Assessment of the Techno-Economic Viability to Produce Biohydrogen from Biowaste.
- Published in:
- CET Journal - Chemical Engineering Transactions, 2025, v. 117, p. 541, doi. 10.3303/CET25117091
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- Publication type:
- Article
Works matching DE "STEAM reforming"
Results: 1630
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Hydrogen Station Model Design Using Functional Mock-Up Units and Metaheuristics Optimization: Hydrogen Station Model Design Using Functional Mock-Up Units and Metaheuristics Optimization: Gonzalez-Gonzalez and Lopez-Guede.
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- JOM: The Journal of The Minerals, Metals & Materials Society (TMS), 2025, v. 77, n. 5, p. 2907, doi. 10.1007/s11837-025-07276-4
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- Article
3
Enhanced Methane Conversion in Chemical Looping Partial Oxidation of Iron-Based Oxygen Carriers.
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- JOM: The Journal of The Minerals, Metals & Materials Society (TMS), 2023, v. 75, n. 5, p. 1530, doi. 10.1007/s11837-023-05699-5
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- Article
4
Lanthanum-Promoted Nickel-Based Catalysts for the Dry Reforming of Methane at Low Temperatures.
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- JOM: The Journal of The Minerals, Metals & Materials Society (TMS), 2023, v. 75, n. 3, p. 727, doi. 10.1007/s11837-022-05619-z
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- Article
5
Real‐Time Interactive Navigation on Input‐Output Data Sets in Chemical Processes.
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- Chemie Ingenieur Technik (CIT), 2023, v. 95, n. 7, p. 1028, doi. 10.1002/cite.202200240
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- Article
6
Structure‐Property Relations of Nickel and Cobalt Substituted Yttrium Aluminum Garnets as Catalyst Materials for Dry Reforming of Methane.
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- Chemie Ingenieur Technik (CIT), 2022, v. 94, n. 11, p. 1727, doi. 10.1002/cite.202200072
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- Article
7
Theoretical Studies on a Rotating Film Reactor for Hydrogen Production from Methane.
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- Chemie Ingenieur Technik (CIT), 2022, v. 94, n. 5, p. 681, doi. 10.1002/cite.202100183
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- Article
8
Data‐Driven Process Simulation Using Connected Surrogate Unit Models Exemplified on a Steam Methane Reforming Process.
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- Chemie Ingenieur Technik (CIT), 2021, v. 93, n. 12, p. 2052, doi. 10.1002/cite.202100087
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- Article
9
Evaluation of thermal versus photo‐assisted hydrogenation of CO<sub>2</sub> on cobalt‐ and nickel‐based catalysts for different support materials.
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- Chemie Ingenieur Technik (CIT), 2020, v. 92, n. 9, p. 1360, doi. 10.1002/cite.202055439
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10
Multiscale Chemical Process Design Exemplified for a PEM Fuel Cell Process.
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- Chemie Ingenieur Technik (CIT), 2014, v. 86, n. 12, p. 2075, doi. 10.1002/cite.201400127
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- Article
11
Combination with biomass pyrolysis and dry/steam reforming for adjustable H<sub>2</sub>/CO syngas production.
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- Journal of Thermal Analysis & Calorimetry, 2024, v. 149, n. 8, p. 3497, doi. 10.1007/s10973-024-12905-2
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- Article
12
Life-cycle assessment (LCA) and techno-economic analysis of a biomass-based biorefinery.
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- Journal of Thermal Analysis & Calorimetry, 2021, v. 145, n. 3, p. 1053, doi. 10.1007/s10973-020-10324-7
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- Article
13
The production of hydrogen through steam reforming of bio-oil model compounds recovering waste heat from blast furnace slag.
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- Journal of Thermal Analysis & Calorimetry, 2018, v. 131, n. 3, p. 2951, doi. 10.1007/s10973-017-6804-4
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- Article
14
Ethanol reforming with CO<sub>2</sub> over MOF-derived CoMO<sub>x</sub> (M:Ce,Zr,Zn): impact of support on activity/stability.
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- Journal of Materials Science, 2023, v. 58, n. 41, p. 16033, doi. 10.1007/s10853-023-09050-w
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- Article
15
Improvement of Ni-based catalyst properties and activity for dry reforming of methane by application of all-in-one preparation method.
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- Journal of Materials Science, 2023, v. 58, n. 8, p. 3568, doi. 10.1007/s10853-023-08261-5
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- Article
16
The Role of Strontium in CeNiO 3 Nano-Crystalline Perovskites for Greenhouse Gas Mitigation to Produce Syngas.
