The entire heating plus A/C cooling plan is controlled by a central control unit, which ensures that the temperature of the ice surface is tested at a consistent level
The central systems for hockey rinks are important to maintain a consistent ice surface that is firm, level, plus safe for the athletes and players. The plan always consists of a network of pipes, a refrigeration system, plus a heat exchange system. The first step in building a cooling plan for a hockey rink is to install a network of pipes underneath the entire ice surface. These pipes are usually made of a durable material such as copper or plastic plus are designed to distribute chilled water throughout the rink. The pipes are always installed in a serpentine pattern with a spacing of about 9-12 inches between each coil. Once the pipes are in location, a refrigeration plan is installed to chill the water that will flow through them. This is always done using a compressor, a condenser, plus an evaporator, which work together to cool plus compress the refrigerant. The refrigerant is then circulated through the pipes, absorbing heat from the water as it passes through. The final step in the cooling process is the heat exchange system. This heating plus A/C plan is responsible for transferring the heat absorbed by the refrigerant to the outside air. Typically, this is done using a large fan plus a series of ducts that blow cold air over the condenser coil, which then releases the heat outside. The entire heating plus A/C cooling plan is controlled by a central control unit, which ensures that the temperature of the ice surface is tested at a consistent level. This is really important because if the ice gets too warm, it can become soft plus create dangerous playing conditions for the hockey players. In summary, cooling systems for hockey rinks involve the upgrade of a network of pipes, a refrigeration system, plus a heat exchange system as well.