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HD-DFV010
HAIDE
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1. Valve body material and surface treatment
Valve body material: Made of 316L stainless steel, it has good corrosion resistance, high temperature resistance, and mechanical properties.
Surface treatment: The surface of the valve body is polished with a mirror finish, with a roughness of 0.2-0.45 μ m, ensuring cleanliness and sterility.
2. Diaphragm design
Diaphragm material: EPDM (ethylene propylene diene monomer) or PTFE (polytetrafluoroethylene) composite membranes are usually used, which have good corrosion resistance and high temperature resistance.
Double membrane structure: Some models adopt a double membrane design, with PTFE membrane being more resistant to corrosion and high-temperature steam disinfection.
3. Multi port design
Double head structure: With two outlets, it can achieve multi-directional control of medium flow, suitable for complex process flows.
4. Sealing performance
No dead corners design: The internal structure of the valve body is smooth and free of dead corners, avoiding medium retention and bacterial growth, making it easy to clean and disinfect.
Good sealing performance: The diaphragm is tightly attached to the valve body cavity, closing the flow channel through the pipeline to ensure no leakage.
5. Operation and maintenance
Manual operation: The valve is controlled by manually rotating the handle or handwheel, which is easy to operate and suitable for situations that do not require frequent operation.
Easy to disassemble design: Compact structure, easy to disassemble and maintain, suitable for installation in narrow spaces.
CIP/SIP compatibility: Supports in situ cleaning (CIP) and in situ disinfection (SIP), meeting hygiene requirements.
6. Connection method
Multiple connection methods: Provides various connection methods such as clamps, welding, flanges, etc., which can be selected according to actual needs.
7. Application advantages
No residual emissions: The valve design ensures that there are no dead corners or residues in the discharge of materials, making it particularly suitable for tank bottom discharge.
Self purification function: Adopting a 35 degree installation orientation, the material discharge has self purification function.
1. Food industry
Dairy production: used for the discharge of ingredient tanks, fermentation tanks, and other products such as milk and yogurt, ensuring complete emptying of materials without residue.
Beverage manufacturing: used in beverage production lines to control the flow of liquids such as syrup and juice, meeting sterile and hygienic requirements.
Beer brewing: used for discharging materials from beer fermentation tanks and storage tanks to ensure the purity of beer.
2. Pharmaceutical industry
Reaction tank discharge: In pharmaceutical production, it is used for the bottom discharge of reaction tanks and liquid storage tanks to ensure complete emptying of materials and improve the utilization rate of raw materials.
Aseptic fluid transportation: used for fluid transportation in the production process of sterile drugs, meeting hygiene standards such as GMP.
CIP/SIP system: supports in situ cleaning (CIP) and in situ disinfection (SIP) to ensure equipment cleanliness and sterility.
3. Biotechnology field
Biological product production: used for discharging materials from bioreactors and fermentation tanks to ensure sterility and hygiene in the production process.
Vaccine production: Used to control the flow of fluids and ensure a clean production environment during the vaccine production process.
4. Cosmetics industry
Emulsification tank discharge: used for discharging cosmetics emulsification tanks, ensuring that the materials are free of residue and meet hygiene requirements.
5. Fine chemical industry
Reaction vessel discharge: Used for discharging reaction vessels in fine chemical production to ensure complete emptying of materials and avoid cross contamination.
6. Other applications
Water production equipment: used for the transportation and distribution of purified water (PW) and water for injection (WFI).
Aseptic filter: used to control the flow of fluids during aseptic filtration process.
1. Valve body material and surface treatment
Valve body material: Made of 316L stainless steel, it has good corrosion resistance, high temperature resistance, and mechanical properties.
Surface treatment: The surface of the valve body is polished with a mirror finish, with a roughness of 0.2-0.45 μ m, ensuring cleanliness and sterility.
2. Diaphragm design
Diaphragm material: EPDM (ethylene propylene diene monomer) or PTFE (polytetrafluoroethylene) composite membranes are usually used, which have good corrosion resistance and high temperature resistance.
Double membrane structure: Some models adopt a double membrane design, with PTFE membrane being more resistant to corrosion and high-temperature steam disinfection.
3. Multi port design
Double head structure: With two outlets, it can achieve multi-directional control of medium flow, suitable for complex process flows.
4. Sealing performance
No dead corners design: The internal structure of the valve body is smooth and free of dead corners, avoiding medium retention and bacterial growth, making it easy to clean and disinfect.
Good sealing performance: The diaphragm is tightly attached to the valve body cavity, closing the flow channel through the pipeline to ensure no leakage.
5. Operation and maintenance
Manual operation: The valve is controlled by manually rotating the handle or handwheel, which is easy to operate and suitable for situations that do not require frequent operation.
Easy to disassemble design: Compact structure, easy to disassemble and maintain, suitable for installation in narrow spaces.
CIP/SIP compatibility: Supports in situ cleaning (CIP) and in situ disinfection (SIP), meeting hygiene requirements.
6. Connection method
Multiple connection methods: Provides various connection methods such as clamps, welding, flanges, etc., which can be selected according to actual needs.
7. Application advantages
No residual emissions: The valve design ensures that there are no dead corners or residues in the discharge of materials, making it particularly suitable for tank bottom discharge.
Self purification function: Adopting a 35 degree installation orientation, the material discharge has self purification function.
1. Food industry
Dairy production: used for the discharge of ingredient tanks, fermentation tanks, and other products such as milk and yogurt, ensuring complete emptying of materials without residue.
Beverage manufacturing: used in beverage production lines to control the flow of liquids such as syrup and juice, meeting sterile and hygienic requirements.
Beer brewing: used for discharging materials from beer fermentation tanks and storage tanks to ensure the purity of beer.
2. Pharmaceutical industry
Reaction tank discharge: In pharmaceutical production, it is used for the bottom discharge of reaction tanks and liquid storage tanks to ensure complete emptying of materials and improve the utilization rate of raw materials.
Aseptic fluid transportation: used for fluid transportation in the production process of sterile drugs, meeting hygiene standards such as GMP.
CIP/SIP system: supports in situ cleaning (CIP) and in situ disinfection (SIP) to ensure equipment cleanliness and sterility.
3. Biotechnology field
Biological product production: used for discharging materials from bioreactors and fermentation tanks to ensure sterility and hygiene in the production process.
Vaccine production: Used to control the flow of fluids and ensure a clean production environment during the vaccine production process.
4. Cosmetics industry
Emulsification tank discharge: used for discharging cosmetics emulsification tanks, ensuring that the materials are free of residue and meet hygiene requirements.
5. Fine chemical industry
Reaction vessel discharge: Used for discharging reaction vessels in fine chemical production to ensure complete emptying of materials and avoid cross contamination.
6. Other applications
Water production equipment: used for the transportation and distribution of purified water (PW) and water for injection (WFI).
Aseptic filter: used to control the flow of fluids during aseptic filtration process.
