U.S. Patent 10,731,064
Less friction. Less power. Same cooling.
Precision Refrigerant is a patented, drop-in refrigerant that reduces compressor energy consumption while maintaining full chemical compliance with AHRI-700 standards. The improvement is purely mechanical — which is why it works on the equipment you already own.
How it works
The mechanism
1
Friction goes down
A tribological enhancement reduces the compressor's coefficient of friction and wear rate. The refrigerant's chemistry, boiling point, and pressure curves remain unchanged.
2
Power draw follows
Less mechanical friction means less electrical energy is required to do the same work — the compressor produces the same or greater cooling output while drawing less power.
3
Savings compound
Real-world savings are materially higher than lab baselines because accumulated wear and variable loads amplify the effect. In the longest field study, savings grew over time.
Proven results
10+ years of independent testing
Figures from independent lab and field studies; results vary by system age, load profile, and operating conditions.
| Study / setting | Key finding | Why it matters |
|---|---|---|
W Hotel Lakeshore, Chicago 200-ton chiller · 2 years | 32–43% improvement in kW/ΔT, statistically significant at p < 0.0001. | Longest field study, run with a simultaneous control compressor. Savings grew over time. |
Large hotel complex, Dallas 40-ton units · 1 year | 20.7% reduction at pilot; 20.1% sustained at one year. | Side-by-side identical units serving the same space. Savings were consistent and durable. |
Data center CRAC units 22-ton CRAC units | 22% daily kWh reduction. | Verified by a licensed PE/CMVP with 1-minute interval logging and a control unit. |
Westin Jersey City 15-ton rooftop unit | 32% kWh savings, temperature-normalized. | Cross-validated via two independent methods, both converging at 32%. |
ARL laboratory test AHRI 210/240 standard | SEER +6%, cooling capacity +7–13% vs. R-134a. | Lab baseline; real-world savings are materially higher due to accumulated wear and variable loads. |
ARL multi-refrigerant comparison Five refrigerant families | EER improvements of +9% to +43% across five refrigerant families. | Consistent across R-22, R-404A, R-407C, R-438A, and R-427A. |
Safety & compatibility
Engineered to change nothing else
- AHRI-700 compliant — chemically identical to standard refrigerant
- ASHRAE 97 stability confirmed: decomposition <0.05%, dissolved metals <1 ppm
- GWP 11% lower than R-134a (1,151 vs. 1,300)
- Compatible with scroll, reciprocating, and screw compressors
- Drop-in replacement — no hardware modifications required
- 10+ years in the field with zero system failures or warranty issues
Estimate
What would 10–20% look like for you?
Rough math against the documented study results — two inputs, honest ranges.
Cooling-heavy facilities often sit around 40–60%.
Estimated annual savings
$2,400 – $4,800
at the documented 10% minimum and 20% median — upper observed results exceed 40% ($9,600+)
Figures from independent lab and field studies; results vary by system age, load profile, and operating conditions. Estimate only — not a quote or a guarantee.
Get real numbers for your facilityThe bottom line
Your system draws less power while producing the same cooling — verified in independent labs and real-world installations — without changing your equipment, your maintenance provider, or the refrigerant chemistry your system was designed for. Expect a minimum of 10% energy savings with a median of 20%; in most cases the savings pay for the product within one year.
Figures from independent lab and field studies; results vary by system age, load profile, and operating conditions.