Distillation methods: hydro, steam, hybrid 

1. Purpose of Distillation

  • Extract essential oils (agarwood oil / oud) from resin-rich wood.
  • Separate volatile aromatic compounds (sesquiterpenes and chromones) from the wood matrix.
  • Quality of oil depends on resin content, tree species, and distillation method.

2. Hydro Distillation

Description:

  • Wood chips are immersed directly in water and boiled.
  • Steam carries volatile compounds → condensed to collect oil.

Process:

  1. Place chips in a distillation vessel with sufficient water to cover them.
  2. Heat to boiling; allow vapor to pass through a condenser.
  3. Collect condensed water + oil mixture; separate oil from hydrosol.

Advantages:

  • Simple setup; widely used in traditional operations.
  • Suitable for small-scale or artisanal extraction.

Limitations:

  • Longer distillation time (24–72 hours).
  • Heat can degrade some delicate aromatic compounds.
  • Lower oil yield compared to steam or hybrid methods.

3. Steam Distillation

Description:

  • Wood chips are not immersed in water.
  • Steam is generated separately and passed through the wood to extract oil.

Process:

  1. Place resinous chips in steam chamber.
  2. Inject saturated steam through chips at controlled temperature.
  3. Condense vapor to separate oil and water (hydrosol).

Advantages:

  • Preserves delicate aromatic compounds better than hydro distillation.
  • More efficient oil extraction.
  • Temperature control reduces thermal degradation.

Limitations:

  • Requires more sophisticated equipment.
  • Risk of incomplete extraction if steam flow is uneven.

4. Hybrid / Hydro-Steam Distillation

Description:

  • Combines hydro and steam methods for maximum oil yield and quality.
  • Chips are partially immersed in water while steam is injected simultaneously.

Process:

  1. Place wood chips in hybrid distillation vessel with some water at the base.
  2. Pass controlled steam through chips while boiling water provides additional heat.
  3. Condense vapor; separate essential oil and hydrosol.

Advantages:

  • Higher oil yield than either method alone.
  • Better preservation of aroma compounds.
  • Suitable for commercial-scale production.

Limitations:

  • Requires careful control of temperature and steam pressure.
  • More complex equipment and operation.

5. Factors Affecting Oil Yield and Quality

FactorEffect
Resin contentHigher resin = higher yield & richer fragrance
Chip sizeSmaller chips = faster extraction; too small = risk of burning
Distillation timeToo short = incomplete extraction; too long = aroma degradation
Temperature & pressureMust balance for maximum yield and minimal thermal damage
Water qualityClean water avoids contamination and odor alteration

6. Best Practices

  1. Select resin-rich, graded chips (sinking or super grade) for higher oil quality.
  2. Control temperature and steam flow to preserve aromatic compounds.
  3. Avoid direct scorching or high heat to prevent loss of delicate fragrances.
  4. Separate hydrosol promptly from essential oil for proper storage.
  5. Store distilled oil in dark, airtight containers at cool temperatures to preserve quality.