (2008) The characterization of nickel metal pore structures and the measurement of intrinsic reaction rate during the reduction of nickel oxide in H2–N2 and H2–H2O atmospheres. Minerals Engineering 21:2, pages 157-166.
Crossref
S Vogel, E Ustundag, J.C Hanan, V.W Yuan & M.A.M Bourke. (2002) In-situ investigation of the reduction of NiO by a neutron transmission method. Materials Science and Engineering: A 333:1-2, pages 1-9.
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