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Sagir Adamu,Shaikh A. Razzak,Mohammad M. Hossain 한국공업화학회 2018 Journal of Industrial and Engineering Chemistry Vol.64 No.-
A new template-free technique is applied to develop fluidizable Ce-Al2O3 support and impregnated with nickel. The Ni(x)/Ce-Al2O3 catalysts are evaluated in a fluidized CREC Riser Simulator using glucose as biomass surrogate. XRD shows that nickel is well-dispersed on Ce-Al2O3. The acidity of the catalysts decreased from 0.317 to 0.202 mmol NH3/g-sample as the nickel loading was increased. In catalyst evaluation, it is found that the reduced catalysts favor bond cleavage, promotes water gas shift and steam reforming reactions to give hydrogen/syngas as more selective products. Ni(20)/Ce-Al2O3 exhibited lowest extent of coking and produced hydrogen rich syngas with H2/CO ≈ 1.75:1.
Hussein K. Amusa,Sagir Adamu,Idris A. Bakare,Abeer S. Arjah,Saad A. Al-Bogami,Sameer Al-Ghamdi,Shaikh A. Razzak,Mohammad M. Hossain 한국공업화학회 2020 Journal of Industrial and Engineering Chemistry Vol.89 No.-
Novel VOx/SrO-gAl2O3 catalysts have been investigated in oxidative cracking of n-hexane to light olefins. The supports, with different SrO/gAl2O3 ratios, were synthesized by a surfactant-free method, while VOxwas incorporated on SrO-gAl2O3 by impregnation. NH3-TPD showed that the acidity of the catalystsdecreased with the increase of SrO. The incorporation of SrO also modified the reducibility (H2-TPR) ofthe catalysts. VOx appeared as amorphous polymeric species on the support, confirmed by XRD, Ramanand FTIR analyses. The oxidative cracking of n-hexane was conducted by using afluidized CREC RiserSimulator in absence of gas phase oxygen. Under the studied reaction conditions (525 600 C; 10 25 s),the products contained mainly light olefins (ethylene, propylene and butenes), paraffins, and carbonoxides. Among the synthesized catalysts, VOx/SrO-gAl2O3 1:1 showed highest olefins selectivity (88%) athigh n-hexane conversion (84%) because of its balanced acidity and moderate VOx-support interactions.
Majid Lasisi Balogun,Sagir Adamu,Mohammed S. Ba-Shammakh,Mohammad M. Hossain 한국공업화학회 2021 Journal of Industrial and Engineering Chemistry Vol.96 No.-
CO2 assisted oxidative dehydrogenation (ODH) propane to propylene overfluidizable mesoporous VOx/La2O3-gAl2O3 catalysts has been investigated. The mixed oxide of La2O3 and gAl2O3 were synthesized bythe co-precipitation technique and VOx was deposited on the supports by an incipient wetnessimpregnation approach. The prepared catalysts were characterized by various physicochemicalcharacterizations to establish the desired properties of the catalysts. The H2-TPR indicated the supportedVOx reduced in a single stage, indicating the formation of a homogeneous specie. Both the acidity andsurface area of the catalysts decreased with increase of La content, as confirmed by the NH3-TPD and BETanalysis, respectively. The CO2 assisted ODH of propane experiments were developed in afluidized CRECRiser Simulator at 520–600 C. The introduction of CO2 significantly enhanced both the propaneconversion and propylene selectivity. Among the studied catalysts, VOx/g-Al2O3 catalyst showed highestpropylene yields (42.7%) at 550 C.