GBH-TS composite flow closed cooling tower

GBH-TS series：

crossflow cooling tower refers to a cooling method in which the water in the cooling tower falls vertically from the top of the tower body, and the air flow in the cooling tower passes through the water-spraying filler or cooling tube bundle in the horizontal direction, and the air flow is orthogonal to the water flow direction.

The crossflow cooling tower is equipped with an air inlet grille on one side of the tower body and an induced draft fan on the top of the other side. The air flow enters from one side and flows out from the top of the other side. The cooling medium flows through the cooling tube bundle and flows in the cooling tube bundle, and the heat of the medium is conducted outward.

The spray water on the outer layer of the cooling tube bundle absorbs the heat transferred through the copper tube and evaporates to form water vapor. The evaporated water vapor is mixed with unsaturated air and discharged to the outside of the cooling tower. The evaporated water vapor is intercepted when passing through the water collector, condensed into water droplets and falls back to the water collection tank. The main function of the cooling tube bundle is to conduct heat conduction. The characteristics of this operating principle can minimize the generation of scale as much as possible, which will be more obvious when the high-temperature fluid or cooling temperature difference is relatively large.

Structural features:

1. Double cooling tube bundles, air inlet design on both sides, more efficient air inlet, more stable condenser.

2. Front and rear transparent inspection doors can be made, which is conducive to efficient space utilization when multiple units are arranged.

3. Two spray pumps are located on both sides of the equipment, which is convenient for inspection, maintenance and upkeep.

Performance advantages:

1. Low failure rate

Both the fan and the water pump use high-quality bearings, and there are no other wear parts. The fan adopts axial flow connection, aluminum alloy blades, large air volume and low failure rate.

2. Efficient heat exchange

The product uses the technology of combining the tube bundle and PVC filler of the wind and water co-directional cross-flow secondary heat exchange to achieve efficient heat exchange. Since the air and spray water flow through the tube bundle in the same direction, the spray water can cover the surface of the tube bundle to the greatest extent, ensuring that the surface of the tube bundle is completely wet. Compared with the reverse wind and water structure, the formation of dry spots and scale on the tube bundle wall is greatly reduced.

Scope of application:

Applicable to arid and water-scarce areas, with high temperatures in summer, few days of warm weather, more days in winter and transitional seasons, and suitable for projects with low dry and wet bulb temperatures and high temperatures of the fluid being cooled.