Hydrocarbon Reforming: Difference between revisions
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=Internal Links= | =Internal Links= | ||
*[[Methane Pyrolysis]] (Similar Concept, but carbon and hydrogen are produced) | |||
*[[Kværner process]] | |||
*[[Pyrolysis]] and [[Gasification]] (similar products, different feedstocks) | *[[Pyrolysis]] and [[Gasification]] (similar products, different feedstocks) | ||
*[[Catalytic Reforming]] (Similar Name, but is used for Hydrocarbon Upgrading, Not Syngas Production) | *[[Catalytic Reforming]] (Similar Name, but is used for Hydrocarbon Upgrading, Not Syngas Production) | ||
Latest revision as of 03:22, 7 July 2021
Basics
- This is the chemical reacting via various methods of mainly Lighter Hydrocarbons (Most often Methane , but Butane and Propane (And thus potentially LPG ? have been shown to work as well etc) (add citations from other tabs) ) to produce Syngas
- If combined with the Water Gas Shift Reaction it can produce mostly Hydrogen as well
Methods
Steam Reforming
- One of the most common methods
- The reaction is typically conducted with a high pressure mixture of steam and methane are put into contact with a nickel catalyst
- Can also be called "steam methane reforming" and thus abbreviated as SMR (not to be confused with Small Modular Reactor)
Carbon Dioxide Reforming
- Also known as "Dry Reforming" (similar to "Dry Ice" meaning solid co2 )
- Is challenging as the hydrogen that is produced tends to react with the carbon dioxide
- Uses noble metal catalysts and/or nickel
- More sources needed on this; much less straigforeward than steam reforming
Partial Oxidation
- Abbreviated as POX
- Uses a lean air mix to produce syngas
- Can be thermal where it is essentially just a standard lean flame (TPOX), or catalytic (CPOX)where the temperature is lowered via catalysts
- Has issues with soot and water vapor buildup suppsoedly (dump sources here)
Autothermal reforming
- Autothermal reforming (ATR) uses both oxygen, and carbon dioxide or steam in a reaction with methane to form syngas
- Thus can be varied:
- The required H2/CO ratio is provided by manipulating the carbon dioxide or steam
Internal Links
- Methane Pyrolysis (Similar Concept, but carbon and hydrogen are produced)
- Kværner process
- Pyrolysis and Gasification (similar products, different feedstocks)
- Catalytic Reforming (Similar Name, but is used for Hydrocarbon Upgrading, Not Syngas Production)
- Chemical Looping Reforming
External Links
- The Wikipedia Page on Methane Reformers (seems to be wikipedia's most comprehensive page on this subject)
- The Wikipedia Page on Steam Reforming
- The Wikipedia Page on Carbon Dioxide Reforming
- The Wikipedia Page on Partial Oxidiation
- The Wikipedia Page on Autothermal Reforming (note that it doesn't have it's own page, another reason for me to get a wikipedia account...)
- A Science Direct Page/Search on Syngas (Good info on details of production)
- A Science Direct Page/Search on Syngas (Good info on reactor design)
- A 2010 Paper Titled "Hydrogen production from butane steam reforming over Ni/Ag loaded MgAl2O4 catalyst"
- A 2010 Paper Titled "Steam reforming of propane in a fluidized bed membrane reactor for hydrogen production"
- A 2014 Paper Titled "Numerical study on soot removal in partial oxidation of methane to syngas reactors"
- "Reference Data and Supporting Literature Reviews for SMR Based Hydrogen Production with CCS