Search Results - "Al‐Fatesh, Ahmed S."

Study of Methane Decomposition on Fe/MgO-Based Catalyst Modified by Ni, Co, and Mn Additives by Al-Fatesh, Ahmed-S., Barama, Siham, Ibrahim, Ahmed-A., Barama, Akila, Khan, Wasim-Ullah, Fakeeha, Anis

“…Catalytic decomposition of methane (CDM) generates clean hydrogen and carbon nanomaterials. In this study, methane decomposition to hydrogen and carbon was…”
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Rh promoted Ni over yttria–zirconia supported catalyst for hydrogen‐rich syngas production through dry reforming of methane by Al‐Fatesh, Ahmed S., Acharya, Kenit, Osman, Ahmed I., Fakeeha, Anish H., Ibrahim, Ahmed A., Abahussain, Abdulaziz A. M., Bagabas, Abdulaziz, Abasaeed, Ahmed E., Kumar, Rawesh

“…Abstract Rh‐promoted YZr‐supported Ni catalyst (5Ni/YZr) is investigated for DRM and characterized with X‐ray diffraction, Raman, infrared spectroscopy, cyclic…”
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Naturally occurring neem gum: An unprecedented green resource for bioelectrochemical flexible energy storage device by Dhar, Abhishek, Kumar, Nadavala Siva, Khimani, Mehul, Al‐Fatesh, Ahmed S., Ibrahim, Ahmed A., Fakeeha, Anish H., Bhadja, Poonam, Vekariya, Rohit L.

“…Summary Naturally available neem tree gum consisting of bioelectrolyte and bioelectrode was fabricated for flexible energy storage device. Structural…”
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Role of promoters over yttria‐zirconia supported Ni catalyst for dry reforming of methane by Fakeeha, Anis H., Acharya, Kenit, Ibrahim, Ahmed A., Almutairi, Ghzzai, Abu‐Dahrieh, Jehad K., Abasaeed, Ahmed E., Kumar, Rawesh, Al‐Fatesh, Ahmed S.

“…Abstract Dry reforming of methane (DRM) bears great hope for the catalytic community as well as environmentalists for its potential to convert two greenhouse…”
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Process Optimization for Syngas Production from the Dry Reforming of Methane over 5Ni+3Sr/10Zr+Al Catalyst Using Multiple Response Surface Methodology by Al‐Fatesh, Ahmed S., El‐Salamony, Radwa A., Roushdy, Mai H., Alwan, Saba M., Osman, Ahmed I., Alfatesh, Sadeq A., Ahmed, Hamid, Fakeeha, Anis H., Ibrahim, Ahmed A.

“…5Ni+3Sr/10Zr+Al catalyst is synthesized using the impregnation method, characterized, and tested for dry reforming of methane. The influence of reaction…”
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Role of Ca, Cr, Ga and Gd promotor over lanthana‐zirconia–supported Ni catalyst towards H2‐rich syngas production through dry reforming of methane by Al‐Fatesh, Ahmed S., Khatri, Jyoti, Kumar, Rawesh, Kumar Srivastava, Vijay, Osman, Ahmed I., AlGarni, Tahani S., Ibrahim, Ahmed A., Abasaeed, Ahmed E., Fakeeha, Anis H., Rooney, David W.

“…Hydrogen production through methane dry reforming holds the promise of lowering greenhouse gases, that is CO2 and CH4, concentrations. Herein, Ca‐, Cr‐, Ga‐…”
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Promotion impact of different strontium doping on Ni‐9La+Zr catalyst for dry reforming of methane by Ibrahim, Ahmed A., Al‐Fatesh, Ahmed S., Alwadai, Norah, Al‐Zahrani, Salma A., Abu‐Dahrieh, Jehad K., Abasaeed, Ahmed E., Fakeeha, Anis H.

“…The potential dry reforming of methane technology allows for the synthesis of syngas from methane and carbon dioxide. Numerous investigations have been…”
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Phoenix dactylifera mediated green synthesis of Cu2O particles for arsenite uptake from water by Amrani, Mokhtar Ali, Srikanth, Vadali V. S. S., Labhsetwar, Nitin K., Al- Fatesh, Ahmed S., Shaikh, Hamid

“…In this study, an environmentally friendly, cost-effective, and single-step procedure is used for the synthesis of polycrystalline Cu 2 O particles with…”
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Hydrogen Production via Methane Decomposition over Alumina Doped with Titanium Oxide‐Supported Iron Catalyst for Various Calcination Temperatures by Ahmed, Hamid, Alotibi, Mohammed F., Fakeeha, Anis H., Ibrahim, Ahmed A., Abasaeed, Ahmed E., Osman, Ahmed I., Al‐Awadi, Abdulrahman S., Alarifi, Naif, Al‐Fatesh, Ahmed S.

“…The decomposition of methane has been chosen as an alternative method for producing hydrogen. In this study, 20 % Fe was used as the active metal part of the…”
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Role of MgO in Al2O3‐supported Fe catalysts for hydrogen and carbon nanotubes formation during catalytic methane decomposition by Bayazed, Mohammed O., Al‐Fatesh, Ahmed S., Fakeeha, Anis H., Ibrahim, Ahmed A., Abasaeed, Ahmed E., Alromaeh, Abdulaziz I., Frusteri, Francesco, Abu Dahrieh, Jehad K.

