5 Factors to Consider When Buying a New Chiller Unit

What Are the Cooling Requirements for Your Facility?

Understanding your facility’s cooling requirements is the first step to choosing the right chiller. Factors such as the size of your space, the heat load, and the nature of your operations all impact the specifications you need. A manufacturing facility might require high-capacity cooling to manage equipment heat, while a smaller office might need a compact solution. 

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Evolution Cooling’s team excels at assessing these needs, ensuring you select a chiller with the right capacity and configuration. Our tailored recommendations account for operational demands, ensuring maximum efficiency and minimal downtime. Whether you’re upgrading an outdated system or installing a new one, aligning your choice with your cooling demands ensures optimal performance and long-term reliability.

What Are the Different Types of Chillers Available?

Chillers are classified into various types, each tailored to specific applications and operational needs. Air-cooled chillers are a popular choice for smaller facilities or locations where water resources are limited, as they rely on ambient air to dissipate heat. These systems are easier to install and maintain, making them suitable for buildings with space constraints or lower cooling demands. However, they can be less efficient in hot climates, where ambient temperatures challenge heat exchange. Water-cooled chillers, on the other hand, are designed for larger installations requiring high-efficiency cooling. These systems use a water source, such as a cooling tower, to manage heat more effectively, offering superior performance even in demanding environments. 

Other types include evaporative chillers, which combine air and water cooling for enhanced efficiency, and hybrid systems that adapt to fluctuating demands. Selecting the right chiller depends on factors such as facility size, energy goals, and environmental conditions. A thorough evaluation ensures a solution that balances operational needs with cost efficiency. At Evolution Cooling, we can provide guidance on the best option for your needs, offering an extensive range of models to fit any facility. 

How Does Energy Efficiency Impact Chiller Performance and Costs?

Energy efficiency is a critical consideration when purchasing a chiller. Choosing an energy-efficient model reduces operational costs and aligns with sustainability goals. Look for chillers with a high SEER (Seasonal Energy Efficiency Ratio) rating or advanced features, such as variable speed drives, to improve performance. 

Please note that Evolution Cooling prioritises efficiency, offering a selection of chillers that not only reduce energy consumption but also enhance long-term savings. Our expertise ensures that you select a chiller designed to meet your energy requirements while keeping utility bills manageable. With the right model, you can achieve both peak performance and cost-effectiveness, ensuring your investment pays off over time.

How Important Is Maintenance and Servicing for Chiller Longevity?

Routine maintenance is vital for keeping a chiller functioning efficiently and extending its lifespan. Without regular servicing, chillers are more prone to reduced performance, higher energy consumption, and unexpected breakdowns, which can be costly to repair. Proper maintenance involves inspecting key components such as compressors, condensers, and evaporators, as well as monitoring refrigerant levels and cleaning filters. Addressing minor issues early prevents them from escalating into significant problems that disrupt operations. Regular maintenance also improves energy efficiency, ensuring the system runs optimally and lowers operational costs over time.

We help to minimise these risks by providing thorough maintenance services, including routine inspections and prompt repairs. With quick access to replacement parts and expert servicing, operational downtime is kept to a minimum, enhancing both the reliability and longevity of the equipment.

What Should You Know About Initial Costs Versus Lifetime Costs?

When buying a new chiller, balancing initial costs with lifetime costs is crucial. While cheaper models may seem attractive, they often come with higher operational expenses due to inefficiency or frequent repairs. 

Our energy-efficient chillers and tailored maintenance plans reduce overall costs, making them a sound investment. By focusing on both upfront affordability and ongoing savings, we will ensure that your chosen system provides maximum return on investment over its operational life. This factor alone makes us the ideal choice for businesses prioritising cost-effectiveness and reliability.

Factors When Buying a New Chiller Unit in Summary

Choosing a new chiller involves balancing technical and practical requirements. By thoroughly assessing your facility’s needs and the options available, you can ensure optimal performance and cost-effectiveness. With expert guidance and comprehensive solutions, Evolution Cooling makes it easier to find the perfect chiller unit tailored to your goals.

