Oil Sand Extraction

Solid-Liquid Extraction Solutions

Custom Extraction Systems for Diverse Industrial Applications

Mehar Engineering provides advanced Solid-Liquid Extraction Solutions designed to recover valuable oils, bioactive compounds, and other materials from a wide range of feedstocks. With extensive expertise in oilseed processing, solvent extraction, and industrial plant engineering, we deliver customized extraction systems that maximize recovery, improve efficiency, and ensure consistent product quality.

Every material has unique processing requirements. That’s why we offer complete project support, from laboratory testing and pilot-scale trials to full-scale commercial production plants. Our engineering team carefully evaluates each feedstock to develop the most effective extraction process, ensuring reliable performance, optimized operating costs, and long-term productivity.

Our extraction technology is suitable for processing a wide variety of raw materials, including:

  • Oil sands
  • Oily sludge
  • Spent Bleaching Earth (SBE)
  • Hemp
  • Spices
  • Herbs
  • Crushed tobacco leaves
  • Perilla seeds
  • Other oil-bearing and specialty materials

By combining advanced extraction technology with precision engineering, Mehar Engineering helps industries achieve higher extraction yields, lower solvent consumption, improved energy efficiency, and environmentally responsible operations.

Key Benefits

  • Complete turnkey solid-liquid extraction plants
  • Customized solutions for different feedstocks and industries
  • Laboratory testing, pilot-scale validation, and commercial production
  • High extraction efficiency with maximum product recovery
  • Energy-efficient and cost-effective plant design
  • Reliable, safe, and environmentally compliant operation
  • Advanced process engineering and automation
  • Complete installation, commissioning, and after-sales technical support

At Mehar Engineering, we are committed to delivering innovative Solid-Liquid Extraction Plants that improve production efficiency, maximize resource utilization, and provide reliable, long-term performance for industrial processing applications.

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