Ultrasonic Ship cold water system descaling

The ship's cold water system is an important guarantee for the operation of the ship's power plant. Part of the heat generated by diesel engine combustion is dissipated outward through the cylinder and piston. In order to dissipate this heat, a cold water system is required to ensure the normal and stable temperature of these heated components. In a circulating cold water system, due to the increase in water temperature, changes in flow rate, evaporation of cooling water, and concentration of various inorganic ions and organic substances, the cooling water comes into direct contact with air, resulting in high dissolved oxygen content and rapid algae growth in the water. In addition, the impact of evaporation loss, splash loss, leakage loss, and discharge loss in the cold water system results in a large amount of water replenishment for the system. These are important causes of system scaling, oxygen corrosion, harmful ion corrosion, and microbial corrosion. The adhesion of scale, equipment corrosion, and the proliferation of microorganisms can lead to system fouling, blockage of pipelines, poor water quality indicators, and decreased heat transfer efficiency, posing a serious threat to the product quality, production, and energy-saving consumption of enterprises. Therefore, choosing an economical and practical pipeline descaling solution can improve and solve the above problems.

Ultrasonic ships have the advantages of high removal efficiency, short reaction time, improved biodegradability of cooling water, simple facilities, and small footprint. In recent years, our company's ultrasonic waves have not only made significant breakthroughs in descaling of ship pipelines, but also achieved significant results in research on organic wastewater, sludge fermentation and dehydration, sterilization and disinfection of drinking water, as well as scale inhibition and descaling of industrial water.