THERMAL TRANSFER C-1736-90983 Steel Copper Tube Heat Exchanger

( Brand: Thermal Transfer ), ( Manufacturer Part Number: C-1736-90983 ), ( Part Type: Heat Tube ), ( Shell Inlet/outlet Size: 2 In ), ( Shell Material: Steel ), ( Tube Material: Copper ), ( Thread Type: Npt ), ( Reference Sku: 1755063 ), ( Product Condition: Used Excellent )

Review THERMAL TRANSFER Steel Shell Copper Tube Heat Exchanger

The **Thermal Transfer C-1736-90983 Steel-Copper Tube Heat Exchanger** represents a high-performance, engineered solution designed for efficient thermal management in industrial, HVAC, refrigeration, and process cooling applications. Constructed from a hybrid material combination of **carbon steel and copper tubing**, this heat exchanger leverages the superior thermal conductivity of copper one of the best in the metal world while maintaining the structural integrity and durability of steel. The copper tubes, typically drawn to precise dimensions, ensure rapid heat transfer, minimizing temperature gradients and optimizing energy efficiency, whereas the steel casing provides robust protection against corrosion, mechanical stress, and operational wear, making it ideal for demanding environments where reliability is paramount.

This heat exchanger is engineered with **advanced fluid dynamics** in mind, featuring a **counter-flow or cross-flow design** (depending on the specific configuration) to maximize heat exchange efficiency while minimizing pressure drops. The copper tubes are often **soldered or brazed** into the steel header plates, creating a leak-proof, high-pressure-rated assembly capable of handling a wide range of operating conditions, from low-pressure refrigeration circuits to high-temperature industrial processes. The **tight tube pitch and optimized fin geometry** (if applicable) further enhance surface area exposure, ensuring superior heat dissipation even in compact installations.

Ideal for applications such as **chillers, air conditioning units, industrial cooling systems, and heat recovery units**, the C-1736-90983 excels in environments where **corrosive fluids, high thermal loads, or fluctuating operating pressures** are present. The steel-copper hybrid construction resists galvanic corrosion better than all-copper designs, while the copper s inherent thermal conductivity outperforms alternatives like aluminum in high-temperature or high-pressure scenarios. Additionally, the modular and scalable design allows for easy customization, enabling engineers to tailor the unit s size, tube count, and flow arrangement to match specific thermal load requirements without compromising performance.

Built to **industrial-grade standards**, this heat exchanger undergoes rigorous **pressure testing, vacuum leak detection, and thermal performance validation** to ensure longevity and operational consistency. Its **low-maintenance design** reduces downtime, while the use of **high-grade materials** such as ASTM A53 carbon steel for the shell and C10800/C12200 copper for the tubes guarantees resistance to scaling, pitting, and fatigue over extended service life. Whether integrated into a **large-scale refrigeration plant, a precision HVAC system, or an industrial heat recovery loop**, the C-1736-90983 delivers **unmatched thermal efficiency, structural resilience, and cost-effective performance**, making it a cornerstone for modern thermal management solutions.

### **Pros and Cons of buying a Thermal Transfer C-1736-90983 Steel-Copper Tube Heat Exchanger**

1. **High Thermal Efficiency** The combination of steel and copper provides excellent heat transfer properties, making it suitable for applications requiring rapid and efficient heat exchange, such as HVAC systems, industrial processes, or refrigeration units.

2. **Durability and Strength** Steel construction offers superior mechanical strength, reducing the risk of deformation or failure under high-pressure conditions, while copper ensures good thermal conductivity.

3. **Corrosion Resistance (Compared to Pure Steel)** Copper s natural resistance to corrosion, especially in non-aggressive environments, helps prolong the lifespan of the heat exchanger, though steel may still require protective coatings in harsh conditions.

4. **Compatibility with Various Fluids** The material combination works well with water, glycol-based solutions, and some refrigerants, making it versatile for different applications.

5. **Cost-Effective for Industrial Use** While not the cheapest option, the durability and efficiency often justify the investment in long-term applications where reliability is critical.

6. **Easy Maintenance** The robust construction allows for straightforward cleaning and repair, reducing downtime in industrial settings.

