Description
The Westfalia CA 505-29-10 extraction decanter is a robust piece of equipment designed for efficient separation processes in various industrial applications. This specific unit, with Serial Number 1705459, features a maximum bowl speed of 3100 RPM and is rated for a flow capacity of 150 GPM. The decanter is equipped with a pressure discharge design, which facilitates effective material handling and enhances operational efficiency. The construction of the decanter is primarily 316 stainless steel, providing excellent corrosion resistance and durability, making it suitable for demanding environments.
This model is powered by a 90 kW motor operating at 380V/3/50 Hz, ensuring reliable performance during continuous operation. The decanter also includes a cyclo gearbox, which contributes to the smooth operation of the machine. Additionally, it features an 18.5 kW backdrive system that aids in maintaining optimal performance under varying load conditions. The unit is mounted on a stand, which allows for easy integration into existing production lines. The inclusion of a lube system, feed tube, guards, and a control panel further enhances the usability and safety of the equipment.
Primary Use
Used for separating solids from liquids in various industrial processes.
Technical Specifications
- Bowl Speed: 3100 RPM
- Flow Rate: 150 GPM
- Motor Power: 90 kW
- Voltage: 380V/3/50 Hz
- Backdrive Power: 18.5 kW
- Construction Material: 316 Stainless Steel
- Conveyor Type: 6" Single Lead Hardsurfaced
- Year of Manufacture: 1993
- Gearbox Type: Cyclo
- Condition: Very Good
Key Features
- Bowl Speed
- Motor Specifications
- Conveyor Design
- Gearbox Type
- Safety Features
Applications
- Oil and grease separation
- Wastewater treatment
- Food processing
- Chemical processing
- Pharmaceutical manufacturing
Product Details
The Westfalia CA 505-29-10 features a durable 316 stainless steel construction, ensuring resistance to corrosion and wear. Its design includes a pressure discharge system and a hardsurfaced conveyor, which contribute to its efficiency in material handling.
