ASTM B111 C68700 Copper Alloy Tube Bundle for Heat Exchanger
The DIN EN 1653 standard specifies the requirements for tubesheets used in heat exchangers, including those made of C46400 material. C46400 is a type of copper alloy, specifically a brass, known for its high strength, good corrosion resistance, and excellent machinability.
In the context of heat exchangers:
C46400 (also known as CuAlNi or brass) is often chosen for tubesheet applications due to its good mechanical properties, high thermal conductivity, and resistance to certain corrosive environments.
The tubesheet is designed to support and seal the tubes within the heat exchanger. It typically consists of a plate with holes through which the tubes are inserted. The design must ensure proper sealing and adequate support for the tubes under operating conditions.
According to the DIN EN 1653 standard, the tubesheet must undergo rigorous quality assurance processes. This includes material testing (such as tensile tests), non-destructive testing (like ultrasonic testing), and visual inspection to ensure compliance with specified dimensions and surface quality.
The design of the tubesheet must account for the maximum temperature and pressure it will encounter during operation. The material selection and thickness are critical factors in determining the tubesheet's ability to withstand these conditions without failure.
If welding is required for joining the tubesheet to other components of the heat exchanger, the process must be carefully controlled to avoid compromising the integrity of the tubesheet. Welding procedures and materials must be compatible with the base metal to prevent localized corrosion or embrittlement.
Regular maintenance and inspection are necessary to monitor the condition of the tubesheet over time. This can include visual inspections, pressure testing, and possibly more detailed examinations like eddy current testing to detect any signs of damage or wear.
Understanding and adhering to the specific requirements outlined in the DIN EN 1653 standard ensures that the tubesheet for a heat exchanger is both safe and efficient, providing reliable performance throughout its operational life.
Shell and tube heat exchanger is a type of heat exchanger design. It is the most common type of heat exchanger used in refineries and other large chemical processes for high pressure applications. As the name suggests, this type of heat exchanger consists of a shell (a large pressure vessel) and a bundle of tubes. One fluid flows through the tubes and another fluid flows through the tubes (through the shell), thus transferring heat between the two fluids. This group of tubes is known as a tube bundle and can consist of several types of tubes: plain tubes, longitudinally finned tubes, and so on.
Shell and tube heat exchangers consist of a number of tubes mounted in a cylindrical shell. Figure 1 shows a typical installation in a petrochemical plant. Two fluids can be exchanged for heat, one fluid flows through the outside of the tubes and the other fluid flows through the inside of the tubes. The fluids can be single-phase or two-phase, and can flow in parallel or cross/countercurrent.
Advantages of Copper Tube Bundle
1. Excellent heat transfer: Copper has excellent thermal conductivity, which means that it efficiently transfers heat from one medium to another. This makes copper tube bundles ideal for applications where heat exchange is critical, such as in heat exchangers and condensers.
2. Corrosion resistance: Copper has a natural resistance to corrosion, making it highly durable and long-lasting. This resistance to corrosion helps ensure the longevity and reliability of copper tube bundles, even in harsh environments or when exposed to corrosive substances.
3. High strength and reliability: Copper is a strong and reliable material, which makes it suitable for applications where the tube bundle may be subjected to high pressures or mechanical stress. Copper tube bundles can withstand high internal and external pressures without compromising their structural integrity.
4. Easy to fabricate and install: Copper tube bundles are relatively easy to fabricate, bend, and join. This makes them convenient to work with during installation and maintenance processes. Additionally, copper tube bundles are typically available in a variety of sizes and configurations, allowing for customization based on specific application requirements.
5. Antibacterial properties: Copper has natural antibacterial properties, which can help inhibit the growth of bacteria and other microorganisms. This makes copper tube bundles particularly suitable for applications where hygiene is important, such as in the food and beverage industry or healthcare facilities.
The advantages of using copper tube bundles make them a popular choice in industrial applications where heat transfer, corrosion resistance, strength, reliability, and ease of fabrication are important considerations.
Shell-and-tube heat exchangers consist of four main parts:
Front header - This is where fluid enters the side of the heat exchanger tube. It is sometimes called a fixed header.
Back header - This is where the tubeside fluid leaves the heat exchanger or returns to the front header in a heat exchanger with multiple tubeside channels.
Tube bundle - including tube, tube plate, baffle and tie rod, etc. Secure the bundle together.
Shell - contains tubes.
Common use material for Tube Bundle Heat Exchanger:
There are two different of tube bundles:
Straight tubes and U tubes. Depending on specific requirement and application, there are following tube material options:
Carbon Steel Tube : ASTM A179/ASME SA179/179M, ASTM A192, ASTM A333, ASTM A334
Alloy Steel Tubes: ASTM A213 T5, T9, T11, T22, T91
Copper AlloY Tubes: ASTM B111 / ASME SB111 C44300, C68700, C70600, C7060X , C71500, C71640
Stainless Steel Tubes: ASTM A213, ASTM A249, ASTM A789;
Nickel Alloy Tubes: ASTM B407, ASTM B444, ASTM B622, ASTM B163, ASTM B165, ASTM B167 ,...
Titanium Tube: ASTM B338
Heat Exchanger Applications:
Heat exchangers are widely used in evaporation and drying systems in fossil fuel and nuclear power plants, gas turbines, heating and air conditioning, refrigeration, chemical industry, textile mills.
The main features of shell and tube heat exchangers include: rugged construction, excellent performance, long service life, unique design, smooth operation, can withstand high temperatures, non-corrosive, energy efficient.
Our heat exchangers are widely used in power plants, refineries, manufacturing industries, lube oil coolers, offshore industrial water makers, chemical plants, heating and air conditioning, condensers, nuclear power plants, evaporation and drying systems in textile mills, food and dairy industries and refrigeration systems.
Product Tags:
|
|
DIN EN 1653 Standard Copper Alloy Tube Bundle For Heat Exchanger Images
|
