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Product Advantages & Features of 923944.0692 Heat Exchanger
1. High - Efficiency Heat Transfer
Technical Feature: Utilizes advanced fin - tube structure. The optimized fin design (with a fin density of [X] fins per inch) enlarges the heat - exchange area, enabling rapid heat transfer between media.
Data Support: Tests show it can achieve a heat transfer coefficient of [X] W/(m²·K), improving thermal exchange efficiency by [X]% compared to traditional models.
Keywords: high - efficiency heat transfer, advanced fin - tube, heat - exchange area
2. Robust & Durable Construction
Technical Feature: Constructed with high - grade alloy materials. These materials have excellent corrosion resistance (passing [corrosion test standard] with a corrosion rate of less than [X] mm/year) and high - temperature resistance (operating stably at up to [X] °C).
Reliability: Undergoes strict pressure tests (withstanding a maximum pressure of [X] bar), ensuring long - term use without leakage.
Keywords: robust construction, high - grade alloy, corrosion resistance
3. Compact & Space - Saving Design
Technical Feature: Adopts a modular and compact design. Its small footprint (dimensions: [X]×[X]×[X] mm) allows easy installation in limited - space systems like vehicle cooling units or small - scale industrial equipment.
Installation Flexibility: Compatible with various mounting methods, reducing installation time by [X]% compared to bulkier exchangers.
Keywords: compact design, space - saving, modular installation
4. Low - Energy Consumption Operation
Technical Feature: Optimized internal flow channels minimize fluid resistance. The pressure drop is controlled within [X] kPa, reducing the energy needed for fluid circulation.
Energy - Saving Effect: Helps lower overall system energy consumption by [X]%, cutting operating costs significantly.
Keywords: low - energy consumption, optimized flow channels, energy - saving
Technical Parameters of 923944.0692 Heat Exchanger
Heat Transfer Performance
Maximum heat transfer capacity: [X] kW, enabling rapid thermal regulation. The heat transfer coefficient reaches [X] W/(m²·K), ensuring efficient energy exchange between media. Compatible with cooling/heating fluids like water - glycol mixtures (concentration ≤ 50%) or industrial oils (viscosity range: [X] – [X] cSt).
Structural & Dimensional Details
Material: High - strength aluminum alloy (or specify alloy grade, e.g., 6061 - T6) for the core, with a corrosion - resistant steel (e.g., SUS304) frame. Overall dimensions: [Length] × [Width] × [Height] = [X] mm × [X] mm × [X] mm. Net weight: [X] kg, balancing durability and portability for installation.
Fluid & Pressure Specifications
Fluid ports: [Port type, e.g., M20×1.5] threaded connections. Maximum allowable working pressure: [X] bar (gauge pressure), with a burst pressure ≥ [X] bar for safety. Operating temperature range: - [X] °C to [X] °C, stable under extreme thermal conditions.
Efficiency - Related Metrics
Pressure drop (for design flow rate): ≤ [X] kPa on the primary side and ≤ [X] kPa on the secondary side, minimizing pump power consumption. The minimum cross - contamination rate between fluids is < [X] ppm, ensuring media purity in critical applications.
Application Scenarios of 923944.0692 Heat Exchanger
Automotive Cooling SystemsSuitable for heavy - duty vehicles like trucks and buses. It efficiently regulates the temperature of engine coolant and transmission oil, ensuring stable operation under long - haul and high - load conditions, preventing overheating and extending component lifespan.
Industrial Machinery CoolingApplied in industrial equipment such as hydraulic presses and machine tools. By cooling hydraulic fluids and lubricants, it maintains optimal viscosity and thermal stability, enhancing machinery precision and reducing wear - and - tear during continuous production.
Marine Thermal ManagementUsed on ships for cooling sea water - cooled systems (e.g., engine jackets, exhaust gas recirculation). Resistant to saltwater corrosion, it effectively transfers heat, ensuring the reliability of propulsion and auxiliary systems in harsh marine environments.
Power Generation UnitsIntegrated into small - scale power generators (e.g., diesel gensets). It cools engine coolant and turbocharger lubricants, enabling consistent power output, especially critical for backup power systems during peak demand or outages.
Refrigeration EquipmentWorks in commercial refrigeration like walk - in freezers and cold storage units. Assists in condenser heat dissipation, optimizing refrigerant cycle efficiency, and maintaining stable low - temperature environments for perishable goods storage.
Common Questions & Answers
Q: Can it work with corrosive fluids?
A: Yes. Made of [alloy/material], it resists corrosion from fluids like water - glycol or mild chemicals. Avoid strong acids/bases for durability.
Q: How to check for internal leaks?
A: Conduct a pressure test. Pressurize one side (e.g., [X] bar) and monitor for pressure drop or fluid seepage on the other side.
Q: Is replacement parts available?
A: Yes. Core components (fins, tubes) and seals are in stock. Contact our service team with your model number for quick replacements.
Q: What’s the typical service life?
A: Under normal use (proper maintenance, standard conditions), it lasts 8–12 years. Harsh environments may shorten this; regular checks help prolong it.
