Industries Served

Ultra-Dry Air Without Over-Treating

Semiconductor fabs and electronics assembly need ultra-clean, ultra-dry air, often below minus 40 F pressure dew point, where trace contamination costs yield. The line between adequate and over-treated is exactly where the energy decision lives.

Typical System
100-800 HP
High-purity treatment trains
Dew Point
-40 F
Pressure dew point where the process demands it
Air Quality
ISO 8573
Validated to the class your process requires
01

Protects yield

Dew-point excursions risking product yield get caught with continuous logging, not a one-day snapshot.

02

Treats to the real spec

Over-treatment adds energy cost without improving quality. I trend air quality against the actual process requirement so the treatment train is sized to it.

to -40 F PDP
03

Finds cleanroom leaks

Small leaks in cleanroom ceiling plenums are hard to locate acoustically. I survey them and link air-quality events to scrap-rate trends.

Typical system size

100 to 800 HP with high-purity treatment trains

Common issues I find
  • Dew-point excursions risking product yield
  • Over-treatment adding energy cost without improving quality
  • Small leaks in cleanroom ceiling plenums hard to locate acoustically
  • No trending data linking air quality events to scrap rate

How I find and fund the savings here.

Service 01

ISO 8573 Air Quality Testing

Verified air purity assessment to the ISO 8573 class your process requires.

Service 02

PeakOS Monitoring

High-frequency logged data for proactive, real-demand system management.

Service 03

Leak Detection

Ultrasonic survey of the distribution network, tagged and quantified in CFM and dollars per year.

Service 04

System Performance Assessment

Comprehensive data logging from generation to point-of-use to find the true cost of production.

Get Started

Talk to an independent specialist.

No gatekeepers, no sales layer. You reach the person who performs the audit, reads the data, and signs the findings.