Liquid Cooling Videos

Liquid Cold Plate Solutions eMobility Transportation

Transcript: Liquid Cold Plate Solutions eMobility Transportation

Liquid Cold Plate (LCP) Solutions for eMobility and Transportation

IGBT (Heat Source) custom integrated liquid cooling systems enable greater power density and performance while lowering energy consumption and total operating cost.

Liquid Cold Plate (LCP) optimized for each heat source’s thermal profile to unlock maximum performance and system efficiency by delivering coolant to critical locations.

Thermal Interface Materials (TIM) maximize heat transfer to the cold plate by reducing case-to-fluid resistance, accounting for surface irregularities and mounting forces.

Internal Fins and Turbulators proprietary design simulation optimizes coolant turbulence to maximize heat transfer and system performance by extending fin surface area without increasing cold plate size

Base

Inlet Port

Outlet Port

Standard Recirculating Chiller

Transcript: Standard Recirculating Chiller

Standard Recirculating Chiller

Frame- Ruggedized steel frame, casters for mobility, easy service assembly

Controller- intuitive color touchscreen for precise temperature control and monitoring

Pump- top quality centrifugal and turbine pumps with predictive maintenance maximize uptime and reliability

Compressor- enhance sustainability with highly efficient and reliable rotary compressors that use green refrigerants

Condenser- high efficiency thermal transfer removes system heat for high temperature operation up to 40°C ambient temperature

Evaporator- compact high thermal transfer brazed plates increase system efficiency

Boyd Corporation

Boyd Aviation Solutions

Transcript: Boyd Aviation Solutions

Boyd Aviation Solutions

Liquid Cooled Electronics Chassis- increase power density without adding mass by integrating liquid flow paths into chassis walls to draw heat away from critical electronics.

Aluminum and High-Temperature Heat Exchangers- compact, lightweight cooling resilient against high pressure and harsh environments improves long term engine reliability.

SOLIMIDE® Foam Insulation- lightweight, low density, low smoke/non-toxic, non-flammable (FAR 26.856(a) compliant) thermal and acoustic insulation enhances fire protection and pilot/personnel safety.

k-Core® Heat Spreaders= aluminum encapsulated graphite rapidly spreads heat from sensitive components in high g-force environments where passive cooling enhances system reliability.

Vacuum Brazed Liquid Cold Plates- optimize thermal transfer from high heat load systems to existing coolant loops to increase power levels and maintain safe operating temperatures.

Vacuum Brazed Air-Cooled Heatsinks- efficient heat transfer fins cool low and medium-powered devices when air cooling is preferred near sensitive electronics.

Heat Pipe Assemblies- leverage air cooling in constrained or densely packed designed by transporting heat from its source to a remote area with access to better airflow to safely dissipate heat.

Gaskets and Seals- ruggedize and protect against harsh vibration and liquid, gas, or particle contamination to extend product lifetimes with greater safety and reliability.

Boyd Corporation

Liquid Cold Plate Solutions Industrial Medical Renewables

Transcript: Liquid Cold Plate Solutions Industrial Medical Renewables

Liquid Cold Plate (LCP) Solutions for Industrial, Medical, and Renewables

IGBT (Heat Source) custom integrated liquid cooling systems enable greater power density and performance while lowering energy consumption and total operating cost.

Liquid Cold Plate (LCP) optimized for each heat source’s thermal profile to unlock maximum performance and system efficiency by delivering coolant to critical locations.

Thermal Interface Materials (TIM) maximize heat transfer to the cold plate by reducing case-to-fluid resistance, accounting for surface irregularities and mounting forces.

Internal Fins and Turbulators proprietary design simulation optimizes coolant turbulence to maximize heat transfer and system performance by extending fin surface area without increasing cold plate size.

  • Base
  • Inlet port
  • Outlet port

Chiller- designed for fast setup and rapid cold plate testing with industry specific manifolds, enabling improved system performance by rejecting higher thermal loads.

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