Solid - Liquid Separator for Raw Pulp/Cooked Pulp/Juice
Product Introduction
- Energy Consumption
- Cooked Pulp Separation: The cooked pulp separator usually requires higher energy consumption because the cooked pulp has higher viscosity and is more difficult to separate by filtration methods, so additional thermal energy is often needed for assistance.
- Raw Pulp Separation: Since the raw pulp does not need a heating step, its energy consumption is relatively low. The raw pulp process directly separates the crushed raw materials, avoiding energy waste during the cooking process.
- Yield
- Cooked Pulp Separation: The output of the cooked pulp separation is relatively high, and the protein extraction rate is higher.
- Raw Pulp Separation: The output of the raw pulp separation is low, but the content of pure protein is low.
Pipeline Transportation Function
- High Degree of Automation: The pipeline transportation system realizes the automatic transportation of materials, reducing the need for manual handling of materials. This not only reduces labor intensity but also improves production efficiency.
- Continuous Production: Through pipeline transportation, continuous production process can be realized, avoiding production interruptions caused by untimely material transfer, and ensuring the smooth progress of production.
CIP Cleaning Function
The CIP (Clean - In - Place) cleaning function can complete cleaning work without disassembling equipment, which greatly improves cleaning efficiency.
The Combined Use of Microporous Membrane and Skeleton Vacuum
During the extrusion process, the microporous part will not be damaged. The combination design of the microporous membrane and skeleton vacuum is the core of this design, aiming to enhance the stability and toughness of the microporous membrane. During the extrusion process, due to the existence of the skeleton, the microporous membrane gets effective support and protection. The skeleton structure can bear external pressure, preventing the microporous membrane from being deformed or damaged due to extrusion. At the same time, the vacuum cooperation further enhances the binding force between the microporous membrane and the skeleton, ensuring that the microporous part will not be damaged during the extrusion process.