1. Industrial Finned Tube Radiator Definition:

An industrial finned tube radiator is a high-efficiency heat exchange device designed to enhance heat exchange efficiency by adding fins to the exterior of metal tubes. This expands the heat transfer surface area, making it widely used in industrial applications for air heating, cooling, and temperature control.

Industrial Finned Tube Radiator Basic Principle:

The principle of an industrial finned tube radiator involves using a medium (such as water, steam, or coolant) that flows inside the finned tube. The fins on the tube surface increase the heat exchange area, enabling faster heat transfer from the medium to the air or vice versa, thus achieving effective temperature regulation.

2. Industrial Finned Tube Radiator Structural Composition

Finned Tube:

The core component consists of a metal tube (usually steel or copper) with fins extending outward from the tube wall. These fins are typically made of high thermal conductivity materials to increase the heat dissipation surface area.

Piping System:

Includes the inlet and outlet ports that connect the radiator, used for transferring and circulating the cooling or heating medium.

Support Structure:

Usually made of carbon steel or stainless steel, providing necessary mechanical strength and stability to support the radiators weight and withstand thermal stress during operation.

3. Industrial Finned Tube Radiator Main Characteristics

Efficient Heat Dissipation:

The fin design significantly increases the heat dissipation area, enhancing heat transfer efficiency.

High Temperature and Corrosion Resistance:

Constructed with high-quality materials, the radiator can operate stably in high-temperature and corrosive environments.

Thermal Expansion Adaptability:

The structural design accounts for the thermal expansion coefficient, preventing structural damage due to temperature changes.

4. Industrial Finned Tube Radiator Advantages

Custom Design:

Can be tailored to specific user needs, adjusting the size, shape, and configuration of the radiator to suit various installation environments and application scenarios.

Long Service Life:

High-quality materials and advanced manufacturing processes ensure the radiators durability and reliability, reducing maintenance and replacement costs.

Easy Installation:

Flexible interface positions and connection methods simplify the installation process, reducing construction time and costs.

5. Industrial Finned Tube Radiator Application Fields

Industrial Production:

Used in workshops, textile mills, pharmaceutical plants, and other industries for environmental temperature control and equipment cooling.

Agriculture:

Applied in greenhouses and livestock farms for environmental regulation, providing suitable growth conditions for plants and animals.

Building Facilities:

Utilized in heating, ventilation, and air conditioning (HVAC) systems for air heating or cooling.

Public Facilities:

Such as train stations and airports, for environmental temperature regulation to enhance comfort.

6. Industrial Finned Tube Radiator Technical Parameters and Specifications

Finned Tube Material:

Steel, copper, or aluminum tubes.

Fin Material:

Aluminum, copper, or stainless steel.

Operating Temperature Range:

-40°C to +300°C, depending on the material and design.

Operating Pressure:

Up to 2.5 MPa, depending on design requirements.

Dimensions and Shapes:

Customized according to user needs, with common tube diameters ranging from 15 mm to 50 mm. Fin spacing and thickness are adjusted based on specific applications.

Heat Transfer Coefficient:

Depending on the material and design, the heat transfer coefficient can range from 200 to 500 W/m²·K.

Industrial finned tube radiator