Open Systems that Do Not Require Water Circulation
In open systems that do not require water circulation, cooling is provided by an external water supply connection. Local mains water, lakes, and any fresh or salty water source can be used as cooling water for this system. The cooling water used during cooling leaves the system as wastewater at the compressor outlet. To control the air temperature provided, thermostats and similar equipment are employed in these systems. Open systems have the advantage of being low cost of installation. The purity of spring water used as cooling water in open systems is a critical concern to be considered. When assessing the purity of the spring water, choosing filtration elements and materials that are suitable for the operating conditions prevents blockages that can impede cooling efficiency and the passage of substances that may harm the cooling line equipment. Along with filter selection, it's essential that the filter is easily serviceable, enabling periodic changes and cleaning.
Open Systems that Require Water Circulation
In open systems that require water circulation for water-cooled compressors, the cooling water serves to cool the compressed air within the compressor through recirculation within the system. The cooling water absorbs heat in this process and must release heat to be reused as cooling water within the system. In this system, the cooling water, which absorbs heat during the cooling process, is directed to an external water tower circuit via a pump and is reduced to approximately 2°C below the ambient temperature and redirected to the system as cooling water. As the water volume decreases due to evaporation and heat dissipation in the water tower over time, the system is fed from an external water source. One drawback of this system is the potential contamination of the cooling water over time depending on the quality of the ambient air. In cold weather conditions when the compressor is not operating, draining the water from the water tower becomes a crucial consideration to prevent the cooling water from freezing.
Closed Systems that Require Water Circulation
Closed systems that require water circulation incorporate external heat exchanger equipment to cool down the heated cooling water during its return to the system following the cooling process. In applications, the heat exchangers employed are typically either air-cooled or water-cooled. After pressurization, the coolant that receives the increased compressed air during cooling is cooled to 5°C above the coolant in an external heat exchanger equipment before being redirected to the system for circulation. In the application of cooling cooling water using an external liquid-cooled heat exchanger, plate-type heat exchangers are a common choice. Given the characteristics of the coolant used in this application, materials with high corrosion resistance should be selected. In situations where access to external water is restricted, cooling is achieved through forced heat transfer by means of a fan. In scenarios where cooling water is chilled by ambient air, glycol is introduced into the cooling water to prevent freezing during cold weather conditions. In this application, when sizing the heat exchanger, the thermophysical properties that change with the added glycol are taken into consideration. Closed systems demanding water circulation offer benefits such as extended service intervals and reduced maintenance expenses.