Gasoline A95
Gasoline87
Heavy aromatic-Hydrocarbons
Heavy naphtha-Naphta
Heavy RPO-Rubber Processing Oil
PARS RUBBER PROCESS OIL (RPO) the highly aromatic (HA) type oil is known as distillate aromatic extract (DAE) is obtained in Pars Oil refinery as a by product during solvent extraction process of Producing lube base oils.
Applications
- As component in rubber formulations and manufacturing of products such as automobile tires, rubber shock absorber, footwear, industrial hoses, wire and cable coverings, flooring materials and carrier fluid or solvent in manufacture of adhesives, sealant, polish and carbon black
- Used as a lubricant in rubber processing
- Used as a component in ink production
Performance Features
- Excellent color stability
- Low volatility properties
- Good solubility properties
- Elastomer capability
HTN-Naphta
Hydrocarbon-Light Hydrocarbon
Hydrocarbons-Heavy Hydrocarbon
Jet fuel
Jet fuel-Jet A
Jet fuel-Jet B
Kerosene
Kerosene-KeroseneC9-C16
Light Naphtha-Naphtha
Light RPO-Rubber Processing Oil
PARS RUBBER PROCESS OIL (RPO) the highly aromatic (HA) type oil is known as distillate aromatic extract (DAE) is obtained in Pars Oil refinery as a by product during solvent extraction process of Producing lube base oils.
Applications
- As component in rubber formulations and manufacturing of products such as automobile tires, rubber shock absorber, footwear, industrial hoses, wire and cable coverings, flooring materials and carrier fluid or solvent in manufacture of adhesives, sealant, polish and carbon black
-
Used as a lubricant in rubber processing
-
Used as a component in ink production
Performance Features
-
Excellent color stability
- Low volatility properties
- Good solubility properties
- Elastomer capability
Lightends-Hydrocarbons
MDI
Mixed-Xylene
DESCRIPTION
Mixed xylenes are the second-most-important aromatic product in terms of world consumption for chemical manufacture, ranking behind benzene and ahead of toluene. Mixed xylenes refers to the equilibrium mixture of four isomers with the same C8H10 chemical formula. The isomers in order of natural occurrence are meta-xylene, ortho-xylene, para-xylene, and ethylbenzene.
Xylenes are produced with different processes. When in refineries, oil cuts enter the reforming units, aromatic compounds comprise a great proportion of the outflow material. Separating this flow into its components, accounts for more than 70 percent of global xylene supply. Also in the steam cracking process in olefin units, some quantity of Mixed Xylene is produced. In addition, disproportioning Toluene into Benzene and Xylene and treating Pyrolysis Gasoline are also different ways to produce Mixed Xylene.