Active Cooling
THERMAL_RESILIENCE // LIQUID_DYNAMICS
Thermal Engineering
Active Cooling systems are engineered for the most demanding agricultural environments. Utilizing advanced direct-to-chip liquid cooling and dielectric immersion technologies, high-performance clusters remain operational in peak field temperatures exceeding 45°C. This ensures consistent AI inference and data availability regardless of environmental extremes.
[CDU_THROUGHPUT]: 125 L/min
[RACK_DENSITY]: 100kW+ SUPPORTED
[HEAT_REUSE_EFF]: 85% (GREENHOUSE_HEAT_SYNC)
Active Thermal Stack
Maintaining uptime in extreme agricultural heat requires a multi-layered, redundant cooling strategy:
- DIRECT-TO-CHIP LIQUID COOLING (DLC)
- SINGLE-PHASE DIELECTRIC IMMERSION (Full Submersion)
- HIGH-STATIC PRESSURE SMART FAN ARRAYS
- WASTE-HEAT RECOVERY (Greenhouse Thermal Sync)
- REAL-TIME SENSOR FUSION & PUE OPTIMIZATION
Leading Research Institutions
ASHRAE TC 9.9
The global authority on data center thermal guidelines, setting standards for liquid cooling and equipment environmental envelopes.
Georgia Tech Thermal Lab
Pioneering research in microfluidic cooling and advanced phase-change materials for high-density electronic cooling.
Stanford Flow Physics
Focusing on the fundamental mechanics of heat transfer and fluid dynamics in complex high-performance systems.
Fraunhofer IBP
Specializing in the energy-efficient cooling of large-scale infrastructures and innovative heat recovery for agricultural use.