“…Catalytic methane decomposition is a promising technology for reducing the reliance on fossil fuels and mitigating the effects of climate change by producing…”
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Methane Decomposition to Hydrogen Over Zirconia‐Supported Fe Catalysts–Effects of the Modified Support by Bayazed, Mohammed, Fakeeha, Anis H., Ibrahim, Ahmed A., Alanazi, Yousef M., Abasaeed, Ahmed E., Khan, Wasim U., Abu‐Dahrieh, Jehad K., Al‐Fatesh, Ahmed S.

“…Methane decomposition is a promising route to synthesize COx‐free hydrogen and carbon nanomaterials (CNMs). In this work, the impregnation method was employed…”
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The role of ceria in promoting Ni catalysts supported on phosphate‐modified zirconia for the partial oxidation of methane by Abahussain, Abdulaziz A. M., Al‐Fatesh, Ahmed S., Vadodariya, Dharmesh M., Abu‐Dahrieh, Jehad K., Banabdwin, Khaled M., Alarifi, Naif, Ibrahim, Ahmed A., Fakeeha, Anis H., Abasaeed, Ahmed E., Kumar, Rawesh

“…The catalytic partial oxidation of methane (POM) is aimed at the mitigation of CH4 (a highly potent greenhouse gas) from the environment and the synthesis of…”
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Strontium-promoted Ni/ZrO2–Al2O3 catalysts for dry reforming of methane by Al-Fatesh, Ahmed S, Ibrahim, Ahmed A, Osman, Ahmed I, Abasaeed, Ahmed E, Alotibi, Mohammed F, Alfatesh, Sadeq A, Rooney, David W, Fakeeha, Anis H, Chun-Yang, Yin

“…Dry reforming of methane (DRM) is an established process that utilizes CH4 and CO2 to produce syngas, which is subsequently used to produce liquid fuel…”
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Fe-Promoted Alumina-Supported Ni Catalyst Stabilized by Zirconia for Methane Dry Reforming by Anis H. Fakeeha, Yousef A. Al-Baqmaa, Ahmed A. Ibrahim, Fahad S. Almubaddel, Mohammed F. Alotibi, Abdulaziz Bentalib, Ahmed E. Abasaeed, Ateyah A. Al-Zahrani, Yahya Ahmed Mohammed, Ahmed S. Al-Fatesh

“…The dry reforming of methane is a highly popular procedure since it can transform two of the most abundant greenhouse gases, methane and carbon dioxide, into…”
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Influence of Support Type and Metal Loading in Methane Decomposition over Iron Catalyst for Hydrogen Production by Ibrahim, Ahmed A., Al-Fatesh, Ahmed S., Khan, Wasim U., Soliman, Mostafa A., AL Otaibi, Raja L., Fakeeha, Anis H.

“…Natural gas resources, stimulate the method of catalytic methane decomposition. Hydrogen is a superb energy carrier and integral component of the present…”
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Production of Synthesis Gas via Dry Reforming of Methane over Co-Based Catalysts: Effect on H2/CO Ratio and Carbon Deposition by Ibrahim, Ahmed A., Naeem, Muhammad Awais, Fakeeha, Anis H., Khan, Wasim Ullah, Al-Fatesh, Ahmed S., Abasaeed, Ahmed E.

“…The effect of support type on synthesis gas production using Co‐based catalysts supported over TiO2‐P25, Al2O3, SiO2, and CeO2 was investigated. The catalysts…”
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Nanosized Ni/SBA-15 Catalysts for CO2 Reforming of CH4 by A. Ibrahim, Ahmed, Amin, Ashraf, S. Al-Fatesh, Ahmed, Siva Kumar, Nadavala, Olajide Kasim, Samsudeen, S. Al-Awadi, Abdulrhman, M. El-Toni, Ahmed, Elhag Abasaeed, Ahmed, H. Fakeeha, Anis

“…Ni, Co, and Co–Ni bimetallic catalysts supported over SBA-15 and over SBA-15 doped with Zn or Ce oxides were prepared and tested in a methane dry reforming…”
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Iron Oxide Supported on Al2O3 Catalyst for Methane Decomposition Reaction: Effect of MgO Additive and Calcination Temperature by Al-Fatesh, Ahmed S., Fakeeha, Anis H., Ibrahim, Ahmed A., Khan, Wasim U., Atia, H., Eckelt, R., Chowdhury, Biswajit

“…Production of hydrogen is a challenging task and have significant impact in the recent scenario. The alumina supported iron oxide nanoparticle synthesized…”
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Biodiesel production from Sisymbrium irio as a potential novel biomass waste feedstock using homemade titania catalyst by Jan, Hammad Ahmad, Osman, Ahmed I., Al-Fatesh, Ahmed S., Almutairi, Ghzzai, Surina, Igor, Al-Otaibi, Raja Lafi, Al-Zaqri, Nabil, Kumar, Rawesh, Rooney, David W.

“…Biomass waste streams are a possible feedstock for a range of eco-friendly products and a crucial alternative energy source for achieving carbon neutrality;…”
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Synthesis of Biodiesel from Ricinus communis L. Seed Oil, a Promising Non-Edible Feedstock Using Calcium Oxide Nanoparticles as a Catalyst by Ahmad Jan, Hammad, Šurina, Igor, Zaman, Akhtar, Al-Fatesh, Ahmed S., Rahim, Fazli, Al-Otaibi, Raja L.

“…This work aimed to synthesize biodiesel from Ricinus communis L., using calcium oxide (CaO) nanoparticles as a catalyst. The CaO nanoparticles were examined by…”
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