The Experts below are selected from a list of 8913 Experts worldwide ranked by ideXlab platform
Abul K Azad - One of the best experts on this subject based on the ideXlab platform.
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catalytic fast co pyrolysis of sewage sludge sawdust using mixed metal oxides modified with zsm 5 catalysts on dual catalysts for Product Upgrading
Journal of The Energy Institute, 2021Co-Authors: Nurul Afiqah Haji Morni, Chun Mo Yeung, Yang Yang, Hong Tian, Neeranuch Phusunti, Muhammad Abu S Bakar, Abul K AzadAbstract:Abstract Catalytic fast co-pyrolysis of sewage sludge and sawdust was performed using Py/GC-MS for pyrolytic Product upgrades. Metal oxides (NiO and MoO3) and ZSM-5 catalysts had been introduced into single catalytic pyrolysis. The combination of NiO + MoO3 in mixed metal oxides (MMOs) was modified with ZSM-5 under a dual-catalyst with different catalytic layouts. In the pyrolysis process, the metal oxides specifically promoted the formation of phenols, ketones, and furans. ZSM-5 was proven to be more effective in producing aromatic hydrocarbons and phenols and in reducing the oxygenated compounds. The combination of MMOs with ZSM-5 effectively improved Product distribution by increasing the Production of aromatics and phenols. MMOs promoted the aromatics selectivity of undesirable PAHs (70.5%), however, the addition of ZSM-5 to MMOs appeared to reduce and inhibit the formation of PAHs by 0.85%. The highest yield of aromatics was obtained by the layout of the ZSM-5/MMO dual catalysts layout which was 21.6%. Dual catalysts of MMOs and ZSM-5 in separated layout created promising effects in further increasing the Production of aromatic hydrocarbons and phenols compared to the mixture of MMOs modified ZSM-5.
Nurul Afiqah Haji Morni - One of the best experts on this subject based on the ideXlab platform.
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catalytic fast co pyrolysis of sewage sludge sawdust using mixed metal oxides modified with zsm 5 catalysts on dual catalysts for Product Upgrading
Journal of The Energy Institute, 2021Co-Authors: Nurul Afiqah Haji Morni, Chun Mo Yeung, Yang Yang, Hong Tian, Neeranuch Phusunti, Muhammad Abu S Bakar, Abul K AzadAbstract:Abstract Catalytic fast co-pyrolysis of sewage sludge and sawdust was performed using Py/GC-MS for pyrolytic Product upgrades. Metal oxides (NiO and MoO3) and ZSM-5 catalysts had been introduced into single catalytic pyrolysis. The combination of NiO + MoO3 in mixed metal oxides (MMOs) was modified with ZSM-5 under a dual-catalyst with different catalytic layouts. In the pyrolysis process, the metal oxides specifically promoted the formation of phenols, ketones, and furans. ZSM-5 was proven to be more effective in producing aromatic hydrocarbons and phenols and in reducing the oxygenated compounds. The combination of MMOs with ZSM-5 effectively improved Product distribution by increasing the Production of aromatics and phenols. MMOs promoted the aromatics selectivity of undesirable PAHs (70.5%), however, the addition of ZSM-5 to MMOs appeared to reduce and inhibit the formation of PAHs by 0.85%. The highest yield of aromatics was obtained by the layout of the ZSM-5/MMO dual catalysts layout which was 21.6%. Dual catalysts of MMOs and ZSM-5 in separated layout created promising effects in further increasing the Production of aromatic hydrocarbons and phenols compared to the mixture of MMOs modified ZSM-5.
Jorge A Velasco - One of the best experts on this subject based on the ideXlab platform.
