Episode 68: Five Pillars of Compressed Air Efficiency

Jason Reed

Welcome back to The Big Dog Podcast. I'm Jason Reed, here with Lisa Saunders, and today we're talking about something a lot of plants depend on but don't always look at closely enough: air compressor efficiency.

Lisa Saunders

[curious] Yeah, and this is one of those topics that sounds narrow until you really get into it. Because compressed air isn't just another piece of equipment. In a lot of facilities, it's a core utility. It touches production, maintenance, quality, energy use, all of it.

Jason Reed

[matter-of-fact] Exactly. If compressed air goes sideways, the whole place feels it. Maybe it's tools slowing down, controls acting weird, packaging missing a beat, robots not doing what they're supposed to do. It doesn't take much.

Lisa Saunders

And that's why we like this idea of the five pillars. If you're serious about compressed air efficiency, you're really looking at five things together: energy efficiency, cost efficiency, reliability, lifespan, and performance.

Jason Reed

Not just the power bill.

Lisa Saunders

[emphatic] Right. Because people hear efficiency and immediately think kilowatts. And sure, that's huge. In many manufacturing plants, the air compressor motor is one of the biggest motors in the building, and often one of the biggest energy users too.

Jason Reed

Which makes it a real target. If you've got one of the largest loads in the plant, even small improvements matter. And a lot of them are not exotic. Better sizing. Better equipment selection. Smarter controls. Maintenance that actually gets done. Multi-compressor setups that aren't fighting each other.

Lisa Saunders

And some of those fixes take little to no investment, which is why compressed air gets so much attention when teams start chasing energy savings. The impact can go straight to the bottom line.

Jason Reed

[pauses] But here's where people get tripped up. They focus on one pillar and ignore the others. They'll say, we're saving energy, so we're good. Well... maybe not. If the system becomes less reliable, or you're chewing through equipment life, or performance at the point of use is lousy, that's not efficient. That's just shifting the pain somewhere else.

Lisa Saunders

[serious] Yeah, that's the key. A truly efficient system works across all five pillars. So energy, yes. But also cost. And cost is broader than energy. Leaks matter. Artificial demand matters. Open drains, failed condensate drains, pressure set too high, safety blow-off leakage, even people using compressed air for things they really shouldn't.

Jason Reed

Like blowing dust off their clothes at the end of shift. Everybody's seen it.

Lisa Saunders

Everybody's seen it. It feels harmless, but it adds up. The bigger point is compressed air is not free. If it's not an authorized use, it's waste.

Jason Reed

And badly designed or badly maintained systems waste serious money. CAGI points out that poorly designed and maintained compressed air systems waste up to 3.2 billion dollars in utility payments annually in the U.S. That's not a rounding error.

Lisa Saunders

Nope. Then you get into reliability, and honestly, for a lot of plant managers, that jumps to the top of the list. If you can't count on air being there when production needs it, who cares if your efficiency spreadsheet looks nice?

Jason Reed

[firmly] I'm with you on that. Reliability is the rent you pay to stay in the game. If the compressor system is unstable, everything downstream is unstable.

Lisa Saunders

Then there's lifespan. Compressors are a real capital investment. Too many places install them and kinda treat them like they'll run forever without attention. A properly maintained rotary screw compressor can be productive for years, even decades. But maintenance is what gets you there.

Jason Reed

And that same maintenance helps the other pillars too. Better life, better reliability, better operating cost, often better safety. Fewer emergency replacements, fewer rush orders, less overtime, fewer people standing around waiting for air to come back.

Lisa Saunders

Last pillar: performance. This is where the system has to actually deliver what the application needs. That starts with selecting the right compressor, sizing it correctly, choosing the right controls, including VSDs when they fit, adding enough storage, and installing it properly.

Jason Reed

So if you're listening and thinking, where do I start, start by dropping the idea that efficiency means just one thing. It doesn't. Real compressed air efficiency is when the system uses energy wisely, controls cost, stays reliable, lasts a long time, and performs on demand.

