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China Oil Cooler - China Supplier
China Oil Cooler - China Supplier China Oil Cooler - China Supplier

Oil Cooler

Price:¥9600 /臺(tái)
Industry Category: Machinery & Equipment/Compression & Separation Equipment/Screw Compressors
Product Category:
Brand: 遼寧中創(chuàng)億達(dá)
Spec: CCBA/GGC


Contact Info
  • Add:遼寧鐵嶺換熱設(shè)備產(chǎn)業(yè)園區(qū)68號(hào), Zip: 112538
  • Contact: 夏經(jīng)理
  • Tel:15802444262
  • Email:[email protected]

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Description
Additional Information

The heat exchange efficiency of an oil cooler is a core indicator of its cooling capacity, influenced by a combination of multiple factors, which can be broadly categorized as follows:

1. Heat Exchange Area and Structural Design

Heat Exchange Area: Under the same conditions, a larger heat exchange area (e.g., increasing the length of cooling tubes, the number of plates, or fin density) provides a broader "contact surface" for heat transfer, thereby improving efficiency. For example, finned coolers, which expand the surface area with fins, are more efficient than smooth-tube coolers.

Structural Form: Different cooler structures (tubular, plate, finned) affect fluid guidance and turbulence differently. For instance, the corrugated plates in plate coolers enhance fluid turbulence, reduce boundary layer thermal resistance, and boost efficiency; the shape of fins (straight, corrugated, serrated) also influences heat exchange on the air side.

Flow Channel Design: The width and direction of flow channels (parallel flow, counterflow, crossflow) affect the temperature difference between hot and cold fluids. Among these, counterflow arrangement (where hot and cold fluids flow in opposite directions) maintains a larger average temperature difference, resulting in higher efficiency than parallel flow.

2. Fluid Properties

Flow Velocity: Higher flow velocity increases the convective heat transfer coefficient (faster heat transfer), but excessively high velocity raises resistance and energy consumption, requiring a balanced design. For example, if oil flow velocity in the base tube is too low, a stagnant layer may form, increasing thermal resistance.

Flow Rate: Within a certain range, a higher flow rate of the cooling medium (e.g., cooling water or air) removes more heat. Insufficient flow rate can cause the cooling medium to heat up quickly, reducing the temperature difference with the oil and lowering efficiency.

Physical Properties: The thermal conductivity, specific heat capacity, and density of the oil and cooling medium affect heat transfer capability. For instance, water has a much higher thermal conductivity than air, making water-cooled systems generally more efficient than air-cooled ones. Additionally, the viscosity of oil decreases as temperature rises, indirectly affecting its flow and heat exchange performance in the channels.

3. Temperature Difference Conditions

Temperature Difference Between Hot and Cold Fluids: A larger initial temperature difference between the oil and cooling medium provides a stronger driving force for heat transfer. If the oil temperature is too high during operation (e.g., exceeding 60°C) or the cooling medium temperature is elevated (e.g., air in high-temperature summer environments), the actual heat exchange temperature difference decreases, reducing efficiency.

4. Contamination and Fouling

Fouling or Impurity Deposition: Impurities in the oil or scale in the cooling water can adhere to the heat exchange surfaces, forming a thermal resistance layer that significantly reduces heat transfer efficiency. For example, fouling on the inner walls of tubular coolers can decrease thermal conductivity by over 30%, necessitating regular cleaning and maintenance.

Fin Blockage: If the fins of an air-cooled cooler are clogged with dust or oil, airflow is obstructed, reducing heat exchange efficiency on the air side.

5. Materials and Manufacturing Processes

Material Thermal Conductivity: The material of heat exchange components (base tubes, fins, plates) directly affects thermal conduction efficiency. For instance, copper tubes have better thermal conductivity than steel tubes, and aluminum fins dissipate heat more effectively than steel fins, making coolers with high thermal conductivity materials more efficient.

Manufacturing Process: The method of joining fins to base tubes (welding, rolling, embedding) affects contact thermal resistance. If the bond is not tight, an air gap (which has very high thermal resistance) may form between them, hindering heat transfer.

Industry Category Machinery & Equipment/Compression & Separation Equipment/Screw Compressors
Product Category
Brand: 遼寧中創(chuàng)億達(dá)
Spec: CCBA/GGC
Stock: 999
Manufacturer:
Origin: China / Liaoning / Shenyangshi
Storefront Language: English Chinese English
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