CO2 Extracted Essential Oils: A Pure and Efficient Extraction Method
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CO2 Extracted Essential Oils: A Pure and Efficient Extraction Method for Aromatic Compounds

Introduction

CO2 extraction has revolutionized the essential oil industry by providing a clean, solvent-free method that preserves the full aromatic profile of botanicals. Unlike traditional steam distillation or solvent extraction, CO2 extracted essential oils retain more terpenes, flavonoids, and delicate compounds, making them ideal for cosmetics, aromatherapy, and pharmaceuticals.

1. What Makes CO2 Extraction Ideal for Essential Oils?

  • Preserves Full Aroma Profile

  • Solvent-Free Purity

  • Low-Temperature Processing

  • Higher Yield & Selectivity

  • Eco-Friendly & Sustainable

2. How CO2 Extraction Works for Essential Oils

  • Supercritical CO2 Formation

  • Botanical Extraction

  • Separation & Purification

3. Real-World Applications

  • Lavender Oil for Cosmetics

  • Rose Oil for Luxury Perfumes

  • Peppermint Oil for Pharmaceuticals

4. Experimental Data & Performance Metrics

ParameterSteam DistillationCO2 Extraction
Yield per 100kg plant material1.5%2.2%
Terpene Preservation60%95%
Process Time4-6 hours1-2 hours
Solvent ResiduePossible traces0 ppm

Conclusion

CO2 extraction is the best method for producing high-quality essential oils with higher purity, full-spectrum aroma retention, and eco-friendly processing. Whether used for cosmetics, aromatherapy, or pharmaceuticals, the CO2 SUPERCRITICAL EXTRACTION MACHINE ensures premium-grade essential oils.

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Title: CO2 Extracted Essential Oils: The Purest & Most Efficient Extraction Method

Meta Description: Learn how CO2 extraction preserves the full aroma profile of essential oils, making it the best method for cosmetics, aromatherapy, and pharmaceuticals.

Keywords: CO2 SUPERCRITICAL EXTRACTION MACHINE, CO2 extracted essential oils, essential oil extraction, supercritical CO2 extraction, pure essential oils.

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