Composition and working principle of AntSpace HK3 V2 container water cooling system

AntSpace HK3 V2 container water cooling system components:

Table 1: Main components of container water cooling system


Part function

Main parts

Pumping station

Delivers and monitors coolant status to maintain stable system operation

Centrifugal pumps, expansion tanks, sensors, valves, exhaust valves, filters, pipelines, etc., and other related accessories

Cooling Tower

Transfer the heat from the load to the atmosphere

Spray pumps, coolers, intake grilles, fans, etc., and other related accessories

Electric control box

Control the operation of each component of the pump station, read the value of each sensor, display, and upload

Air switch, intermediate relay, PLC, switching power supply, touch screen, etc., and other related accessories

Network system and power distribution cabinet

Network and power distribution for miners

Circuit breakers, aerial plugs, cables, switches, etc., and other related accessories

Diverter components

Flow distribution and delivery

Manifolds, elbows, hoses, chucks, valves, etc., and other related accessories


The supporting parts and spare accessories required for the use of the container water cooling system

Screws, miniature circuit breakers, aviation plugs, clamps, rubber hoses, and other related accessories

The working principle of AntSpace HK3 V2 container water cooling system:

Pumping station: Provide two-way cooling liquid feed water distributor components that meet the requirements of temperature, pressure, flow, and medium. The water distributor transports the cooling liquid to the water-cooling plate through two-stage liquid separation, and the water-cooling plate takes away the heat inside the equipment; The heated cooling liquid enters the cooling tower for forced heat exchange with the outside air or enters the plate heat exchanger for heat exchange with the outside heat source. Then, the cooled cooling liquid is transported to the water cooling plate again through the pump station and the water separator assembly to remove the heat in the heat-generating load and ensure that the heat-generating load works in a good environment.

Working principle of wet and dry closed cooling tower: Dry and wet closed cooling tower is divided into dry and wet working conditions. The working principle of the wet working condition is to use water and air as the cooling medium and use the evaporation of a part of the cooling water to remove the heat released by the cooling liquid flowing in the coil. The interior is equipped with: a spray device, a serpentine condensing coil, (filling heat exchange layer) water eliminator, the bottom is equipped with a collection tank, the outside of the box is equipped with a spray pump, and the top is equipped with an axial flow fan. When working, the cooling water is pumped by the spray pump to the upper part of the condensing coil to enter, and the liquid condensed by the cooling water outside the pipe flows out from the lower part of the condensing coil. After the water absorbs the heat of the cooling liquid, a part of it evaporates into water vapor, which is sucked by the axial flow fan and discharged into the atmosphere. The cooling water that has not evaporated falls into the lower sump for the spray pump to circulate. The axial flow fan draws the air from the top, which strengthens the airflow, makes the water collection tank bear the negative pressure state, reduces the water's evaporation temperature, accelerates the water film's evaporation, and strengthens the heat release of the condensing coil. The role of the water eliminator is to block the unevaporated water droplets in the air and make them flow back to the sump to reduce the consumption of cooling water. In addition, a floating ball valve is also set in the sump. The floating ball valve is automatically opened to give extra spray water when the water is continuously evaporated and consumed. The working principle of the dry working condition is to force the cooling liquid with higher temperature from the water-cooling plate to exchange heat with the low-temperature air. After reducing the water temperature, the cooling liquid will enter the system again through the pump group for heat dissipation.

Note: This is the water-cooled container parameter of AVIC version 1.3. If your product is from other manufacturers or versions, it may differ slightly from this parameter. This parameter is for reference only.

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