What are the advantages of U-tube heat exchangers

Source：ksqgs.com Release date： 2025-05-20

Information summary：U-tube heat exchanger is a common shell and tube heat exchanger, with a U-shaped bent tube bundle and fixed at both ends on the same tube plate. It has the characteristics of compact structure and strong adaptability. The following is an analysis of its core advantages and application scenarios: 1、 Structural design advantages 1. No temperature difference stress problem Features: The U-sh

U-tube heat exchanger is a common shell and tube heat exchanger, with a U-shaped bent tube bundle and fixed at both ends on the same tube plate. It has the characteristics of compact structure and strong adaptability. The following is an analysis of its core advantages and application scenarios:
1、 Structural design advantages
1. No temperature difference stress problem
Features: The U-shaped tube bundle can freely expand and contract, eliminating the temperature difference stress caused by the different thermal expansion coefficients between the tube bundle and the shell, and is suitable for high temperature and high pressure working conditions (such as refining, chemical industry, power station, etc.).
Comparison: Fixed tube plate heat exchangers require expansion joints, while U-shaped tube structures do not require additional components, simplifying the design.
2. Compact structure, saving space
Layout: The tube bundle is bent into a U-shape and fixed at both ends on the same tube plate. The length of the shell is shortened, and the footprint is reduced by about 30%.
Scenario: Suitable for small and medium-sized devices with limited space, such as offshore platforms and vehicle mounted heat exchange systems.
3. The bundle can be pulled out and cleaned as a whole
Maintenance: The tube bundle can be extracted from one side of the shell (with reserved installation space), making it convenient for mechanical cleaning or high-pressure water flushing of the tube and shell sides.
Applicable medium: Especially suitable for scenarios where shell side media are prone to scaling (such as circulating water, high viscosity fluids).
2、 Operational performance advantages
1. Higher flow velocity and heat transfer efficiency inside the tube
Flow channel design: The fluid inside the U-shaped tube flows in a one-way or two-way manner, with higher flow velocity at the same flow rate, which can reduce the thickness of the boundary layer inside the tube and enhance convective heat transfer.
Data comparison: Under the same operating conditions, the heat transfer coefficient of U-shaped tube heat exchangers can be 10% to 15% higher than that of straight tube heat exchangers (depending on flow rate and pipe diameter).
2. Good anti vibration performance
Supporting structure: U-shaped bend sections are usually equipped with multiple sets of baffles or support plates to reduce the risk of tube bundle vibration, suitable for scenarios with high fluid flow rates (such as compressor coolers).
3. High material utilization rate
Tube bundle manufacturing: There is no need to consider the individual fixation of each tube. Under the same heat exchange area, the amount of tube material used in U-shaped tube heat exchangers is reduced by about 5% to 8% compared to straight tube heat exchangers.
3、 Cost and reliability advantages
1. Low manufacturing cost
Simplified structure: Without complex components such as floating heads and expansion joints, the tube plate only needs to be processed on one side, reducing processing difficulty and material costs.
Scenario: Suitable for projects with limited budgets or cost sensitivity, such as small and medium-sized chemical plants.
2. High reliability and low risk of leakage
Connection method: The two ends of the tube bundle are fixed to the tube plate by welding or expansion, with no movable connection points, reducing the probability of medium leakage (especially suitable for flammable, explosive or toxic media).
4、 Applicable scenarios and limitations
1. Typical application areas
High temperature and high pressure scenarios: such as atmospheric and vacuum distillation units in refineries, and cooling systems in synthetic ammonia reactors.
Easy to scale fluids: such as power plant circulating water coolers and chemical material preheaters.
Small temperature difference condition: When the temperature difference between cold and hot fluids is ≤ 50 ℃, the cost-effectiveness of U-shaped pipe structure is better than that of floating head type.
2. Limitations
Difficulty in cleaning inside the pipe: The inner diameter of the U-shaped bend section is small, making it difficult for mechanical cleaning tools to penetrate deeply and requiring chemical cleaning.
The cost of replacing the tube bundle is high: the tube bundle is an integral U-shaped structure, and when a single tube is damaged, it needs to be replaced as a whole, resulting in higher maintenance costs than the floating head type.
Not applicable to high-pressure shell side: When the shell pressure is too high, the U-shaped bend section is prone to fatigue fracture due to stress concentration.
5、 Selection and optimization suggestions
Pipe diameter and bending radius: Usually, pipes with a diameter of 19~38mm are used, with a bending radius of ≥ 2 times the pipe diameter to avoid excessive bending and increase in flow resistance.
Shell side flow rate control: The shell side flow rate is optimized by the spacing between the baffles and the notch ratio, generally controlled at 0.5-2m/s, to balance heat transfer and pressure drop.
Material matching: Stainless steel or nickel based alloy pipes are selected for high-temperature media, and titanium or coating protection is used for corrosive environments.

Previous period

Next In which industries are pry mounted sewage treatm…