PRO25D Digital Homogenizer

Overview The PRO25D homogenizer has a wide volume range with a processing capability up to 3.5 Liters*. Its digital display & speed control provides the ability to fine-tune speeds between 0 to 30,000 RPM, allowing its speed adjustment to be precisely controlled throughout the entire speed range. The versatile and powerful PRO25D Homogenizer is ideal for a wide range of lab applications, including but not limited to compounding, emulsions and suspensions, cell disruption, protein extractions, medical research or pharmaceutical processing. PRO generator probe range in diameter from 5mm to 30mm, it can process samples from 0.05ml to 3.5L (higher volumes dependent on viscosity*). Requires a generator probe to use. Generator probe sold separately. Stand is included with the Homogenizer. PRO Homogenizing Equipment is made in the USA. *Viscous samples will reduce max capacity. Adding a Deflector Head to your Generator Probe will facilitate movement of your sample during homogenization and help increase max volume homogenization. PLEASE NOTE: The PRO25D Digital Homogenizer requires a PRO Quick Connect generator probe or Multi-Gen adapter and generator probe for homogenizing. These items are sold separately. Features: Compact digital unit with high watt motor 0.05ml - 3.5L volume range Viscosity up to 50,000 mPas Bright LED display & user-friendly controls Homogenize, emulsify, blend and/or mix Includes U-shape Stand Assembly Made in the USA with a 2-year warranty Generator probe not included Key Attributes  Homogenizer Type Rotor-Stator Sample Throughput 1 sample Sample Volume (min) 50 µl Sample Volume (max) 3.5 l Usage / Placement Handheld / Benchtop Cooling No Warranty 2 years Noise Level 68 db Weight 18 lb Width 14" Depth 12" Height 24"   Manufacturer Specifications Volume Processing Range: 0.05ml - 3.5L*Power Rating: 576 WattsRPM Range: 0 - 30,000 (120V) / 0 - 28,000 (220V)Speed Control: Digital; Variable SpeedNoise rating: 68 dBWeight: 18 poundsDim. with Stand: 14 X 12 X 24 in.*Higher volumes dependent on viscosity