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gas to liquids a technology for natural gas industrialization in bolivia
Journal of Natural Gas Science and Engineering, 2010Co-Authors: Jorge A Velasco, Luis Lopez, Miguel Velasquez, Magali Boutonnet, Saul Cabrera, Sven JarasAbstract:Abstract Gas-to-Liquids (GTL) technology converts natural gas, through Fischer–Tropsch synthesis, into liquid and ultra-clean hydrocarbons such as light oils, kerosene, naphtha, diesel, and wax. Bolivia has natural gas reserves that reach 48.7 trillion cubic feet and produces nearly 40.0 million cubic meters per day, from which, around 88% are exported to Brazil and Argentina. In spite of these considerable amounts of natural gas reserves and Production, the country experiences a shortage of diesel which cannot be solved using conventional refining processes due the light nature of its crude oil. Thus, the GTL process seems to be a promising solution for Bolivia’s diesel problems, at the same time that its natural gas reserves could be monetized. Although GTL can be considered as a well proven and developed technology, there are several aspects along the main processing steps (synthesis gas generation, Fischer–Tropsch synthesis, and Product Upgrading) to be considered at the time of implementing a GTL plant. The aim of this paper is to give an overall view of some relevant issues related to Gas-to-Liquids technology as an option for natural gas industrialization in Bolivia, and also to provide a landscape of Bolivian natural gas industry.
Yang Yang - One of the best experts on this subject based on the ideXlab platform.
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catalytic fast co pyrolysis of sewage sludge sawdust using mixed metal oxides modified with zsm 5 catalysts on dual catalysts for Product Upgrading
Journal of The Energy Institute, 2021Co-Authors: Nurul Afiqah Haji Morni, Chun Mo Yeung, Yang Yang, Hong Tian, Neeranuch Phusunti, Muhammad Abu S Bakar, Abul K AzadAbstract:Abstract Catalytic fast co-pyrolysis of sewage sludge and sawdust was performed using Py/GC-MS for pyrolytic Product upgrades. Metal oxides (NiO and MoO3) and ZSM-5 catalysts had been introduced into single catalytic pyrolysis. The combination of NiO + MoO3 in mixed metal oxides (MMOs) was modified with ZSM-5 under a dual-catalyst with different catalytic layouts. In the pyrolysis process, the metal oxides specifically promoted the formation of phenols, ketones, and furans. ZSM-5 was proven to be more effective in producing aromatic hydrocarbons and phenols and in reducing the oxygenated compounds. The combination of MMOs with ZSM-5 effectively improved Product distribution by increasing the Production of aromatics and phenols. MMOs promoted the aromatics selectivity of undesirable PAHs (70.5%), however, the addition of ZSM-5 to MMOs appeared to reduce and inhibit the formation of PAHs by 0.85%. The highest yield of aromatics was obtained by the layout of the ZSM-5/MMO dual catalysts layout which was 21.6%. Dual catalysts of MMOs and ZSM-5 in separated layout created promising effects in further increasing the Production of aromatic hydrocarbons and phenols compared to the mixture of MMOs modified ZSM-5.
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Catalytic fast Co-Pyrolysis of sewage sludge−sawdust using mixed metal oxides modified with ZSM-5 catalysts on dual-catalysts for Product Upgrading
'Elsevier BV', 2021Co-Authors: Haji Morni, Nurul Afiqah, Chun Mo Yeung, Tian Hong, Yang Yang, Phusunti Neeranuch, Abu Bakar, Muhammad Saifullah, Azad, Abul KalamAbstract:Catalytic fast co-pyrolysis of sewage sludge and sawdust was performed using Py/GC-MS for pyrolytic Product upgrades. Metal oxides (NiO and MoO3) and ZSM-5 catalysts had been introduced into single catalytic pyrolysis. The combination of NiO + MoO3 in mixed metal oxides (MMOs) was modified with ZSM-5 under a dual-catalyst with different catalytic layouts. In the pyrolysis process, the metal oxides specifically promoted the formation of phenols, ketones, and furans. ZSM-5 was proven to be more effective in producing aromatic hydrocarbons and phenols and in reducing the oxygenated compounds. The combination of MMOs with ZSM-5 effectively improved Product distribution by increasing the Production of aromatics and phenols. MMOs promoted the aromatics selectivity of undesirable PAHs (70.5%), however, the addition of ZSM-5 to MMOs appeared to reduce and inhibit the formation of PAHs by 0.85%. The highest yield of aromatics was obtained by the layout of the ZSM-5/MMO dual catalysts layout which was 21.6%. Dual catalysts of MMOs and ZSM-5 in separated layout created promising effects in further increasing the Production of aromatic hydrocarbons and phenols compared to the mixture of MMOs modified ZSM-5
Chun Mo Yeung - One of the best experts on this subject based on the ideXlab platform.
