Traceable Air for Aerospace and Defense
Aerospace machining centers, composite layup rooms, and clean rooms need extremely stable pressure and dew point, often under ITAR or DCAA compliance that adds documentation to every system change. I bring the metered evidence and the paper trail.
Stable dew point, documented
Dryer cycling that swings dew point in precision machining is both a quality and an energy problem. I log it and right-size the drying around the real load.
Maps the legacy layout
Legacy piping with dead legs and uncharted branches hides pressure loss. The survey charts it so modifications are made on evidence, not memory.
Built for the paper trail
Stringent documentation requirements for system modifications are the norm. I bring metered evidence in a form that survives audit.
200 to 2,000 HP with N+1 redundancy requirements
- Stringent documentation requirements for system modifications
- Dryer cycling causing dew-point swings in precision machining
- Legacy piping layouts with dead legs and uncharted branches
- Siloed maintenance teams lacking cross-plant benchmarking
How I find and fund the savings here.
ISO 8573 Air Quality Testing
Verified air purity assessment to the ISO 8573 class your process requires.
System Performance Assessment
Comprehensive data logging from generation to point-of-use to find the true cost of production.
Leak Detection
Ultrasonic survey of the distribution network, tagged and quantified in CFM and dollars per year.
PeakOS Monitoring
High-frequency logged data for proactive, real-demand system management.
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.
