Spiral wound tube heat exchanger unit

Spiral wound tube heat exchanger units usually consist of two main parts: inner tube and outer tube. A fluid channel is formed between the inner and outer tubes, through which heat transfer is achieved. One fluid (such as water or steam) flows through the inner tube, while the other fluid (such as air or liquid) flows through the outer tube.

Spiral tube heat exchanger unit is a commonly used heat exchange equipment in industrial production and construction fields. It uses wrapped tubes as heat transfer media to achieve heat transfer between different fluids through heat exchange.

The coiled tube heat exchanger unit mainly consists of two systems: one is the system that heats or cools the fluid, and the other is the system that heats or cools the fluid. These two systems are connected by rows of intertwined pipes, forming a mutually independent but tightly connected whole.

When in use, the heating or cooling fluid flows through a spiral tube wrapped around the outer layer of the pipeline and is transported to the location where heating or cooling is required. At the same time, the heated or cooled fluid flows through a spiral tube wrapped around the inner layer of the pipeline, exchanging heat with the outer fluid to complete the heating or cooling process.

Features and advantages:

1. Wrapped tube heat exchanger, with a thermal energy utilization rate of over 95% and energy consumption reduced by over 20%;

2. Fully welded structure, high temperature and high pressure resistance, reliable unit operation, and low maintenance costs;

3. Compact structure, saving floor space, greatly reducing initial project investment;

4. Fully intelligent control, unmanned operation, remote monitoring, data communication, and household computing;

5. Quick installation, delivery of the unit to the site, connection to the pipeline network and power supply, and normal operation can be achieved;

6. Beautiful appearance, taking into account operation, maintenance, and cleaning, and artistic appearance design;

7. Energy saving and environmentally friendly, high heat exchange efficiency, variable frequency control operation, and low operating noise.

Application Scenario:

1. Chemical industry: such as reactor heating, steam recovery, etc.

2. In the field of architecture: used for heat exchange in the HVAC system inside buildings, such as heat transfer between water in underfloor heating systems.

3. In the field of oil and gas: used for heat exchange processes in the oil and gas industry, such as oil heating, water treatment, etc.