Chilled Water System Maintenance | Comfort Temp

Why Regular Chilled Water System Maintenance Matters

Chilled water system maintenance is essential for keeping your cooling system running efficiently and reliably. For quick reference, here are the key maintenance tasks that should be performed:

Maintenance Task Frequency Purpose Daily logs of pressures, temperatures, flow rates Daily Early detection of issues Inspect and clean strainers Every 3 months Prevent clogs and maintain flow Clean condenser coils Every 6 months Optimize heat transfer Analyze compressor oil Annually Detect wear and contamination Clean evaporator and condenser tubes Annually Maintain efficiency Test water quality and treat as needed Quarterly Prevent scale, corrosion, and biological growth Purge non-condensable gases As needed Just 1 psi of air reduces efficiency by 3%

In most commercial and institutional buildings, chiller systems are the single largest consumer of electricity. During peak cooling seasons, they can account for more than 50% of your total electricity usage. That’s why proper maintenance isn’t just about preventing breakdowns—it’s about controlling costs.

Think of your chilled water system as the heart of your building’s cooling infrastructure. Like any heart, it needs regular care to function at its best. A well-maintained chiller can have a service life exceeding 20 years, while neglected systems often fail prematurely and operate inefficiently in the meantime.

The good news? Regular maintenance can reduce chiller energy consumption by 5-10%. For a system that consumes such a large portion of your energy budget, those savings add up quickly.

As one maintenance professional put it, “A happy chiller makes for a happy bill.” This simple truth underscores why developing a comprehensive maintenance program is so important for your bottom line and your comfort.

At Comfort Temp, we understand that unexpected cooling failures in Florida’s hot climate aren’t just inconvenient—they can be emergencies. That’s why we emphasize preventive maintenance as the best way to avoid those midnight service calls and keep your space comfortable year-round.

How a Chilled Water System Works & What’s Inside

Think of your building’s chilled water system as a circulatory system—much like your own heart and blood vessels. Instead of pumping blood, it circulates cold water to keep your building comfortable, especially during those sweltering Florida summers.

Before we talk about keeping your system healthy, let’s peek under the hood to understand what makes it tick. A chilled water system maintenance program is much more effective when you know what you’re maintaining!

Your chilled water system works by transferring heat from inside your building to the outside world through a clever refrigeration cycle:

1. Evaporator: This is where the magic begins. Warm water from your building flows through the evaporator, transferring its heat to refrigerant, which turns from liquid to vapor.
2. Compressor: The refrigerant vapor gets squeezed (compressed), which raises both its temperature and pressure.
3. Condenser: Now hot, the refrigerant releases its heat to the outside environment—either to air or water, depending on your system type.
4. Expansion Valve: The refrigerant pressure drops as it passes through this valve, cooling it before it returns to the evaporator to start the cycle again.

Meanwhile, the now-chilled water (typically a refreshing 42-46°F) gets pumped throughout your building to air handlers, where it absorbs heat from your indoor spaces. Then it returns to the chiller, ready to be cooled again. It’s an neat dance of thermodynamics that keeps you comfortable year-round.

Main Components at a Glance

Your chilled water system is made up of several critical components working in harmony:

Heat-exchanger tubes are the workhorses of your system, facilitating heat transfer in both evaporators and condensers. These tubes need to stay clean for efficient operation—a theme we’ll revisit when discussing chilled water system maintenance.

Compressors come in different varieties—reciprocating, rotary screw, or centrifugal—depending on your system size. Think of them as the heart that keeps everything pumping.

Motors and pumps move water through the system, while Variable Frequency Drives (VFDs) intelligently adjust motor speeds to match your building’s cooling demands—saving energy in the process.

Control systems act as the brain, regulating temperatures, pressures, and flow rates, while sensors and safety devices serve as the nervous system, constantly monitoring operation to prevent damage.

For water-cooled systems, cooling towers reject heat to the atmosphere, and filters and strainers keep the water loop clean of contaminants.

