Search results for: 'Fluid cold plates'
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Brazed plate heat exchangers<br />The stainless steel heat exchanger plates are brazed with copper by default and can withstand pressures of up to 30 bar. <br />- Easy to service and maintain thanks to highly efficient self-cleaning based on the turbulent flow in the flow gaps <br />- Efficient cooling capacity combined with low cold water consumption<br />- Wide range of applications, including for aggressive media or with double plates to prevent the media from coming into contact with each other
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Cold plates<br />Liquid cold plates are used wherever electronic components have to operate at a high performance level and be cooled directly. The components that are to be cooled are assembled directly onto the cold plates, and a cooling fluid circulates through the plate and effectively channels away the dissipated heat. The cooling fluid itself can be supplied from and returned to the various HYDAC cooling systems. <br />HYDAC cold plates feature a custom design, first-class quality and dimensions of up to 1,600 mm x 750 mm.
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Liquid cooling is an effective and cost-effective method for cooling high output densities. Cooling below ambient temperature is also possible, depending on the temperature of the cold water used. Plate heat exchangers used either as an intermediate circuit or as a separating circuit help protect the system components from contamination and corrosion due to poor quality cold water. <br />HYDAC can offer you highly specialised solutions, such as fluid cold plates for cooling electrical components, as well as highly efficient screwed and brazed plate heat exchangers.
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<p>Plate heat exchangers consist of a stack of stamped heat exchange plates which are either brazed together or clamped together in a frame with gaskets. Medium flows in the gaps between the plates where hot medium (which will be cooled) alternates with cold medium. <br />Thanks to their compact design, their highly turbulent flow and the counterflow principle, they generate extremely high levels of heat recovery. Temperature harmonisations of up to 1 K can be achieved.</p>
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