China Pharmaceutical Manufacturing Heat Exchanger Plates For Industrial Needs for sale

Pharmaceutical Manufacturing Heat Exchanger Plates For Industrial Needs

Price Negotiable

Price: 50 - 500pieces $18-$27

MOQ: 10pcs

Delivery Time: 15-20 days

Brand: Victory

Product Description

Product Description

Pharmaceutical Manufacturing Heat Exchanger Plates for Industrial Needs

Heat Exchanger Plates

Our Pharmaceutical Manufacturing Heat Exchanger Plates are specifically designed to meet the stringent requirements of the pharmaceutical industry, providing efficient heat transfer solutions for a wide range of industrial needs.

Key Features:

Hygienic Design: These heat exchanger plates are constructed with materials that comply with pharmaceutical industry standards, ensuring cleanliness and sterility in manufacturing processes.
Sanitary Connections: The plates are equipped with sanitary connections and surfaces to prevent contamination and maintain the integrity of pharmaceutical products.
High Thermal Efficiency: Engineered for high thermal efficiency, these plates facilitate precise temperature control in pharmaceutical manufacturing operations.
Customizability: The plates can be customized to accommodate specific pharmaceutical processes and requirements, offering tailored solutions for various applications.
Corrosion Resistance: Built with corrosion-resistant materials, the plates ensure durability and reliability in pharmaceutical manufacturing environments.
Compliance and Certifications: Our heat exchanger plates meet industry regulatory standards and certifications to ensure adherence to quality and safety guidelines.

applications.

Brand

Model

VT04,VT10,VT20,VT40,VT80,VT405,VT2508,N40,FA184,NT50,NT100T,NT100M

NT100X,NT150S,NT150L,NT250S,NT250M,NT250L,NT350S, NT350M,NT500

Material	Specification
Stainless Steel	SUS304 316 316L 310S 904
Titanium and titanium-palladium alloy	TAi TAi-Pd
Hastelloy	C276 D205 B2G
Nickel	Ni200 Ni201
Molybdenum	254

Products are mainly suitable for ACCESSEN/GEA (Kelvion)/ APV/ Sondex/ Tranter/ Hisaka/ API/ Funke/ Vicarb/ Mueller/ SWEP/ Fischer/ AGC/ Thermalwave/ ITT/ LHE/ DHP, etc.

Applacations

Plate material	Suitable for fluids
Stainless steel (SUS304.316, etc.)	Purified water, river water, edible oil, mineral oil
Titanium and titanium palladium (Ti, Ti-Pd)	Sea water, salt water, salt compounds
20Cr,18Ni,6Mo(254SMO)	Dilute sulfuric acid, dilute salt aqueous solution, inorganic aqueous solution
Nickel (Ni)	High temperature, high concentration caustic soda
HASTELLOY alloy (C276, D205, B2G)	Concentrated sulfuric acid, hydrochloric acid, phosphoric acid

Plate heat exchanger plate thickness configuration

AISI 304 is usually 0.4 or 0.5 mm thickness
AISI 316 is always 0.5 and 0.6 mm
254 SMO (high alloy) typically 0.6 mm
Titanium plates are always 0.5 and 0.6 mm
Some have thicker plates (for high pressure applications)
Some PHEs have 0.4 mm (low pressure operation)
Hastelloy C-276 (nickel alloy) typically 0.6 mm

Production Process:

Raw material preparation: High-quality stainless steel plates are selected as raw materials due to their excellent corrosion resistance and thermal conductivity. The plate thickness is determined based on product specifications and design requirements.
Cutting and leveling: The stainless steel plates are accurately cut using machine tools to meet the design requirements. After cutting, leveling treatment is performed to ensure a smooth and even surface.
Stamping: The flattened plates undergo stamping using a hydraulic press to create specific herringbone patterns. The resulting plates have a high turbulence coefficient, promoting efficient heat transfer. Precise control is maintained during the stamping process to prevent plate deformation or damage.
Surface treatment: The plates undergo surface treatment such as polishing, sandblasting, or coating to enhance corrosion resistance and heat transfer performance. The choice of treatment method depends on specific requirements.
Assembly and inspection: The plates are assembled according to the design requirements, forming a detachable plate heat exchanger with rubber gasket seals or a fully welded plate heat exchanger through argon arc welding. Tight fitting and absence of gaps are ensured during assembly. A rigorous performance pressure test is conducted after assembly, and a factory report is issued to verify compliance with quality standards.