Diethylene Glycol (DEG)
2,2'-Oxybis(ethanol)
What is Diethylene Glycol (DEG)?
Diethylene Glycol (DEG), with the chemical formula C4H10O3, is a colorless and odorless liquid. A member of the glycol family, this compound is non-volatile and hygroscopic.
- It is miscible with many organic solvents as a solvent.
- It is a basic raw material in the production of plastics, resins, and polyurethane.
- Used in antifreeze formulations to lower the freezing point.
Although DEG is a highly useful compound in industry, it can exhibit toxic effects at high doses. For this reason, safety regulations must be strictly adhered to during storage and use.
Diethylene Glycol (DEG) Properties
|
Property |
Explanation |
|
Physical State |
Colorless, odorless liquid |
|
Chemical Formula |
C4H10O3 |
|
Molecular Weight |
106.12 g/mol |
|
Packaging Type |
Barrel / IBC / Tanker |
|
Chemical Class |
Aliphatic alcohol derivative |
|
Other Features |
Hygroscopic, miscible with many organic solvents |
In Which Industries Is Diethylene Glycol (DEG) Used?
- Polyester Resins:
DEG is used as a precursor in the production of polyester resins. These resins are used in a wide variety of products such as textiles, carpets, and curtains. - Plastics (PET):
PET is an important raw material in the production of plastics. It is used for beverage bottles, food packaging, and consumer goods. - Solvents:
They act as solvents in paints, inks, and coatings. They are also found in perfumes, lotions, and other cosmetic products. - Antifreeze:
Used as an additive in automotive coolants to prevent freezing and evaporation. - Other Industries:
Used as a moisture retainer in paper production, an excipient in pharmaceutical formulations, and a moisture balancer in cigarette production.
How is Diethylene Glycol (DEG) Produced?
- Hydration of Ethylene Oxide:
- Ethylene oxide reacts with water under high temperature and pressure.
- The reaction produces various glycols, including MEG (Monoethylene Glycol) and DEG.
- Product Separation (Distillation):
- The mixture obtained is separated by distillation because they have different boiling points.
- Thus, DEG is obtained in pure form from other glycols.
- Purification:
- In the final stage, various purification processes are applied to produce high-purity DEG.
This method is the most widely used ethylene oxide hydration process on an industrial scale.