Changzhou Victory Technology Co., LTD
Changzhou Victory Technology Co., LTD
Add to Cart
Product Description
Quality control processing for the plate in PHE
Quality control processes for the plates in a Plate Heat Exchanger (PHE) are crucial to ensure the efficiency and reliability of the heat exchanger. Here are some key quality control processes for the plates in a PHE:
Material Inspection: Verify the quality and specifications of the plate material, ensuring it meets the required standards for corrosion resistance, thermal conductivity, and strength.
Dimensional Accuracy: Check the dimensions of the plates to ensure they meet design specifications and tolerances for proper fit and alignment within the heat exchanger.
Surface Finish Inspection: Inspect the surface finish of the plates to ensure they are smooth and free from defects that could affect heat transfer efficiency.
Pressure Testing: Conduct pressure tests on the plates to verify their ability to withstand the operating pressure without deformation or leaks.
Welding Quality: If the plates are welded together, inspect the welding quality to ensure proper bonding and integrity of the weld joints.
Heat Transfer Performance Testing: Evaluate the heat transfer performance of the plates by conducting tests to measure their thermal conductivity and efficiency in transferring heat between fluids.
Corrosion Resistance Testing: Test the plates for corrosion resistance to ensure they can withstand exposure to corrosive fluids and environments.
By implementing these quality control processes for the plates in a PHE, manufacturers can ensure that the heat exchanger operates effectively, efficiently, and reliably in various applications.
ACCESSEN Series Heat Exchanger Plates:
Selection of heat exchanger plate shape, size, and material is critical in designing an efficient heat exchanger. Here are some key points to consider in selecting the shape, size and material of a heat exchanger plate:
1. Plate Shape : The plate shape chosen must be appropriate to the application requirements and operational conditions. Proper shape can increase heat exchange efficiency and optimize fluid flow.
2. Plate Size : The plate size should be selected taking into account the surface area required for efficient heat exchange. Proper sizing will ensure optimal heat exchanger performance.
3. Plate Material : Selection of plate material is critical to ensure reliability, corrosion resistance and good performance in the long term. The plate material must be suitable for the type of fluid to be processed and the operational conditions.
4. Operational Conditions : Consider temperature, pressure, fluid type, and other operational conditions in selecting plate shape, size, and material. This will help determine the most appropriate plate for a particular application.
5. Cost and Efficiency : Consider the cost of manufacturing, installing, and maintaining a plate heat exchanger in relation to the desired efficiency. Choose a combination of plate shapes, sizes and materials that provides the optimal balance of performance and cost.
By considering the above factors, you can make the right choice in selecting the heat exchanger plate shape, size and material to ensure optimal performance according to your application needs.
| Brand | Model |
|
ACCESSEN |
AU3,AU5,AS6,AU8,AU10L1,AU10L2,AU15L1,AU15L2,AU15M,AU20,AU20M AN5,AN10L1,AN10L2,AN10M,AN15L1,AN15L2,AU25L1,AU25L3 AN20,AN25L1,AN25L2,AN30L1,AN30L2,AN30L3,AN30L4 AN35L1,AN35L2,AN35L3,AN35L4,AN40L1,AN40L2,AN40L3,AN40L4 AN45L1,AN45L2,AN45L3,AN45L4,AS20,AS25,AC190,AC230,AP20,AP25,AP35 |
| 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 |
Applacations
Products are mainly suitable for ACCESSEN/GEA (Kelvion)/ APV/ Sondex/ Tranter/ Hisaka/ API/ Funke/ Vicarb/ Mueller/ SWEP/ Fischer/ AGC/ Thermalwave/ ITT/ LHE/ DHP, etc.
| 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 |
Q&A:
1. Q: What specific requirements do you have for the replacement plate in your heat exchanger?
A: By understanding your specific requirements, we can tailor the replacement plate to meet your exact needs.
2. Q: Are there any special materials or coatings you prefer for the replacement plate?
A: By offering a range of materials and coatings options, we can customize the replacement plate to suit your preferences.
3. Q: Do you have any size or design preferences for the replacement plate?
A: We can customize the size and design of the replacement plate to fit your heat exchanger perfectly.
4. Q: Would you like any additional features or modifications incorporated into the replacement plate?
A: We can discuss adding any additional features or modifications to enhance the performance of the replacement plate.
5. Q: How can we assist you further in ensuring that the replacement plate meets your specific requirements and expectations?
A: We are committed to providing personalized service and support throughout the replacement process to ensure your complete satisfaction.
