Why It Matters
Glycol injection, thermodynamic inhibitors, and dehydration optimization
Solution Approach
Glycol injection, thermodynamic inhibitors, and dehydration optimization RawSource supplies the base chemicals that go into these programs. We can help with product selection, grade matching, and sourcing from multiple origins for supply security.
Typical Treatment Workflow
1
System Assessment
Characterize operating conditions—fluid composition, temperature, pressure, flow rates—and benchmark current treatment performance.
2
Chemistry Selection
Match base chemicals to your operating envelope. Factor in compatibility with existing programs, regulatory constraints, and downstream impacts.
3
Dosage & Delivery
Determine optimal treat rates through jar testing or field trials. Configure packaging (drums, totes, ISO tanks) to match consumption and storage logistics.
4
Monitoring & Adjustment
Track KPIs—coupon rates, residuals, separator performance, water quality. Adjust chemistry and dosage as conditions change.
Recommended Chemistries (4)
Ethylene Glycol
CAS 107-21-1
Glycols & Polyols
Dehydration / hydrate inhibition
Thermodynamic inhibitor that lowers the hydrate formation temperature and is recoverable/regenerable in injection loops
Melting Point: -13 °C Boiling Point: 198 °C at 760 mmHg Density: 1.115 at 20 °C
Full Details
Triethylene glycol (TEG)
CAS 112-27-6
Glycols & Polyols
Primary gas dehydration solvent
Primary gas-dehydration solvent: absorbs water vapor in the contactor to hit pipeline dewpoint
Melting Point: -4 °C Boiling Point: 285 °C at 760 mmHg Density: 1.125 at 20 °C
Full Details
Methanol
CAS 67-56-1
Solvents
Hydrate inhibition
1230 (METHANOL) · Class Low-cost thermodynamic hydrate inhibitor for spot/seasonal injection
Melting Point: -98 °C Boiling Point: 65 °C at 760 mmHg Density: 0.792 at 20 °C
Full Details
Diethylene glycol (DEG)
CAS 111-46-6
Glycols & Polyols
Solvency
Intermediate glycol for dehydration and hydrate suppression duty
Melting Point: -10 °C Boiling Point: 245 °C at 760 mmHg Density: 1.118 at 20 °C
Full Details