Brazed plate heat exchanger
Product Description
The brazed plate heat exchanger is used to exchange heat between two fluids. Plate heat exchangers are high performance components that provide high levels of efficiency while being compact in size and light in weight. Their efficiency reduces the amount of cooling water needed to transfer heat, reducing operating costs.
Product Detail
Aluminum brazed plate heat exchanger
The brazed plate heat exchanger is a new type of high-efficiency heat exchanger made of a series of metal sheets with a certain corrugated shape stacked and brazed. Thin rectangular channels are formed between various plates, and heat exchange is performed through the plates. Compared with conventional shell-and-tube heat exchangers, its heat transfer coefficient is much higher under the same flow resistance and pump power consumption, and it tends to replace shell-and-tube heat exchangers within the applicable range.
Technical parameter of brazed plate heat exchanger:
Minimum working temperature: -160°Cworking temperature: +225°C
Minimum working pressure: vacuum
Minimum working pressure (refrigerant): 3.2MPa
Maximum working pressure (water): 2.5MPa
single channel volume: 0.4L
water side maximum flow: 105m3/h
Circuit Combination Form: double circuit, single circuit
Type of brazed plate heat exchanger:
The brazed plate heat exchanger is a partitioned heat exchanger in which the heat transfer surface is formed by a plate. This type of heat exchanger has a compact structure and a large heat transfer area per unit volume. Its main types are:1. Spiral plate heat exchanger It is made of two parallel metal plates kept at a certain distance, and the cold and hot fluids flow in the spiral channels on both sides of the metal plates respectively. This kind of heat exchanger has a high heat transfer coefficient (about 1 to 4 times higher than that of a shell-and-tube heat exchanger), a large average temperature difference (because the cold and hot fluid can be used for complete countercurrent flow), small flow resistance, and is not easy to condense. Dirt; but difficult to maintain. The operating pressure does not exceed 2MPa.
2. Flat-plate heat exchanger It is composed of corrugated thin plates of a certain shape and gaskets alternately superimposed, and assembled by clamping with a frame. The cold and hot fluids flow through the flow channels on both sides of the corrugated plate respectively, and exchange heat through the plates. Corrugated plates are usually punched from stainless steel, aluminum, titanium, molybdenum and other thin plates with a thickness of 0.5-3mm. The advantage of the plate heat exchanger is that it has a high heat transfer coefficient (about 2 to 4 times higher than that of the shell-and-tube heat exchanger), easy to disassemble and wash, and the number of plates can be increased or decreased to adjust the heat transfer area. The operating pressure usually does not exceed 2MPa, and the operating temperature does not exceed 250°C.
3. Plate-fin heat exchanger: It is composed of heat exchange plate bundles enclosed in a header box with cold and hot fluid inlet and outlet. The plate bundle is made of flat plates and corrugated fins alternately laminated and fixed by brazing. The cold and hot fluids flow through both sides of the plate to exchange heat, and the fins increase the heat transfer area, promote the turbulence of the fluid, and enhance the equipment. The structure of the plate-fin heat exchanger is very compact (the heat exchange area reaches 4400m2/m3), the heat transfer effect is good, and the working pressure can reach 15MPa. However, its manufacturing process is complicated, the flow channel is small, and the internal leakage is not easy to repair, so it is limited to clean and non-corrosive fluids, such as heat exchangers for air separation.
Application of brazed plate heat exchange:
a. Refrigeration: Used as a condenser and evaporator.b. HVAC: intermediate heat exchangers used with boilers, intermediate heat exchangers for high-rise buildings, etc.
c. Chemical industry: soda ash industry, ammonia synthesis, alcohol fermentation, resin synthesis cooling, etc.
d. Metallurgical industry: heating or cooling of aluminate mother liquor, cooling of steelmaking process, etc.
e. Mechanical industry: various quenching liquid cooling, reducer lubricating oil cooling, etc.
f. Electric power industry: high voltage transformer oil cooling, generator bearing oil cooling, etc.
g. Paper industry: heat recovery of bleaching process, heating of pulp washing liquid, etc.
h. Textile industry: cooling viscose silk alkali solution, boiling nitrocellulose cooling, etc.
i. Food industry: fruit juice sterilization and cooling, animal and vegetable oil heating and cooling, etc.
j. Grease process: dry soap base under normal pressure, heat or cool various process fluids.
k. Centralized heating: district heating with waste heat from thermal power plants, heating water for bathing.
l. Others: petroleum, medicine, ships, seawater desalination, geothermal utilization.
FAQ:
Q: How long is your delivery time?A: Generally 5-7 days if the goods are in stock. Or 15-20 days if the goods are not in stock, it is based on the quantity.
Q: Do you provide samples? Is it free or extra?
A: Yes, we can provide samples for free, but do not pay for shipping.
Q: What are your payment terms?
A: Payment<=1000USD, 100% prepayment. Payment>=1000 USD, 30% T/T prepaid, balance before shipment.
If you have further questions, please feel free to contact us.