Precision Cooling Systems
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Parker's game changing thermal technology efficiently addresses cooling for high-powered electronics, and enables higher density electronics.
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The less weight you have in the nacelle, the better. Parker's Evaporative Two-phase Liquid Cooling is so effective that power electronics can be designed to be smaller and and denser, making the entire system lighter and more compact. Learn more about Precision Cooling Systems
The increased efficiency of the Vaporizable Dielectric Fluid (VDF) in our evaporative liquid cooling system translates into smaller enclosures and significant weight reduction. All this, plus 2-4 times better heat transfer and a much safer system, with no risk of an electrical short, fluid leak or other issues associated with traditional water-based cooling systems.
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As renewable energy usage increases, the grid becomes more strained. Parker’s Two-Phase Evaporative Liquid Cooling is "mission-critical". Parker delivers standard containers for grid energy storage for wind and solar farms, configured to customer requirements for infield battery and power conversion. Learn more about Precision Cooling Systems
Blackouts, brownouts and weather are all issues that can cause grid system failures. Parker has expertise in creating effective power management systems - including vital thermal management - between the power source, storage system and the grid.
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Need greater heat dissipation in high ambient environments? Parker's two-phase "evaporative" Cooling delivers! Learn more about Precision Cooling Systems
Because we use Vaporizable Dielectric Fluid (VDF) to cool, our Precision Cooled systems can dissipate more heat in high ambient environments than any other cooling system on the market today. PLUS - provide two to four times the power density, in half the space!
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This next-generation thermal technology is validated in the marketplace and shipping to customers worldwide. Contact us today to see where evaporative cooling is used today, in Renewable Energy, Grid Energy Storage, Data Centers, HE Industrial Vehicles and Military Ground Vehicle applications. Learn more about Precision Cooling Systems
Evaporative precision cooling systems use proven, cost-effective Parker components and have been shipping globally. See DOWLOADS page for relevant case studies and news articles.
Why 2-Phase Cooling?
Ideal for industrial , renewable energy and even data center applications, Parker’s patented 2-phase "evaporative" precision cooling systems can increase the power throughput for high power systems by up to 40%. In addition, the highly efficient cooling process can increase electronics density by 2X or more, or simply reduce existing packaging size.
Click "Read more" below for a quick link to TECHNOLOGY
By combining a Vaporizable Dielectric Fluid (VDF) refrigerant with the science of heat dissipation through vaporization, we’ve created a safer, more efficient method of heat transfer that eliminates the risk of a catastrophic electrical short.
Plus our next-generation Evaporative Cooling systems are modular, scalable, hot-swappable and low maintenance!
What's New?
Jan 9, 2012 - Parker unveils a safer, more efficient evaporative cooling system for hybrid heavy equipment motor drives... ( click download below for full release)
UPCOMING EVENTS:
AWEA Windpower 2012 June 3-6 Atlanta, GA l
Super Computing 2012 Nov 15-18 Salt Lake City, UT Booth #231
How it Works
Parker's two-phase evaporative cooling system uses a refrigerant that is non-corrosive and non conductive to cool electronics in a closed-loop, highly efficient system that is fully modular, as well s lighter, safer and more reliable than traditional thermal systems. The system uses a small pump to deliver just enough coolant to the evaporator -usually a series of one or more cold plates optimized to acquire the heat from the device being cooled. The two-phase coolant vaporizes to maintain a cool uniform termperature on the surface of the device. Then, the vaporized coolant is pumped to a heat exchanger, where it rejects heat to the ambient, and condenses back into a liquid, completing the cycle. The benefits are palpable:
- Smaller, lighter, safer and more reliable than traditional cooling systems
- 2-4 times better heat transfer
- Evaporative cooling system is Isothermal - The system dynamically optimizes to heat load
- 40% increase in electronics throughput
- Enables up to 2X the power density in the same space
- Uses 80% less liquid, which means less weight. and less space
- 85% reduced energy consumption for cooling
- Modular & Scalable
- No altitude or hot climate de-rating necessary
- Maintenance free
