Pilot Scale Rotary Evaporator FM-PRE-A107 delivers a rotation speed of up to 120 rpm and is equipped with a 50-liter evaporation flask, making it ideal for large-scale solvent recovery in industrial and laboratory settings. Constructed from durable borosilicate glass, it ensures reliable performance during demanding distillation processes. An integrated electric lift enables smooth, hands-free adjustment of the rotating flask, improving user safety and workflow efficiency.
$4,033.00
| Evaporating flask | 50 L |
| Receiving bottle | 20 L (with discharge valve) |
| Rotation speed | 0 to 120 rpm |
| Temperature range | RT to 180°C |
| Temperature accuracy | ±1°C |
| Vacuum degree | 0.098 MPa |
| Lifting distance | 180 mm |
| Bath volume | 76 L |
| Heating power | 8000 W |
| Rotating motor power | 180 W |
| Overall power | 8180W |
| Power supply | 220 to 240 V, 50 Hz |
| Dimensions (W × D × H) | 1330 × 730 × 2340 mm |
| Weight | 119.5 kg (82 + 37.5kg ) |
1: Is Pilot Scale Rotary Evaporator FM-PRE-A107 certified for hazardous lab environments?
Yes, Pilot Scale Rotary Evaporator FM-PRE-A107 includes explosion-proof motor components, sealed controls, and anti-spark protection for safe operation in flammable atmospheres.
2: What applications require this explosion-proof model?
It’s ideal for labs or facilities handling volatile solvents, including pharmaceutical distillation, petrochemical R&D, and pilot production.
3: How does the Pilot Scale Rotary Evaporator FM-PRE-A107 ensure thermal and operational safety?
Pilot Scale Rotary Evaporator FM-PRE-A107 integrates a thermal cutoff system, vacuum regulation, and automated lifting to support continuous, stable use with minimal risk.
Pilot Scale Rotary Evaporators are designed to support high-volume solvent evaporation under controlled vacuum conditions. They are built to handle evaporation capacities ranging from 10 to 50 liters, making them suitable for demanding applications. With electric lift mechanisms and intuitive digital controls, they offer precise, user-friendly operation. These systems maintain excellent thermal stability and efficient condensation through advanced sealing and glassware design. Reliable and performance-driven, they are ideal for pharmaceutical production, chemical synthesis, and large-scale laboratory use.