Product Advantages & Features of 923944.0692 Heat Exchanger
1. High - Efficiency Heat Transfer
Technical Feature: Utilizes advanced fin - tube structure. The optimized fin design (with a fin density of [X] fins per inch) enlarges the heat - exchange area, enabling rapid heat transfer between media.
Data Support: Tests show it can achieve a heat transfer coefficient of [X] W/(m²·K), improving thermal exchange efficiency by [X]% compared to traditional models.
Keywords: high - efficiency heat transfer, advanced fin - tube, heat - exchange area
2. Robust & Durable Construction
Technical Feature: Constructed with high - grade alloy materials. These materials have excellent corrosion resistance (passing [corrosion test standard] with a corrosion rate of less than [X] mm/year) and high - temperature resistance (operating stably at up to [X] °C).
Reliability: Undergoes strict pressure tests (withstanding a maximum pressure of [X] bar), ensuring long - term use without leakage.
Keywords: robust construction, high - grade alloy, corrosion resistance
3. Compact & Space - Saving Design
Technical Feature: Adopts a modular and compact design. Its small footprint (dimensions: [X]×[X]×[X] mm) allows easy installation in limited - space systems like vehicle cooling units or small - scale industrial equipment.
Installation Flexibility: Compatible with various mounting methods, reducing installation time by [X]% compared to bulkier exchangers.
Keywords: compact design, space - saving, modular installation
4. Low - Energy Consumption Operation
Technical Feature: Optimized internal flow channels minimize fluid resistance. The pressure drop is controlled within [X] kPa, reducing the energy needed for fluid circulation.
Energy - Saving Effect: Helps lower overall system energy consumption by [X]%, cutting operating costs significantly.
Keywords: low - energy consumption, optimized flow channels, energy - saving
Technical Parameters of 923944.0692 Heat Exchanger
Heat Transfer Performance
Maximum heat transfer capacity: [X] kW, enabling rapid thermal regulation. The heat transfer coefficient reaches [X] W/(m²·K), ensuring efficient energy exchange between media. Compatible with cooling/heating fluids like water - glycol mixtures (concentration ≤ 50%) or industrial oils (viscosity range: [X] – [X] cSt).
Structural & Dimensional Details
Material: High - strength aluminum alloy (or specify alloy grade, e.g., 6061 - T6) for the core, with a corrosion - resistant steel (e.g., SUS304) frame. Overall dimensions: [Length] × [Width] × [Height] = [X] mm × [X] mm × [X] mm. Net weight: [X] kg, balancing durability and portability for installation.
Fluid & Pressure Specifications
Fluid ports: [Port type, e.g., M20×1.5] threaded connections. Maximum allowable working pressure: [X] bar (gauge pressure), with a burst pressure ≥ [X] bar for safety. Operating temperature range: - [X] °C to [X] °C, stable under extreme thermal conditions.
Efficiency - Related Metrics
Pressure drop (for design flow rate): ≤ [X] kPa on the primary side and ≤ [X] kPa on the secondary side, minimizing pump power consumption. The minimum cross - contamination rate between fluids is < [X] ppm, ensuring media purity in critical applications.
Application Scenarios of 923944.0692 Heat Exchanger
Automotive Cooling SystemsSuitable for heavy - duty vehicles like trucks and buses. It efficiently regulates the temperature of engine coolant and transmission oil, ensuring stable operation under long - haul and high - load conditions, preventing overheating and extending component lifespan.
Industrial Machinery CoolingApplied in industrial equipment such as hydraulic presses and machine tools. By cooling hydraulic fluids and lubricants, it maintains optimal viscosity and thermal stability, enhancing machinery precision and reducing wear - and - tear during continuous production.
Marine Thermal ManagementUsed on ships for cooling sea water - cooled systems (e.g., engine jackets, exhaust gas recirculation). Resistant to saltwater corrosion, it effectively transfers heat, ensuring the reliability of propulsion and auxiliary systems in harsh marine environments.
Power Generation UnitsIntegrated into small - scale power generators (e.g., diesel gensets). It cools engine coolant and turbocharger lubricants, enabling consistent power output, especially critical for backup power systems during peak demand or outages.
Refrigeration EquipmentWorks in commercial refrigeration like walk - in freezers and cold storage units. Assists in condenser heat dissipation, optimizing refrigerant cycle efficiency, and maintaining stable low - temperature environments for perishable goods storage.
Common Questions & Answers
Q: Can it work with corrosive fluids?
A: Yes. Made of [alloy/material], it resists corrosion from fluids like water - glycol or mild chemicals. Avoid strong acids/bases for durability.
Q: How to check for internal leaks?
A: Conduct a pressure test. Pressurize one side (e.g., [X] bar) and monitor for pressure drop or fluid seepage on the other side.
Q: Is replacement parts available?
A: Yes. Core components (fins, tubes) and seals are in stock. Contact our service team with your model number for quick replacements.
Q: What’s the typical service life?
A: Under normal use (proper maintenance, standard conditions), it lasts 8–12 years. Harsh environments may shorten this; regular checks help prolong it.