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- Molecules, 2022, v. 27, n. 2, p. 356, doi. 10.3390/molecules27020356
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- Article
17
Thermodynamic Assessment of a Solar-Driven Integrated Membrane Reactor for Ethanol Steam Reforming.
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- Molecules, 2021, v. 26, n. 22, p. 6921, doi. 10.3390/molecules26226921
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- Article
18
The Reactive Sites of Methane Activation: A Comparison of IrC 3 + with PtC 3 +.
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- Molecules, 2021, v. 26, n. 19, p. 6028, doi. 10.3390/molecules26196028
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- Article
19
Study of Partial Oxidation of Methane by Ni/Al 2 O 3 Catalyst: Effect of Support Oxides of Mg, Mo, Ti and Y as Promoters.
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- Molecules, 2020, v. 25, n. 21, p. 5029, doi. 10.3390/molecules25215029
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- Article
20
Oxidation of Dichloromethane over Au, Pt, and Pt-Au Containing Catalysts Supported on γ-Al 2 O 3 and CeO 2 -Al 2 O 3.
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- Molecules, 2020, v. 25, n. 20, p. 4644, doi. 10.3390/molecules25204644
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- Article
21
Catalytic Effect of Hydrogen Bond on Oxhydryl Dehydrogenation in Methanol Steam Reforming on Ni(111).
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- Molecules, 2020, v. 25, n. 7, p. 1531, doi. 10.3390/molecules25071531
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- Article
22
Carbon-Supported Raney Nickel Catalyst for Acetone Hydrogenation with High Selectivity.
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- Molecules, 2020, v. 25, n. 4, p. 803, doi. 10.3390/molecules25040803
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- Article
23
Nanostructured Nickel Aluminate as a Key Intermediate for the Production of Highly Dispersed and Stable Nickel Nanoparticles Supported within Mesoporous Alumina for Dry Reforming of Methane.
- Published in:
- Molecules, 2019, v. 24, n. 22, p. 4107, doi. 10.3390/molecules24224107
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- Article
24
Effect of the Operating Temperature of a Steam Methane Reforming Furnace on Structural Changes and Crack Susceptibility in Welding 800HT Nickel Alloy.
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- Metallurgist, 2023, v. 67, n. 1/2, p. 17, doi. 10.1007/s11015-023-01485-5
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- Article
25
High catalytic performance of Fe-rich palygorskite clay-supported Ni catalysts for steam reforming of toluene.
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- Clay Minerals, 2023, v. 58, n. 1, p. 67, doi. 10.1180/clm.2023.12
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- Article
26
Mathematical Modeling and Simulation of Methane Steam Reforming Membrane Reactor.
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- Theoretical Foundations of Chemical Engineering, 2023, v. 57, n. 5, p. 957, doi. 10.1134/S004057952305041X
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- Article
27
Steam Reforming of Ethane in a Membrane Reactor with a Nickel Catalyst at High Temperatures.
- Published in:
- Theoretical Foundations of Chemical Engineering, 2023, v. 57, n. 3, p. 272, doi. 10.1134/S0040579523030016
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- Article
28
Optimization of Steam Reforming of Methane in a Hydrogen-Filtering Membrane Module with a Nickel Catalyst and a Palladium-Alloy Foil.
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- Theoretical Foundations of Chemical Engineering, 2022, v. 56, n. 3, p. 279, doi. 10.1134/S0040579522030034
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- Article
29
Modeling of Steam Propane Reforming in a Catalytic Membrane Reactor at High Temperatures.
- Published in:
- Theoretical Foundations of Chemical Engineering, 2022, v. 56, n. 2, p. 170, doi. 10.1134/S0040579522020051
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- Article
30
Simulation of Steam Methane Reforming in a Membrane Reactor with a Nickel Catalyst and a Palladium Alloy Foil.
- Published in:
- Theoretical Foundations of Chemical Engineering, 2021, v. 55, n. 3, p. 390, doi. 10.1134/S0040579521030027
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- Article
31
Biofuels as a promising source of hydrogen for fuel cell power plants.
- Published in:
- Theoretical Foundations of Chemical Engineering, 2016, v. 50, n. 4, p. 351, doi. 10.1134/S0040579516040369
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- Article
32
Hydrogen production in an environmental-friendly process by application of chemical looping combustion via Ni- and Fe-Based oxygen carriers.
- Published in:
- Theoretical Foundations of Chemical Engineering, 2015, v. 49, n. 6, p. 884, doi. 10.1134/S0040579515060019
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- Article
33
Steam reforming of biogas over a Rh/AlO catalyst in an annular microreactor.
