DELLOK YONGHUI High Efficiency Stainless Steel Plate Heat Exchanger with Liquid Cooling
Introduction:
At the heart of the Plate Heat Exchanger's performance lies its unique design. Comprising a stack of closely spaced, thin metal plates, it maximizes the surface area available for heat transfer. The corrugated or embossed patterns on the plates enhance fluid turbulence, ensuring rapid and efficient exchange of heat between the two fluids flowing in adjacent channels. This results in significantly higher heat transfer coefficients compared to many other heat exchanger types, enabling you to achieve the desired temperature change with minimal energy consumption.
One of the most notable advantages of our Plate Heat Exchanger is its compact footprint. Despite its high heat transfer capacity, it occupies considerably less space than shell-and-tube heat exchangers of comparable performance. This makes it an ideal choice for installations where space is limited, such as in modern industrial plants, commercial buildings, and marine applications. Its modular design also allows for easy scalability and flexibility in system layout, adapting to the specific requirements of your project.
Our Plate Heat Exchanger is engineered to handle a wide range of fluids, including water, oils, refrigerants, chemicals, and gases. The choice of plate materials, such as stainless steel, titanium, or specialty alloys, can be tailored to match the corrosive and chemical properties of the fluids in use. This versatility makes it suitable for diverse industries, from food and beverage processing, where hygiene and temperature control are crucial, to petrochemical and pharmaceutical applications, where handling of complex and often corrosive substances is required.
STRUCTURAL COMPOSITION:
SPECIFICATION PARAMETER:
Heat exchanger selection is very important,usually need to know the above parameters,if you are not clear about the conditions of use, please contact us, we will confirm the selection parameters with you.
According to the application parameters, we use software to select the type of heat exchanger you need.
ACCESSORIES-PLATES
Advantages
- Small Footprint: Due to its high - efficiency heat transfer performance and compact plate structure, the overall volume of the plate - type heat exchanger is relatively small. In industrial production, especially in places with limited space, such as offshore platforms or narrow areas of chemical plants, this characteristic makes the plate - type heat exchanger an ideal choice.
- Lightweight: Compared with traditional shell - and - tube heat exchangers, the plate - type heat exchanger has a more compact structure and is lighter in weight. This has great advantages in some application scenarios where strict requirements are placed on equipment weight, such as in the aerospace and mobile device industries.
Applications
Plate and shell heat exchangers find extensive use in various industries. In the chemical and petrochemical sectors, they are employed for processes such as distillation, reactor cooling, and heat recovery. In the power generation industry, they are used for cooling of turbine lubricating oil and heat exchange in auxiliary systems. The food and beverage industry benefits from their hygienic design for applications like pasteurization and cooling of products. Additionally, they are utilized in HVAC systems for efficient heating and cooling of air and water streams in commercial and residential buildings.
A plate and shell heat exchanger combines the advantages of plate heat exchangers and shell and tube heat exchangers. It consists of a set of corrugated plates that are welded or brazed together and enclosed within a shell. The hot and cold fluids flow through the channels formed by the plates and the shell, respectively, allowing for efficient heat transfer between them.
The hot fluid enters one side of the exchanger and passes through the channels between the plates. The cold fluid, on the other hand, enters the shell and surrounds the plate pack. Heat is transferred from the hot fluid to the plates and then to the cold fluid through conduction. The corrugated design of the plates enhances the heat transfer efficiency by increasing the surface area and promoting turbulence in the fluid flow.
- High heat transfer efficiency: The large surface area and turbulent flow characteristics result in excellent heat transfer performance, allowing for more compact designs compared to some traditional heat exchangers.
- Compact size: Takes up less space than shell and tube heat exchangers with similar heat transfer capacity, which is beneficial in applications where space is limited.
- Good temperature control: Can handle a wide range of temperature differentials and provides relatively precise temperature control.
- Flexibility in design: Can be customized to meet specific process requirements, such as different flow rates and heat transfer duties.
- Easy to clean and maintain: The plate pack can be disassembled for inspection, cleaning, and replacement of individual plates if necessary.
