Compressed Air Leak Detection

Compressed Air Leaks Waste Energy and Money while Threatening your Production Capability.

Compressed air is one of the most expensive utilities in industrial facilities—and also one of the most wasted. Leaks can account for up to 30% of total compressed air use, driving up energy costs and putting unnecessary strain on equipment. 

Ultrasound finds these leaks fast — no shutdowns, no guesswork. It’s simple to learn, quick to deploy, and often pays for itself the same day. 

Technician using SDT340 ultrasonic detector to locate compressed air leaks in an industrial facility.
Worker scanning overhead compressed air lines with a SonaVu acoustic imaging camera for leak detection.

Why Leak Detection and Repair (LDAR) Matters

Compressed air is one of the most expensive utilities in industrial facilities — and also one of the most wasted. 

Leaks can account for up to 30% of total compressed air use, inflating energy costs and putting unnecessary stress on compressors, and connected assets. That adds up fast — in higher bills, missed production targets, and reduced equipment lifespan. 

Compressed air leak detection is the cornerstone of an effective LDAR program. And ultrasound makes it faster and more effective than any other method. 

Ignoring Air Leaks Costs More than you Think 

Compressed air leaks aren’t just noisy — they’re expensive. Left unchecked, they drain energy, drive up costs, and push your systems harder than they were built to run.

Wasted energy caused by undetected compressed air leaks.

Efficiency & Energy Loss

Valuable energy is wasted, costing money and efficiency.

Equipment overworked due to air leaks and pressure loss.

Accelerated Equipment Wear

Equipment runs longer and wears out faster.

Higher emissions and lost sustainability due to air waste.

Environmental Impact

Emissions rise and sustainability goals slip away.

Unseen leaks causing performance and reliability issues.

Hidden Threats and Risks

Production risks increase with every unseen leak.

Maintenance technician using SonaVu acoustic camera to detect pressurized air leaks in a noisy industrial environment.

Ultrasound makes leak detection fast, easy, and reliable

  • Airborne sensors detect turbulence created by pressurized leaks, even in noisy environments 
  • Scan while operating — no shutdown needed 
  • Tag and quantify leaks using SDT’s Leak Reporter app or SonaVu Insights 
  • Build inspection routes for repeatable, scalable results 

Our Solutions for Compressed Air Leak Detection

Data Collection
Data Collection

Our route-based data collection solutions combine airborne and contact ultrasound sensors with precision vibration analysis into versatile, multi-purpose reliability data collectors. Fully integrated with the world's most powerful predictive maintenance software, these intuitive tools streamline asset inspections, simplify workflows, and deliver superior reliability outcomes.

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Permanent Monitoring
Permanent Monitoring

Our ultrasound and vibration permanent monitoring solutions offer industry-leading sensitivity for the earliest possible fault detection. Engineered for durability and ease-of-use, these solutions provide remote, automated diagnostics—reducing maintenance costs and delivering a comprehensive, facility-wide view of asset health.

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Imaging
Imaging

Imaging technologies enhance visibility into hidden problems—revealing heat, sound, and motion that the eye can’t see. From thermal and acoustic imaging to motion amplification, reliability teams can use these vision enhancing technologies to detect failures. Our imaging solutions are a powerful way to see more, understand faster, and act with confidence.

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Lubrication
Lubrication

Ultrasound-guided lubrication empowers maintenance teams to grease bearings with precision by monitoring friction in real time during greasing tasks. By comparing live decibel readings to historical baseline data, technicians can identify when lubrication is truly needed, and when enough has been applied; preventing both under- and over-lubrication.

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The Inspection Process

01

Plan the Route

Map out your inspection path, gather the right ultrasound equipment, and ensure proper PPE is in place for safe, efficient scanning.

02

Perform the Scan

Use airborne sensors or acoustic imaging to sweep across target areas. Listen and look for ultrasonic signatures of turbulence caused by compressed air or gas leaks.

03

Analyze and Report

Review collected data, tag leak locations, and quantify losses. Use tools like SonaVu Insights or Leak Reporter to prioritize repairs and track ROI.

04

Repair and Resurvey

After identifying issues, fix the leaks, then scan the same areas over again to validate your repairs and ensure that nothing was missed.

Get Started in Three Simple Steps

Book a Consultation
Identify where air losses are hurting efficiency and costing you money. 
Deploy and Train
Equip your team with tools and hands-on training to find and prioritize leaks.
Monitor, Analyze, and Act
Stop waste, cut costs, and boost reliability with every leak you eliminate. 
Book My Free Demo

Compressed Air Leak Frequently Asked Questions

What else can I use ultrasound for?

Ultrasound is incredibly versatile. In addition to compressed air leak detection, it’s used for bearing lubrication, valve inspection, steam trap testing, tightness testing, and even electrical discharge detection. One tool. Multiple use cases. 

What kind of training is required?

Most teams can get started in a single session. SDT offers guided onboarding, certification programs, and free learning content through SDT.Training. 

Can I estimate the cost of each leak?

Yes. Tools like Leak Reporter and SonaVu Insights calculate estimated loss and CO2 impact. You’ll know how much energy you’re losing — and how quickly repairs will pay off. 

Can I track and report everything in one place?

Absolutely. SDT’s software platforms let you tag, document, trend, and export everything you find. Build reports, estimate ROI, and share results with your team or management. 

What kind of ROI can I expect from leak detection?

Most facilities recover their investment within weeks — sometimes even on day one. Reduced air loss, lower utility bills, and deferred capital expenditure on compressors all contribute to fast ROI. 

Is ultrasound leak detection easy to learn?

Yes. With SDT’s training and intuitive tools like ULTRAChecker and SonaVu, most users can begin scanning and tagging leaks effectively in under a day. 

Do SDT tools come with supporting software?

Absolutely. SDT offers the Leak Reporter app and SonaVu Insights for leak quantification, tagging, sizing, and reporting. You can build routes, prioritize repairs, and track performance over time. 

Why is sensor technology so important?

SDT’s airborne sensors are highly directional and can detect leaks from up to 15 meters away. They offer precise detection in noisy environments and allow you to listen back to recordings for confirmation and analysis. 

How does this help with sustainability goals?

Compressed air and gas leaks are a hidden drain on energy. Fixing them reduces emissions, helps meet ESG targets, and supports ISO 50001 energy management frameworks. 

How do I justify a leak detection program to upper management?

Focus on the financial and environmental impact: quantifiable energy savings, reduced compressor workload, extended equipment life, and measurable sustainability gains. SDT provides templates and reporting tools to help make the case.