- Published in:
- Theoretical Foundations of Chemical Engineering, 2014, v. 48, n. 4, p. 376, doi. 10.1134/S0040579514040216
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- Article
34
Modeling the process of producing hydrogen from methane.
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- Theoretical Foundations of Chemical Engineering, 2013, v. 47, n. 6, p. 697, doi. 10.1134/S0040579513050163
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- Article
35
Methanol Steam Reforming on Metal–Carbon Catalysts Having Different Carbon Supports.
- Published in:
- Inorganic Materials, 2023, v. 59, n. 7, p. 729, doi. 10.1134/S0020168523070117
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- Article
36
Effects of Support Structure and Composition on the Activity of Cu–Ni Catalysts for Methanol Steam Reforming.
- Published in:
- Inorganic Materials, 2019, v. 55, n. 12, p. 1230, doi. 10.1134/S0020168519120100
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- Article
37
Ru-Containing Catalysts for Methanol and Ethanol Steam Reforming in Conventional and Membrane Reactors.
- Published in:
- Inorganic Materials, 2019, v. 55, n. 6, p. 547, doi. 10.1134/S0020168519060104
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- Article
38
Methane conversion to syngas by chemical looping on La<sub>0.8</sub>Sr<sub>0.2</sub>Fe<sub>x</sub>Co<sub>1-x</sub>O<sub>3</sub> (x = 0, 0.25, 0.50, 0.75) perovskites with CO<sub>2</sub> co-feeding.
- Published in:
- Discover Chemical Engineering, 2023, v. 3, n. 1, p. 1, doi. 10.1007/s43938-023-00033-6
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- Article
39
碳四选择加氢催化剂性能评价研究.
- Published in:
- Sino Global Energy, 2025, v. 30, n. 5, p. 76
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- Article
40
Modulation of pore structure of ZIF-8 derived carbon-based metal-free catalysts and their oxygen reduction properties.
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- Applied Chemical Industry, 2025, v. 54, n. 4, p. 833
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- Publication type:
- Article
41
甲醇重整制氢反应器的研发与仿真分析.
- Published in:
- Applied Chemical Industry, 2024, v. 53, n. 11, p. 2639
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- Publication type:
- Article
42
Preparation of Pt/MoCx and its low-temperature catalytic steam reforming of methanol to hydrogen production.
- Published in:
- Applied Chemical Industry, 2023, v. 52, n. 9, p. 2556
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- Publication type:
- Article
43
Johnson Matthey Highlights: A selection of recent publications by Johnson Matthey R&D staff and collaborators.
- Published in:
- Johnson Matthey Technology Review, 2022, v. 66, n. 3, p. 353, doi. 10.1595/205651322X16565751711856
- Publication type:
- Article
44
Discrete Simulation Model of Industrial Natural Gas Primary Reformer in Ammonia Production and Related Evaluation of the Catalyst Performance: Optimising catalyst performance and lifetime.
- Published in:
- Johnson Matthey Technology Review, 2022, v. 66, n. 2, p. 137, doi. 10.1595/205651322X16221965765527
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- Article
45
Computational demystification of iron carbonyls formation under syngas environment.
- Published in:
- NPJ Materials Degradation, 2024, v. 8, n. 1, p. 1, doi. 10.1038/s41529-024-00429-x
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- Article
46
Utilization of High Entropy Alloy (Co–Cu–Fe–Mn–Ni) and Support (CeO<sub>2</sub>) Interaction for CO<sub>2</sub> Conversion into Syngas.
- Published in:
- Advanced Sustainable Systems, 2024, v. 8, n. 11, p. 1, doi. 10.1002/adsu.202400219
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- Article
47
Process Considerations for the Production of Hydrogen via Steam Reforming of Oxygenated Gases from Biomass Pyrolysis and Other Conversion Processes.
- Published in:
- Advanced Sustainable Systems, 2024, v. 8, n. 9, p. 1, doi. 10.1002/adsu.202300241
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- Article
48
Rapid mapping of alloy surface phase diagrams via Bayesian evolutionary multitasking.
- Published in:
- NPJ Computational Materials, 2023, v. 9, n. 1, p. 1, doi. 10.1038/s41524-023-01087-4
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- Article
49
Investigation of the potential effect of encapsulated metal nanoparticles on enhancement of thermophilic anaerobic digestion.
- Published in:
- AIMS Environmental Science, 2023, v. 10, n. 6, p. 764, doi. 10.3934/environsci.2023042
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- Article
50
Air Emissions and Health Impacts of Two Hydrogen‐Based Electricity Generation Methods.
- Published in:
- Energy Science & Engineering, 2025, v. 13, n. 2, p. 643, doi. 10.1002/ese3.2024
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- Publication type:
- Article