Partial Oxidation
Linde is one of the leading contractors for partial oxidation plants world-wide, and its process concept cover all type of hydrocarbon feedstocks and resulting products.
More than 30 years of experience in the POX (partial oxidation) of hydrocarbon feedstocks with twelve installed plants attest to Linde's outstanding expertise in this field.
Beyond this, Linde is the only company world-wide that not only plans and installs POX plants but also operates them itself. One of the four POX plants operated by Linde is the world's largest plant with natural gas charge (200,000 Nm3/h H2+CO).
Process:
Block Diagram of a POX Plant
Example:
Gas Plant Complex in Kaoshiung, Taiwan
Process:
Feedstock:
H2
60,840 Nm³/h
CO
4,400 Nm³/h
Syngas
25,100 Nm³/h
Scope:
Start-Up:
Website Finder
Choose Website... Linde Werk Schalchen (D) Selas-Linde GmbH (D) Linde-KCA-Dresden GmbH (D) Linde Kryotechnik AG (CH) Bertrams Heatec AG (CH) Cryostar SAS (F) Linde CryoPlants Ltd. (GB) Linde Impianti Italia S.p.A. (I) Linde Engineering India Pvt. Ltd. (IND) Cryo AB (S) Linde Process Plants, Inc. (USA) Selas Fluid Proc.Corp. (USA)
Product Finder
Choose Product...
--------------------
Chemical and
Petrochemical
Plants
--------------------
Ethylene Technology
--------------------
Pyrocrack Furnace
Technology
--------------------
Ultrarec Recovery
of Olefins
--------------------
Recovery of Olefins
in Gas Feedstock
Cracking Plants
--------------------
Recovery of Olefins
in Liquid Feedstock
Cracking Plants
--------------------
Acetylene Recovery
--------------------
Catalytic
Dehydrogenation
--------------------
Polyolefin Plants
--------------------
Distillation for
Aromatics Recovery
--------------------
Hydrogen and Syngas
Plants
--------------------
Contact
--------------------
Inquiry
--------------------
Publications
--------------------
Events
--------------------
Gas Products
--------------------
Hydrogen
--------------------
Carbon Monoxide
--------------------
Synthesis Gas
--------------------
Ammonia
--------------------
Methanol
--------------------
Gas Generation
--------------------
Steam Reforming
--------------------
Partial Oxidation
--------------------
Tandem Reforming
--------------------
CO Shift Conversion
--------------------
Isothermal Reactor
--------------------
Gas Processing
--------------------
H2/CO Separation
--------------------
H2/HC Separation
--------------------
Acid Gas Removal
--------------------
Rectisol Wash
--------------------
Liquid Nitrogen
Wash
--------------------
Pressure Swing
Adsorption
--------------------
Gas Processing
Plants
--------------------
Partial
Condensation
Process and Liquid
Methane Wash
--------------------
Separation of
Hydrogen and LPG
from Refinery Fuel
Gas
--------------------
Rare Gas Processing
--------------------
Acid Gas Removal
and Sulfur Recovery
--------------------
Purge Gas Plants
--------------------
Purification &
Liquefaction of CO2
--------------------
Natural Gas
Treatment
--------------------
Condensate and LPG
Recovery
--------------------
Air Separation
Plants
--------------------
Air Separation
History
--------------------
Tonnage Air
Separation Plants
--------------------
Packaged Air
Separation Plants
--------------------
Pressure Swing
Adsorption Plants
--------------------
Inquiry Form
--------------------
Cyrogenics and
Space Cyrogenics
--------------------
Tanks for liquids,
liquid gases and
bulk material
--------------------
Biotechnological
Plants
--------------------
Process and
Refinery Furnaces
--------------------
Pyrolysis Furnaces
for Ethylene
Production
--------------------
Steam Reformers for
H2-Production
--------------------
Steam Reformers for
Syngas Production
--------------------
Special Furnaces
--------------------
Environmental
Protection Plants
--------------------
