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Solvent Extraction | Principles, Process & Applications | Complete Guide

Solvent Extraction: Principles & Applications

Separation technique — liquid‑liquid extraction · partition coefficient · industrial uses

Solvent extraction (also called liquid‑liquid extraction) is a separation technique that exploits the differential solubility of a compound between two immiscible liquids. The desired component is transferred from one phase (usually aqueous) into an organic solvent, leaving impurities behind. It is widely applied in chemical industries, metallurgy (hydrometallurgy), pharmaceuticals, food processing, and environmental analysis.

📌 Distribution coefficient (KD) = [solute in organic phase] / [solute in aqueous phase] (at equilibrium)

Principle of Solvent Extraction

The method is based on Nernst’s distribution law: when a solute distributes itself between two immiscible solvents at constant temperature, the ratio of its concentrations in the two phases is constant (KD). The goal is to choose a solvent that preferentially dissolves the target substance. The mixture is shaken thoroughly, then allowed to separate into two layers. The solute migrates into the extracting solvent, and the phases are separated using a separatory funnel.

Organic Solvent Aqueous Layer Interface Stopcock Organic phase Aqueous phase Fig. 1: Separatory funnel – two immiscible layers
Fig. 1: In a separatory funnel, the organic solvent (less dense) forms the top layer, aqueous phase (denser) settles at the bottom. The target solute migrates into the organic phase.

Process Steps

  • 1. Mixing: The feed solution (aqueous) is mixed with an immiscible organic solvent in a separatory funnel.
  • 2. Equilibration: The mixture is shaken to allow mass transfer of the solute into the solvent phase.
  • 3. Settling: Phases separate by density difference; the lighter solvent forms the upper layer.
  • 4. Separation: The two layers are drained separately through the stopcock.
  • 5. Stripping (back‑extraction): The solute can be recovered from the solvent by another extraction with a different solvent or by evaporation.
Feed (Aqueous) + Solvent Mixing (Shaking) Settling Phase separation Organic + solute → evaporated → pure product Aqueous raffinate (waste) Fig. 2: Block diagram of solvent extraction process
Fig. 2: Overview of a typical liquid‑liquid extraction process.

Types of Solvent Extraction

🧪 Batch Extraction (Simple)

Single shake in separatory funnel. Suitable for small volumes and lab scale.

🔄 Continuous Extraction

Solvent is continuously recycled through the feed; used for large‑scale industrial processes (mixer‑settler, column extractors).

⚗️ Counter‑current Extraction

Two phases flow in opposite directions, maximizing mass transfer; used in hydrometallurgy (copper, uranium).

🧬 Solid‑Liquid Extraction (Soxhlet)

Solvent is percolated through solid material; also considered a variant (e.g., extraction of oils from seeds).

Choice of Solvent – Key Factors

  • High selectivity for the target solute.
  • Immiscibility with the original solvent (usually water).
  • Low viscosity and non‑flammable (safety).
  • Easy recovery (low boiling point).
  • Non‑toxic and cost‑effective.
  • Common solvents: diethyl ether, ethyl acetate, dichloromethane, hexane, toluene.

Applications of Solvent Extraction

  • Pharmaceutical industry: Isolation of antibiotics, vitamins, and plant alkaloids (e.g., caffeine from coffee).
  • Metallurgy (hydrometallurgy): Extraction of copper, nickel, uranium, rare earth metals from leach solutions.
  • Petrochemical industry: Removal of aromatics from lubricating oils.
  • Food industry: Extraction of oils from seeds (soybean, sunflower) and decaffeination of coffee.
  • Environmental analysis: Extraction of pollutants from water samples for GC‑MS analysis.

📝 Solvent Extraction – Quiz

1. The distribution coefficient (KD) is defined as:

2. In a separatory funnel, the denser liquid forms the:

3. Which of the following is an example of continuous extraction?

4. Decaffeination of coffee uses solvent extraction. Which solvent is commonly used?

5. The most important property of a good extraction solvent is:

🎥 Complete Lecture: Solvent Extraction (Urdu/Hindi)
📥 Download Complete Notes (PDF)

Detailed notes including distribution law, extraction efficiency calculations, and industrial flow sheets.

© 2025 — Complete guide to Solvent Extraction. Principles, diagrams, applications, quiz, and video lecture. No simulation — only static explanatory diagrams.

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