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Overview
Molecular Distillation Unit LMMDU-A110 has feeding rate of 20 to 100 L/h with 100 L tank capacity. Its robust construction provides resistance to corrosion and chemicals. Equipped with full jacket insulation, it prevents heat loss and ensures consistent material flow without blockages. Integrates durable frequency conversion motor for continuous operation. Our Distiller separates and concentrates medicines and petroleum products.
Features :
High heat transfer
Auto feeding and discharging
Preheating feed tank
Magnetic coupling seal
External condenser
Cooling system compatibility
Multi-stage vacuum pump
Specifications :
| Feeding Rate | 20 to 100 L/h |
| Feeding Flask Volume | 100 L |
| Operating Temperature | Less than or equal to 350°C |
| Vacuum Level | Less than or equal to 0.01 millibar |
| Material | Stainless steel 316L |
| Evaporation Area | 2 m² |
| Power Supply | 220V/50Hz,1P |
| Dimensions | 4200×1550×4650mm |
Applications :
Molecular Distillation Unit LMMDU-A110 is commonly employed in chemical, pharmaceutical, food, beverage, and petroleum industries to separate, purify, and concentrate polymers, medicines, dairy, juices, syrups, lubricants, and solvents.
Selection Guide :
Molecular Distillation Unit LMMDU-A110 is a high-capacity system designed for the efficient separation and purification of heat-sensitive and high-boiling-point substances in both research and industrial applications. With a feeding rate of 20 to 100 L/h and a 100 L feeding flask, it supports large-scale processing while maintaining product integrity. The unit operates at temperatures up to 350°C and achieves a vacuum level of ≤ 0.01 millibar, enabling effective molecular separation with minimal thermal degradation. It is widely used in pharmaceutical development, cannabinoid extraction, essential oil purification, fine chemicals, and cosmetic industries where high purity and recovery are essential. The system complies with international standards and is CE and GMP certified, making it suitable for regulated environments and advanced research experiments requiring precision, scalability, and reliability.