7. **Compatibility with Existing Systems** If your current setup uses steel or copper components, this heat exchanger may integrate seamlessly without requiring major modifications.

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1. **Higher Initial Cost** Compared to purely copper or aluminum heat exchangers, the steel-copper hybrid is more expensive due to material and manufacturing complexity.

2. **Potential for Galvanic Corrosion** If not properly insulated or treated, the junction between steel and copper can lead to electrochemical corrosion over time, especially in wet or chemically active environments.

3. **Weight** Steel adds significant weight to the unit, which may complicate installation in space-constrained or mobile applications.

4. **Limited Flexibility in Design** The rigid nature of steel may restrict customization options for unique or compact heat exchanger designs.

5. **Maintenance Requirements in Harsh Environments** If exposed to highly corrosive fluids (e.g., acids, salts), additional protective measures (e.g., coatings, seals) may be needed, increasing long-term costs.

6. **Potential for Thermal Stress** The differing thermal expansion rates of steel and copper could lead to stress points if not properly accounted for in the design.

7. **Availability and Lead Times** As a specialized product, sourcing may be limited, and lead times could be longer than for standard heat exchangers.

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### **Conclusion**

The **C-1736-90983 steel-copper tube heat exchanger** is a strong choice for applications demanding **high durability, thermal efficiency, and resistance to mechanical stress**, particularly in industrial, HVAC, or refrigeration systems where reliability is paramount. Its hybrid construction balances the strengths of steel (strength) and copper (thermal conductivity), making it ideal for environments where corrosion resistance and longevity are critical.

However, the **higher upfront cost, potential galvanic corrosion risks, and weight considerations** may make it less suitable for budget-sensitive or highly corrosive applications. If your system operates in a **moderate to clean environment** and prioritizes performance over cost, this heat exchanger is a robust investment. For **highly corrosive or space-sensitive applications**, alternatives like fully copper or aluminum heat exchangers (with proper coatings) might be more practical.

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### **Recommendation**

- You require **long-term durability and high thermal efficiency** in an industrial or commercial setting.

- Your system operates with **non-aggressive fluids** (e.g., water, mild glycol solutions).

- You can **mitigate corrosion risks** (e.g., using dielectric coatings or proper insulation).

- Budget constraints are not a major concern, and the **cost is justified by performance and lifespan**.

- Your application involves **highly corrosive fluids** (e.g., acids, seawater), in which case a **fully stainless steel or titanium heat exchanger** may be safer.

- You need **lighter weight or more compact design**, making a **copper or aluminum heat exchanger** more appropriate.

- Your budget is tight, and a **lower-cost, standard heat exchanger** (e.g., shell-and-tube with copper tubes) could suffice.

**Final Suggestion:** If purchasing, **verify the manufacturer s corrosion protection measures** and ensure proper installation to maximize longevity. For critical applications, consult an engineer to assess compatibility with your specific fluid and operating conditions.

Details:

Tube Inlet/Outlet Size:2 IN. Tube Material:Copper. Thread Type:NPT. Knife Gate Valves.

Shell Inlet/Outlet Size:2 IN. Shell Material:Steel.

part #: c173690983 price

• $600.00

specifications indheatexchanger:

• brand: Thermal Transfer
• mpn: C-1736-90983
• part type: Heat Tube
• shell inlet/outlet size: 2 In
• shell material: Steel
• tube material: Copper
• thread type: Npt
• reference sku: 1755063
• product condition: Used Excellent

seller indheatexchanger:

• rating: 100.0%
• # reviews: 125939
• city: Delta, Ohio

returns indheatexchanger:

• time: 30 Days
• method: Money back
• policy: Returns Accepted
• paid by: Buyer

payments indheatexchanger:

• credit card: Mastercard
• wallet: Paypal
• other

general indheatexchanger:

• HVAC Refrigeration > HVAC Refrigeration Components > Heat Exchangers
• condition: Used

offer indheatexchanger:

• options: Ship-to-home
• best offers: True
• quantity: 1
• started: March 25, 2026
• availability: In Stock
• sold: 0

shipping indheatexchanger:

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