You can improve the service life of heat transfer fluid by properly handling it. This exclusive report examines ways to minimize thermal cracking, oxidation and contaminationPressure test the system with either heat transfer fluid or inert gas. Never pressure test with water. Mark E. Smith The service life of heat transfer fluid and related process efficiency can be increased by understanding how fluid breaks down and how to properly handle it. The key to increasing fluid life is to minimize thermal cracking, oxidation and contamination and to follow proper handling techniques. These are reviewed below.
ContaminationContaminants can promote fluid degradation as well as cause operational problems. Contaminants can enter the system in the following ways. New systems Ensure that all fabrication debris (mill scale, weld spotter, slag) or protective coatings are removed before assembly. Pressure test the system with either heat transfer fluid or inert gas. Never pressure test with water. System cleaning Complete draining from all system low points is required when using organic-based solvents or flushing fluids. At least one full charge of fresh heat transfer fluid should be used to flush the system if complete draining is not possible. Water-based cleaners must be completely rinsed from the system with fresh water. Residual water should be removed by draining and then purging with hot, dry nitrogen down to a -20°F dew point or by vacuum. Boiling off residual water in the expansion tank should be minimized since it can cause fluid degradation. Daily operation Always use fresh fluid to top off the system. Fluid "burped" out the vent or collected in drop pans should be discarded. Don't mix fluids.
Fluid HandlingThe following recommendations can ensure ease of filling, topping off and system recharging. Compensate for high humidity. If you're in a high-humidity environment, consider not filling your system with partially filled drums of fluid. Humid air can work itself into partially filled drums and develop condensation inside, which is then added to your system. Evaluate storage. Drums should be protected from exposure to direct sunlight and/or precipitation. It is possible for a sealed drum to draw in water as the fluid inside expands and contracts due to the outside temperature. The best way to prevent this from happening to drums stored outside is to store drums on their side or place a block underneath to tip them slightly, and prevent the bongs from sitting in water when it rains. Examine system filling. To prevent condensation due to temperature and humidity extremes, sealed drums should be moved inside at least 24 hours before the system is filled. This will allow fluid to adjust to room temperature. Add virgin oil to the system at the low point drain. It's preferable to add fluid on the suction side of the pump with a secondary pump. Do not use the system pump, which could be damaged if the pump runs dry. Mark E. Smith is general manager of MultiTherm LLC, 3223 Phoenixville Pike, Malvern, PA 19355, a leading supplier of non-hazardous and non-toxic heat transfer fluids. Questions about this article can be directed to him at 610-408-8361 or Msmith@MultiTherm.com . Additional information is available at www.MultiTherm.com .
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The service life of heat transfer fluid and related process efficiency can be increased by understanding how fluid breaks down and how to properly handle it.