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Stainless Steel 304 Pillow Plate Heat Exchanger
The pillow plate heat exchanger is constructed from two stainless steel sheets that are welded together using fiber laser welding. This panel-type heat exchanger can be customized into a wide variety of shapes and sizes. It is particularly well-suited for use in applications with high pressures and extreme temperatures, offering highly efficient heat transfer performance. Through the process of laser welding and inflating the channels, it generates significant fluid turbulence to achieve high heat transfer coefficients.
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SS304 Pillow Plate Heat Exchanger For Milk Cooling
Introducing our SS304 pillow plate heat exchanger, designed specifically for milk cooling applications. Its innovative pillow plate design ensures optimal cooling performance, making it an ideal solution for maintaining precise milk temperatures. With its reliable and hygienic construction, our SS304 pillow plate heat exchanger is the perfect choice for dairy industry professionals seeking high-performance and easy-to-maintain cooling solutions. The falling film chiller is primarily comprised of pillow plate evaporators and a stainless-steel cabinet. It serves as a heat exchanger designed to chill water to the desired temperature, producing 0.5℃ ice water that is typically utilized to rapidly cool large volumes of products. Within the falling film chiller, heat transfer occurs as a thin liquid film flows over the exterior surfaces of the pillow plate heat exchanger, while refrigerant flows through the internal channels of the pillow plates.
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1.2mm Double Embossed Pillow Plate For Sewage Treatment
The pillow plate heat exchanger is made by welding two stainless steel sheets using fiber laser technology. This type of heat exchanger can be tailored to fit a range of shapes and sizes, making it an excellent choice for high-pressure and high-temperature applications, delivering highly effective heat transfer. By utilizing laser welding and inflating the channels, it creates substantial fluid turbulence to achieve superior heat transfer coefficients. The wastewater treatment is one application of it.
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Laser Welded Double Emobssed Heat Transfer Pillow Plate For Cooling or Heating
The pillow plate heat exchanger is a fiber laser welding technology that involves welding two stainless steel sheets using fiber laser technology. This innovative method allows for the creation of heat exchangers that can be customized to fit various shapes and sizes, making them ideal for high-pressure and high-temperature applications. The result is a highly efficient heat transfer process. Through the use of laser welding and inflating the channels, this type of heat exchanger generates significant fluid turbulence, leading to superior heat transfer coefficients. This makes it an excellent choice for applications where efficient heat transfer is crucial, such as in wastewater treatment.
Overall, the pillow plate heat exchanger represents a significant advancement in heat exchange technology, offering a versatile and effective solution for a wide range of industrial applications.
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Single Embossed Laser Welding Pillow Plate Heat Exchanger for Food Processing
Pillow plate heat exchanger is a heat exchanger manufacturing technology that uses fiber laser welding technology to weld two stainless steel sheets together. This innovative technology allows heat exchangers to be customized to different shapes and sizes, making them ideal for high pressure and high temperature applications. Finally, an efficient heat transfer process is achieved. By using the technology of laser welding and expansion channels, this heat exchanger creates significant turbulence in the fluid, resulting in a superior heat transfer coefficient. This makes it an excellent choice for applications such as wastewater treatment where heat transfer efficiency is required.
Overall, pillow-plate heat exchangers are a major break through in the field of heat exchange technology, providing flexible and effective solutions for a variety of industrial applications.
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Fiber Laser Welding Pillow Plate Banks for Soybean Heater
Pillow plate heat exchangers represent a cutting-edge manufacturing technology that employs fiber laser welding to bond two stainless steel sheets. This innovative approach enables the customization of heat exchangers into various shapes and sizes, making them particularly suitable for high-pressure and high-temperature environments. The result is an efficient heat transfer process. By utilizing laser welding and incorporating expansion channels, this type of heat exchanger generates significant fluid turbulence, leading to an enhanced heat transfer coefficient. This characteristic makes it an excellent option for applications like wastewater treatment, where efficient heat transfer is essential.
In summary, pillow plate heat exchangers mark a significant advancement in heat exchange technology, offering versatile and effective solutions for a wide range of industrial applications.
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Milk Refrigeration Stainless Steel Cooling Dimple Jacket
The clamp-on heat exchanger is available in two types: double embossed and single embossed. Double embossed clamp-on heat exchangers are simple to install on existing tanks or equipment with heat conductive mud, providing an economical and effective solution for retrofitting heating or cooling systems for temperature maintenance. On the other hand, the thick plate of the single embossed clamp-on heat exchanger can be directly utilized as the inner wall of the tank.
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304 Stainless Steel Laser Welding Pillow Plate Falling Film Water Chiller Produces 0~1℃ Ice Water
The falling film chiller is a Platecoil plate heat exchanger designed to efficiently cool water to the desired temperature. This innovative technology utilizes the unique falling film structure of Platecoil, making it suitable for a wide range of applications including ice water making and cooling processes. By leveraging gravity to create a thin film across the entire surface of the Platecoil plate, it achieves rapid cooling of the liquid to near freezing point.
Constructed from stainless steel, the falling film chillers are vertically installed within a stainless steel cabinet. Warm chilled water enters the top of the cabinet and is distributed evenly across the water distribution tray. The water then flows through the tray and cascades down both sides of the cooling plate. The full flow and non-cyclic design of the pillow plate falling film chiller result in increased capacity and reduced refrigerant pressure drop, enabling the fastest and most cost-effective cooling process.
