Products & Services
See also: Categories | Featured Products | Technical Articles | More Information-
Supplier: SAE International
Description: paper has an advantage over hydrogen production from conventional steam reforming because CLR can use complex, low value, waste oils. Also, because the process is scalable to small and medium size, hydrogen can be produced close to where it is required, minimizing transport costs.
-
Supplier: Saint-Gobain NorPro
Description: Denstone® 99 high-alumina support media are 99+% alpha alumina and a maximum of 0.2 wt% SiO2. This high degree of purity makes Denstone 99 alumina balls ideal for high-temperature systems with an influx of steam such as secondary reformers in ammonia plants where leached silica
- Applications: Specialty / Other
- Ball Type: Ceramic Balls
- Diameter / OD: 0.1181 to 2.95 inch
-
Supplier: Saint-Gobain NorPro
Description: Denstone® 99 high-alumina support media are 99+% alpha alumina and a maximum of 0.2 wt% SiO2. This high degree of purity makes Denstone 99 alumina balls ideal for high-temperature systems with an influx of steam such as secondary reformers in ammonia plants where leached silica
-
-
Supplier: Saint-Gobain Innovative Materials
Description: Denstone® 99 high-alumina support media are 99+% alpha alumina and a maximum of 0.2 wt% SiO2. This high degree of purity makes Denstone 99 alumina balls ideal for high-temperature systems with an influx of steam such as secondary reformers in ammonia plants where leached silica
- Applications: Specialty / Other
- Ball Type: Ceramic Balls
- Diameter / OD: 0.1181 to 2.95 inch
-
Supplier: SAE International
Description: for two general cases. Compare fuel processors with different designs (e.g., catalytic partial oxidation reforming, autothermal reforming or steam reforming) on a common basis where no specific fuel cell system design has been identified. Assess the performance of a
-
Supplier: SAE International
Description: for two general cases. Compare fuel processors with different designs (e.g., catalytic partial oxidation reforming, autothermal reforming or steam reforming) on a common basis where no specific fuel cell system design has been identified. Assess the performance of a
Find Suppliers by Category Top
Featured Products Top
-
TWTs, but particularly the advantages of high resolution imaging.” Maintaining a consistent and optimal temperature in steam reformer furnaces with accurate and regular temperature monitoring of the catalyst-containing tubes is crucial to controlling the reforming reaction (read more)
Browse Thermal Imagers Datasheets for LAND -
, Jason dives into the system's proven applications in crucial processes like steam methane reforming, ethylene cracking, and more. Discover how the system's extended borescope reach allows for unparalleled insights, like detecting early catalyst poisoning to prevent costly downtime (read more)
Browse Thermal Imagers Datasheets for LAND -
“SMRs, widely used in hydrocarbon processing applications, are the predominant hydrogen production route for ammonia synthesis. The process requires combustion to heat the reaction tubes, converting methane and steam – via a catalyst – into hydrogen. However, much of this (read more)
Browse Thermal Imagers Datasheets for LAND
Conduct Research Top
-
Online Gas Analysis in Ammonia Plants
Ammonia is used in the production of a variety of products including fertilizer, nitric acid, nylon, pharmaceuticals, and refrigerant. Production of ammonia (NH3) is a two step process. The first step is to produce hydrogen(H2) by reacting natural gas or methane (CH4) with steam in a reformer
-
Process Gas Monitoring in Petroleum Refineries
acid, nylon, pharmaceuticals, and refrigerant. Production of ammonia (NH3) is a two step process. The first step is to produce hydrogen (H2) by reacting natural gas or methane (CH4) with steam in a reformer. The second step is to react hydrogen with nitrogen (N2) in a 3 : 1 ratio over
-
High Rate and High Efficiency Hydrogen Generation via Water Electrolysis Catalyzed by Nano Powders (.pdf)
Over 90% of all hydrogen used today is made from steam-reformed petroleum. This process produces greater than 5 kg of carbon dioxide for each kg of hydrogen if using methane and even more if using natural gas. Hydrogen made from this process is about 70% energy efficient and costs about $4.50 per
More Information Top
Indicates content that may require registration and/or purchase.
-
Catalysis for Alternative Energy Generation
(1996) Characterization studies of calcined, promoted and non- promoted methanol- steam reforming catalysts .
-
Hydrogen and Syngas Production and Purification Technologies
It has been reported that all currently available steam reforming catalysts promote carbon formation to different extents.
-
Fuel Processing
The effectiveness of the utilisation of nickel steam reforming catalysts for industrial processes was calculated to about 20% by Christensen [81].
-
Final Report for "Investigation of reaction networks and active sites in bio-ethanol steam reforming over Co-based catalysts" with all publications attached.
The Co-based systems that incorporate oxides with high oxygen mobility could deliver the required characteristics needed for active and stable ethanol steam reforming catalysts .
-
Progress in Clean Energy, Volume 2
(1999) Deactivation of steam reforming catalysts by sintering: experiments and simulation.
-
Enriched Methane
Low Temperature Steam Reforming Catalysts for Enriched Methane Production . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
-
Computational heterogeneous catalysis applied to steam methane reforming over nickel and nickel/silver catalysts
Steam Reforming Catalysts .
-
Small Scale Gas-to-Liquids Technology
A gas stream of nitrogen, unreacted light hydrocarbons, hydrogen, and carbon monoxide is then reacted with steam and carbon dioxide in the presence of a steam reforming catalyst .
-
Production of Hydrogen from Renewable Resources
The concept proposed by the authors aimed at preserving the steam reforming catalyst operating lifetime by including a low-cost primary reforming catalyst (olivine) that could prevent the Ni-based catalyst in the second- ary reformer from rapid deactivation by coke formation.
-
Methanol: The Basic Chemical and Energy Feedstock of the Future
All commercially applied steam reforming catalysts are based on nickel as the catalytically active component.