The rapid growth of electric vehicle sales has made battery thermal management a critical focus for automakers to ensure vehicle safety and performance. Simultaneously, advances in AI and big data have driven increased computing power, elevating the demand for efficient heat dissipation in data center servers and imposing higher performance requirements on coolant fluids.

• Insufficient insulation of coolant may cause high-voltage system short circuits, triggering safety hazards;

• Material corrosion causing leakage, repair costs can reach tens of thousands of yuan, severely affecting vehicle service life;

• Failure to meet environmental standards faces regulatory penalties and brand-reputation risks!

GB 29743.2-2025 “Electric Vehicle Coolant” clearly specifies key indicators such as electrochemical performance and environmental safety, and third-party laboratory testing is the only authoritative path to prove compliance!

Behind the soaring computing power, coolant hidden dangers cannot be ignored!

In the data-center field, coolant performance is equally crucial. Computing power and energy consumption have gradually exceeded air-cooling thresholds; liquid cooling is the trend. Immersion liquid-cooling technology, as an efficient heat-dissipation method, is being widely adopted in data centers.

• Traditional coolants have insufficient thermal conductivity: localized overheating causes server downtime, losses exceeding one million per hour!
• Corrosion and leakage risk: precision equipment encountering corrosive liquids leads to high repair costs and affects data security;
• Low energy efficiency ratio: inefficient coolant increases PUE value, yearly electricity cost soaring by 30%!

GB 29743.2-2025 (reference applicable clauses) draws the red line for coolant performance, but cloud-based testing + intelligent management is the future standard!

Runningland × GB 29743.2-2025 cloud intelligent control, one-stop solution, making cooling more efficient and safer!

Thermal-control fire protection and data-center XPU chip power consumption

Power consumption and heat dissipation of data-center XPU chips have always been important challenges in data-center operations. With the continuous increase in data-center computing-power demand, the application of advanced heat-dissipation technologies such as immersion liquid cooling can effectively lower chip temperature, improve computing efficiency, and simultaneously reduce energy consumption. Thermal-control fire-protection systems provide safety assurance for the operation of energy-storage systems; especially in high-energy-consumption sites such as data centers, configuring energy-storage systems can enhance power-supply reliability and prevent data loss caused by accidental power outages.

Runningland: the “national team” in new-energy-vehicle testing + the “guardian” of data centers

Full qualifications: dual accreditation by CNAS and CMA, reports recognized worldwide;

Strong equipment: imported conductivity meters, ion chromatographs, electric-vehicle coolant circulation bench test instruments, precisely aligned with national standards;

Our testing services: not only “qualified,” but pursuing “excellence”—Why choose us?

• Fast: routine testing issues reports within 5 days, rush service as fast as 24 hours;
• Save: package pricing discounts, first order includes free “pH-value test”
• Stable: coolant life extended, data-center energy consumption reduced.

Choose Runningland, choose the new era of intelligent cooling, jointly safeguard the “lifeline” of computing power, and help automakers in the new-energy track!