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catalytic fast co pyrolysis of sewage sludge sawdust using mixed metal oxides modified with zsm 5 catalysts on dual catalysts for Product Upgrading
Journal of The Energy Institute, 2021Co-Authors: Nurul Afiqah Haji Morni, Chun Mo Yeung, Yang Yang, Hong Tian, Neeranuch Phusunti, Muhammad Abu S Bakar, Abul K AzadAbstract:Abstract Catalytic fast co-pyrolysis of sewage sludge and sawdust was performed using Py/GC-MS for pyrolytic Product upgrades. Metal oxides (NiO and MoO3) and ZSM-5 catalysts had been introduced into single catalytic pyrolysis. The combination of NiO + MoO3 in mixed metal oxides (MMOs) was modified with ZSM-5 under a dual-catalyst with different catalytic layouts. In the pyrolysis process, the metal oxides specifically promoted the formation of phenols, ketones, and furans. ZSM-5 was proven to be more effective in producing aromatic hydrocarbons and phenols and in reducing the oxygenated compounds. The combination of MMOs with ZSM-5 effectively improved Product distribution by increasing the Production of aromatics and phenols. MMOs promoted the aromatics selectivity of undesirable PAHs (70.5%), however, the addition of ZSM-5 to MMOs appeared to reduce and inhibit the formation of PAHs by 0.85%. The highest yield of aromatics was obtained by the layout of the ZSM-5/MMO dual catalysts layout which was 21.6%. Dual catalysts of MMOs and ZSM-5 in separated layout created promising effects in further increasing the Production of aromatic hydrocarbons and phenols compared to the mixture of MMOs modified ZSM-5.
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Catalytic fast Co-Pyrolysis of sewage sludge−sawdust using mixed metal oxides modified with ZSM-5 catalysts on dual-catalysts for Product Upgrading
'Elsevier BV', 2021Co-Authors: Haji Morni, Nurul Afiqah, Chun Mo Yeung, Tian Hong, Yang Yang, Phusunti Neeranuch, Abu Bakar, Muhammad Saifullah, Azad, Abul KalamAbstract:Catalytic fast co-pyrolysis of sewage sludge and sawdust was performed using Py/GC-MS for pyrolytic Product upgrades. Metal oxides (NiO and MoO3) and ZSM-5 catalysts had been introduced into single catalytic pyrolysis. The combination of NiO + MoO3 in mixed metal oxides (MMOs) was modified with ZSM-5 under a dual-catalyst with different catalytic layouts. In the pyrolysis process, the metal oxides specifically promoted the formation of phenols, ketones, and furans. ZSM-5 was proven to be more effective in producing aromatic hydrocarbons and phenols and in reducing the oxygenated compounds. The combination of MMOs with ZSM-5 effectively improved Product distribution by increasing the Production of aromatics and phenols. MMOs promoted the aromatics selectivity of undesirable PAHs (70.5%), however, the addition of ZSM-5 to MMOs appeared to reduce and inhibit the formation of PAHs by 0.85%. The highest yield of aromatics was obtained by the layout of the ZSM-5/MMO dual catalysts layout which was 21.6%. Dual catalysts of MMOs and ZSM-5 in separated layout created promising effects in further increasing the Production of aromatic hydrocarbons and phenols compared to the mixture of MMOs modified ZSM-5
