Welded B-Type Tubes for Radiators are a common radiator component with unique structural and performance characteristics. The following is a brief introduction to it: 1.Structural characteristics: B-type pipes are usually composed of multiple parallel arranged steel pipes, which are firmly connected to the two end headers through welding processes, forming a B-type layout. There is a welding surface in the middle of the pipe body, and a reinforced partition can be set at the welding surface to improve the strength and pressure resistance of the pipe body. The diameter and wall thickness of the steel pipe are determined according to actual usage needs. Generally, the diameter of the steel pipe is 57-108 millimeters and the wall thickness is 3.5-5 millimeters.
In recent years, as electronic devices and electric vehicles continue to evolve toward higher performance and power density, effective thermal management has become a key factor in ensuring product reliability and efficiency. Among various cooling technologies, the Liquid Cooling Plate Cold Plate Tube stands out for its exceptional heat dissipation efficiency and structural adaptability. As a professional manufacturer, Sinupower Heat Transfer Tubes Changshu Ltd. has been committed to providing advanced liquid cooling solutions that cater to industrial, automotive, and renewable energy applications.
The selection of Evaporator Header Pipe is essentially to optimize the operational efficiency, stability, and maintenance convenience of the evaporation system, especially suitable for multi effect evaporation or industrial scenarios that require centralized control.
Energy storage tube with heat pipe thermal management is a device that combines heat pipe technology with energy storage function. It has the characteristics of efficient heat transfer, good temperature equalization performance, and strong temperature regulation ability. The following is a specific introduction:
As I started exploring advanced battery technologies, I asked myself: "Why do high-performance batteries need additional cooling solutions?" The answer quickly became clear—managing heat is critical for efficiency, lifespan, and safety. Among the various thermal management strategies, Battery Cooling Plates stand out as a reliable, efficient, and compact solution. In this article, I will walk you through the essential aspects of these cooling plates, their specifications, performance, and importance in modern battery systems.
In refrigeration, HVAC, and industrial heat exchange systems, the "condenser manifold" (usually referring to the main pipeline connecting the condenser to other core components of the system, or an integrated condenser piping assembly) is widely chosen because it can solve key pain points such as efficiency, reliability, and installation convenience during system operation, and adapt to the needs of "stable, efficient, and low maintenance" heat exchange systems in different scenarios. Specific analysis can be conducted from three dimensions: system performance, installation and operation, and scenario adaptation:
