duties, such as cooling drilling oil, cabin heat, tap water, etc. Ideally suited for sea duty. APV Plate Heat Exchangers have proved themselves to be perfect for the closed circuit systems essential to many cooling functions at sea. Using high purity water as the primary
8 rows · Applications:Central Cooler. Fresh Water to Sea Water Heat Exchangers. Jacket Water Oil/water coolers (plate heat exchangers or bundle of Oil/water coolers (plate heat exchangers or bundle of pipes heat exchangers) High cooling capacity despite small dimensions. Oil/water coolers perform cooling in a very effective way. Since water has high thermal conductivity, oil/water coolers have a very compact design while safeguarding a high cooling capacity.
With the help of MIT Plate Heat Exchangers, your utility water can be produced either centrally or individually. used oil gets hot and looses its lubricant function and so company performance goes down. To keep the bloomery oil in an optimum temperature, MIT Plate Heat EXchangers are used. Area Of Usage / MARINE. There are two types of Plate Heat Exchangers for Marine ApplicationsThe rest of the plate heat exchangers is normally equipped with stainless steel plates there is no corrosion risk as the heat exchangers work with freshwater. 1. Main Engine 2. Auxiliary Engine 3. Heat exchanger for Central Heating 4. Freshwater Generator 5. Central Cooler 6. Gear Oil Cooler 7. Lubricating Oil Cooler, Auxiliary Engine 8.
May 02, 2014 · Shell and Tube Heat Exchangers for engine jacket water and lubricating oil cooling are normally circulated with seawater. The seawater is in contact with the inside of the tubes and the water boxes at the cooler ends. The oil or water being cooled is in contact with the outside of the tubes and he shell of the cooler. Water Heat Exchangers McMaster-CarrASME BPVC VIII. 1 copper-brazed heat exchangers have a Btu/hr. cooling capacity based on cooling 100 SSU oil to 125° F using 85° F water. Nickel - brazed heat exchangers have a Btu/hr. cooling capacity based on cooling oil from 140° to 120° F using 70° F water.
water to cool a secondary circuit with fresh water. This circuit passes through a battery of other coolers, such as lubrication oil cooler, jacket water cooler, turbo-charging air cooler etc. Using fresh water in the secondary circuit, minimizes corrosion, scaling and redundancy in machines and equipment and ensures smooth operation.
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