Experimental and optimization studies of hydrogen production by steam methane reforming over lanthanum strontium cobalt ferrite supported Ni catalyst
Catalysts; Cobalt; Energy dispersive spectroscopy; Ferrite; High resolution transmission electron microscopy; Hydrogen production; Lanthanum; Methane; Nickel; Physicochemical properties; Scanning electron microscopy; Steam; Strontium; Surface properties; Thermogravimetric analysis; Box-Behnken desig...
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2023
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my.uniten.dspace-243372023-05-29T15:22:51Z Experimental and optimization studies of hydrogen production by steam methane reforming over lanthanum strontium cobalt ferrite supported Ni catalyst Ayodele B.V. Mustapa S.I. Mohd Yassin M.Y.B. Abdullah S. 56862160400 36651549700 57203152120 57188753785 Catalysts; Cobalt; Energy dispersive spectroscopy; Ferrite; High resolution transmission electron microscopy; Hydrogen production; Lanthanum; Methane; Nickel; Physicochemical properties; Scanning electron microscopy; Steam; Strontium; Surface properties; Thermogravimetric analysis; Box-Behnken design; Box-Behnken experimental design; Desirability function; Energy dispersive X ray spectroscopy; Lanthanum strontium cobalt ferrite; Response surface methodology; Response surface models; Wet impregnation method; Steam reforming Over the years, research focused has been on the development of active and stable catalysts for hydrogen (H2) production by steam methane reforming (SMR). However, there is less attention on the individual and interaction effect of key process parameters that influence the catalytic performance of such catalysts and how to optimize them. The main objective of this study is to investigate the individual and interaction effects of key parameters such as methane partial pressure ((Formula presented.) (10-30 kPa), steam partial pressure ((Formula presented.) (10-30 kPa), and reaction temperature (T) (750-850�C) on H2 yield and methane (CH4) conversion during SMR using Box-Behnken experimental design (BBD) and response surface methodology. The H2 production was catalyzed using Ni/LSCF prepared by wet impregnation method. The evaluation of the Ni/LSCF using different instrument techniques revealed that the catalyst exhibited excellent physicochemical properties suitable for SMR. Response surface models showing the individual and interaction effect of each of the parameters on the H2 yield and CH4 conversion were obtained using the set of data obtained from the BBD matrix. The three parameters were found to have significant effects on the H2 yield and CH4 conversion. At the highest desirability of 0.8994, maximum H2 yield and CH4 conversion of 89.77% and 89.01%, respectively, were obtained at optimum conditions of 30 kPa, 28.86 kPa, and 850�C for (Formula presented.), (Formula presented.), and temperature, respectively. The predicted values of the responses from the response surface models were found to be in good agreement with the experimental values. At optimum conditions, the catalyst was found to be stable up to 390 minutes with time on stream. The characterization of the used catalyst using thermogravimetric analysis, scanning electron microscopy, energy-dispersive X-ray spectroscopy, and transmission electron microscopy showed some evidence deposition of a small amount of carbon on the catalyst surface. � 2019 John Wiley & Sons, Ltd. Final 2023-05-29T07:22:51Z 2023-05-29T07:22:51Z 2019 Article 10.1002/er.4808 2-s2.0-85070967203 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85070967203&doi=10.1002%2fer.4808&partnerID=40&md5=d4fc318b43ddad77f704f15da6005187 https://irepository.uniten.edu.my/handle/123456789/24337 43 14 8118 8135 All Open Access, Bronze John Wiley and Sons Ltd Scopus |
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Catalysts; Cobalt; Energy dispersive spectroscopy; Ferrite; High resolution transmission electron microscopy; Hydrogen production; Lanthanum; Methane; Nickel; Physicochemical properties; Scanning electron microscopy; Steam; Strontium; Surface properties; Thermogravimetric analysis; Box-Behnken design; Box-Behnken experimental design; Desirability function; Energy dispersive X ray spectroscopy; Lanthanum strontium cobalt ferrite; Response surface methodology; Response surface models; Wet impregnation method; Steam reforming |
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56862160400 Ayodele B.V. Mustapa S.I. Mohd Yassin M.Y.B. Abdullah S. |
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Ayodele B.V. Mustapa S.I. Mohd Yassin M.Y.B. Abdullah S. |
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Ayodele B.V. Mustapa S.I. Mohd Yassin M.Y.B. Abdullah S. Experimental and optimization studies of hydrogen production by steam methane reforming over lanthanum strontium cobalt ferrite supported Ni catalyst |
author_sort |
Ayodele B.V. |
title |
Experimental and optimization studies of hydrogen production by steam methane reforming over lanthanum strontium cobalt ferrite supported Ni catalyst |
title_short |
Experimental and optimization studies of hydrogen production by steam methane reforming over lanthanum strontium cobalt ferrite supported Ni catalyst |
title_full |
Experimental and optimization studies of hydrogen production by steam methane reforming over lanthanum strontium cobalt ferrite supported Ni catalyst |
title_fullStr |
Experimental and optimization studies of hydrogen production by steam methane reforming over lanthanum strontium cobalt ferrite supported Ni catalyst |
title_full_unstemmed |
Experimental and optimization studies of hydrogen production by steam methane reforming over lanthanum strontium cobalt ferrite supported Ni catalyst |
title_sort |
experimental and optimization studies of hydrogen production by steam methane reforming over lanthanum strontium cobalt ferrite supported ni catalyst |
publisher |
John Wiley and Sons Ltd |
publishDate |
2023 |
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1806426412925583360 |
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13.222552 |