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Bio-Ethylene (MEG)
Bio-Ethylene (MEG) - Image 2
Bio-Ethylene (MEG) - Image 3

Bio-Ethylene (MEG)

Plant-based ethylene glycol derived entirely from renewable sources

Its composition, quality, and properties are identical to
standard ethylene glycol.
However, its carbon footprint is
70% lower compared to newly produced fossil-based ethylene glycol.

IUPAC name: Ethane-1,2-diol
Synonyms: Monoethylene glycol; MEG; Ethanediol; Ethylene glycol
EC No.: 203-473-3
CAS No.: 107-21-1
Molecular formula: C₂H₆O₂
REACH registration number: 01-2119456816-28

Open dilution calculator

SKU N/A Categories , ,
Ajánlatkérés

Description

  • High-purity technical antifreeze fluid used in building engineering, heat recovery systems, and as a coolant in vehicles.
  • In industrial environments, ethylene glycol is more widely used due to its lower purchase cost, lower viscosity resulting in reduced operating costs (lower pump consumption), and superior heat transfer properties.
  • Ethylene glycol is toxic and classified as a hazardous substance under REACH regulations, therefore its use requires increased attention to workplace safety.

Specification

  • Freezing point: -70 °C
  • Boiling point: 197.3 °C
  • Density: 1.1132 g/cm³
  • Viscosity: 16.1 mPa·s
  • The freezing point is not directly proportional to dilution.
  • A mixture of 1 part water and 1 part ethylene glycol has a freezing point of -37 °C.
  • Excellent corrosion resistance and high thermal stability.
  • Recommended replacement interval: 2–3 years.

General Applications

  • Chemical raw material
  • Heat transfer medium
  • Coolant mixtures
  • De-icing agents
  • Polymer fiber production
  • Paint industry
  • Detergent manufacturing
  • Metal processing
  • Agrochemicals
  • Water treatment
  • Lubricants
  • Use of propylene glycol is not recommended in systems designed for ethylene glycol, as its higher viscosity may alter pump performance and reduce cooling capacity.

Sustainability Summary

Most Common Production Process

Lignocellulosic biomass
Energy crops
➡️
Hydrolysis
Sugars
➡️
Fermentation
Glycolic acid
➡️
Fractional distillation
Standard ethylene glycol

Life Cycle Assessment (LCA) – per 1 ton (T)

  • 🌱 Based on the Ecoinvent database and ISO 14040/14044 standards (from raw material extraction to the end of the production process)
  • 🌍 Carbon footprint: ≈ 500 kg CO₂ eq/T, equivalent to approximately (US EPA data): ~2048 km driven (car), ~213 liters of gasoline consumed, ~251 kg of coal burned, ~0.8 months of energy use for an average European household, ~1.2 barrels of crude oil burned
  • ♻️ Offset requirement: ≈ growth of 8 tree saplings over 10 years, ≈ carbon sequestration capacity of 0.25 hectares of forest per year

Life Cycle

Crop cultivation
Crop cultivation
Production process
Production process
Transport – logistics
Transport – logistics
Use
Use
Disposal / leakage
Disposal / leakage
Packaging

1000 L IBC tank, 20 L canister, 200 L drum, 600 L IBC tank

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