Lisa Saunders

Yeah, it's a balanced system. Miss one pillar, and the others usually start wobbling too.

Lisa Saunders

[practical] Alright, so let's make this practical. What tells you the system is drifting out of that balance? There are some pretty clear red flags.

Jason Reed

First one is simple: you can't maintain pressure. If the compressor struggles to hit required pressure, your users aren't getting what they need. And when that happens, you've gotta look at both sides. Supply and demand. Don't just assume you need a bigger machine.

Lisa Saunders

Exactly. Another one is rising energy bills. If power consumption is climbing, that can point to leaks, demand growth, pressure creep, or even a failing VSD. The bill is telling you something. You just need enough information to know what.

Jason Reed

Increasing downtime is another. Now, if you've ruled out obvious component failures or control issues, more downtime can mean the compressor doesn't match the demand profile anymore. Maybe the plant changed. Maybe production changed. Maybe the air system never got updated to match.

Lisa Saunders

And then there's short cycling. Fast cycling, rapid cycling, whatever your team calls it. Constantly turning on and off, loading and unloading. That's hard on the compressor. If you see that, don't shrug it off.

Jason Reed

No, that's a real warning sign. Same with increased discharge temperatures. Hot air can damage end-use tools and equipment, and it can degrade lubricants and seal materials. Plus the moisture side gets ugly. Corrosion, scale buildup, and in colder climates maybe even freezing.

Lisa Saunders

And oil carry-over. Sometimes that's a filter issue, sometimes a clogged scavenger line, and sometimes it's pointing to something more serious. The point is, it's not normal, and it's not something you just keep running through.

Jason Reed

[matter-of-fact] So what do you do with all that? You track data. I know, not the most glamorous answer, but it's the right one. You can't improve energy, pressure stability, lifespan, or performance if you don't know where you stand today.

Lisa Saunders

Yeah, and this matters for another reason too. Management usually wants numbers. If you're asking for upgrades, repairs, controls changes, storage, or even just time and budget to fix chronic issues, data helps you make the case.

Jason Reed

Pressure, flow, pressure drop, temperature, humidity, energy consumption. Those are the kinds of things that start turning opinions into facts.

Lisa Saunders

And once you have those numbers, the next step is not to stare at a spreadsheet and hope for wisdom. It's to turn the data into action. That usually means maintenance first, because maintenance is still the main driver of reliability and lifespan.

Jason Reed

Yep. Regular inspections, leak checks, filter changes, drain checks, making sure the system's operating the way it was intended. Boring? Maybe. Effective? Absolutely.

Lisa Saunders

Then, if the picture still isn't clear, or the problems are bigger than one machine, that's where an audit makes sense. A compressed air audit can quantify airflow, pressure drops, humidity, temperature, energy use, the whole system picture. And it can usually be done with little, if any, interruption to operations.

Jason Reed

That's important. A lot of teams avoid audits because they think it's gonna shut the place down. Usually, dataloggers get installed and they just keep recording while the plant runs.

Lisa Saunders

And having compressed air expertise involved helps. Sometimes you're too close to the system. You know where the drains are, you know which machine has been cranky since forever, but an outside set of eyes can connect the dots faster.

Jason Reed

I'll put it this way: if you've got pressure problems, rising energy, more downtime, short cycling, hot discharge temps, or oil carry-over, don't wait for a failure to make the decision for you. Start measuring, start maintaining, and get a real look at the system.

Lisa Saunders

Because once you know what the air system is actually doing, you can make smarter decisions across all five pillars, not just one.

Jason Reed

That's it. Simple idea, not always easy, but worth doing.

Lisa Saunders

Alright, that's our rundown on compressed air efficiency for today. Jason, good one.

Jason Reed

Appreciate it, Lisa. And to everybody listening, keep your system honest and your data closer. We'll catch you next time.

Lisa Saunders

See you next time. Bye, everybody.