DATA CENTERS

As data centers adopt higher‑density computing environments, advanced cooling strategies have become essential for managing heat and maintaining system performance.

These cooling technologies rely on precisely formulated fluids to deliver efficient heat transfer while protecting sensitive components from corrosion, contamination and material compatibility issues.

Routine monitoring and analysis of cooling fluids provides critical insight into fluid condition, additive health, contamination levels and degradation trends that can directly impact system reliability and uptime. Early detection of issues such as particulate contamination, moisture ingress, chemical breakdown or corrosion risk allows operators to take proactive action before performance is compromised or equipment is damaged.

POLARIS Laboratories^® delivers comprehensive fluid testing and expert interpretation designed to support the unique demands of data center cooling systems.

To request a quote, contact us ➡︎.

Direct to Chip (DTC) Cooling Fluids

Routine testing and analysis of direct‑to‑chip cooling fluids helps ensure effective heat transfer while identifying contamination, corrosion risk and additive depletion before they impact system performance or uptime.

Antifreeze %
Internal Method
Boil Point
Internal Method
Elemental Metals Analysis by ICP
mod. ASTM D5185
Freeze Point
mod. ASTM D3321
HPLC
Internal Method
Ion Chromatography
ASTM D5827
Nitrite
Internal Method
pH Waters
ASTM D1287
Reserve Alkalinity
ASTM D1121
Specific Conductance
Meter Measurement
Total Dissolved Solids (TDS)
Meter Measurement
Total Hardness
Internal Method
Turbidity
ASTM D6855
Visual (color, oil and/or fuel contamination, foam magnetic/non-magnetic precipitation and odor)
Internal Method

Advanced liquid cooling system enhances performance and efficiency in data centers bitcoin mining farm

modern big diesel generator for power backup, industry

BackUp Power Generation

Routine testing and analysis of backup generator oils, coolants and diesel fuel helps ensure reliable startup performance, protect critical components and reduce failure risk when power continuity matters most.