When it comes to chillers, you’ll typically encounter two main types: air-cooled and water-cooled. Each has its strengths and considerations:

Feature Air-Cooled Chillers Water-Cooled Chillers Cooling Method Uses fans to blow air over condenser coils Uses water from cooling tower to remove heat Efficiency Less efficient, especially in hot climates More efficient, especially for larger systems Installation Cost Lower initial cost Higher initial cost (requires cooling tower) Maintenance Simpler, but requires clean coils More complex, requires water treatment Space Requirements Requires outdoor space, but no cooling tower Requires indoor space plus cooling tower Typical Capacity 20 to 500 tons 20 to several thousand tons Lifespan Typically shorter (15-20 years) Typically longer (20-30 years with proper care) Best Application Smaller facilities, limited water availability Larger facilities, higher efficiency needs

Why Design Matters to Upkeep

The way your chilled water system was designed dramatically impacts how you’ll need to maintain it. Good design makes for easier chilled water system maintenance and better efficiency.

Flow velocity is a critical design factor. Most manuals recommend keeping water flowing between 3 and 12 feet per second. Too slow (below 3 fps), and you’ll get laminar flow that reduces efficiency. Too fast (above 12 fps), and you’ll face noise, vibration, and tube erosion problems.

The approach temperature—the difference between leaving chilled water temperature and refrigerant temperature—is like your system’s fever thermometer. If this number starts creeping up, it often signals fouling in the heat exchanger tubes.

We can’t overstate the importance of installation quality. At Comfort Temp, we’ve seen poorly installed systems that perform up to 20% worse than they should, with utility bills climbing by a similar margin. Proper pipe sizing, insulation, and component placement aren’t just technical details—they’re money in your pocket.

Understanding your system’s reference loads helps establish baseline performance metrics. Think of it as knowing your car’s normal gas mileage—if it suddenly changes, something’s wrong.

As North Central Florida’s cooling experts, our Comfort Temp technicians always consider these design factors when servicing your system. We know that effective chilled water system maintenance isn’t just about following a checklist—it’s about understanding the unique characteristics of your specific equipment. To learn more about the mechanisms behind chillers, you can visit this informative resource.

Chilled Water System Maintenance Essentials

Let’s face it—your chilled water system is a lot like that luxury car in your garage. It runs beautifully when properly maintained, but skip a few oil changes and suddenly you’re looking at some serious repair bills. Chilled water system maintenance isn’t just about preventing breakdowns; it’s about protecting your investment and keeping those energy bills in check.

Preventive Tasks & Schedules

The heart of effective chilled water system maintenance is a well-planned preventive program that catches small issues before they become expensive emergencies.

Your daily routine should include checking and logging operating temperatures, pressures, and flow rates—think of this as taking your system’s vital signs. When our technicians at Comfort Temp perform these checks, they’re comparing current readings against design specifications to spot concerning trends. We also listen for unusual noises (chillers can be quite chatty when something’s wrong) and keep an eye out for leaks or vibrations that signal trouble brewing.

Monthly, your system needs a bit more attention. This includes inspecting electrical connections (loose connections can cause overheating), checking refrigerant levels, and ensuring cooling tower fans and spray nozzles are working properly. Think of these as your system’s monthly check-up.

Quarterly maintenance digs a little deeper. We clean those all-important strainers (more often if they’re catching a lot of debris), test water quality, and make necessary chemical adjustments. We also take time to calibrate controls and inspect insulation for damage. Florida’s humidity can be particularly hard on insulation, so this step is crucial for our local clients.

The annual deep dive is where we really roll up our sleeves. This includes cleaning condenser and evaporator tubes (both mechanically and chemically), analyzing compressor oil, conducting vibration analysis, and testing all safety systems. We also perform thermographic surveys of electrical components to catch potential failures before they happen.

Systems serving critical areas like data centers or healthcare facilities may need more frequent attention. We customize maintenance schedules based on your specific needs and the criticality of the spaces being cooled.

Filters, Strainers & Check Valves

If you’ve ever had to clean a clogged drain, you know how frustrating accumulated debris can be. In a chilled water system, this frustration multiplies tenfold because debris can damage expensive components like pumps and heat exchangers.

Screen strainers are your first line of defense, catching larger debris before it can wreak havoc. Bag filters handle the medium-sized particulates, while cartridge filters provide that final, fine filtration that keeps heat exchangers running efficiently.

Maintaining these filtration components is surprisingly straightforward but absolutely critical. We regularly check pressure differentials across filters—an increasing pressure drop is the system’s way of saying, “Hey, I’m getting clogged up here!” Based on these readings or manufacturer guidelines, we clean or replace filter elements before they become completely blocked.

When servicing filtration components, we also check those often-forgotten check valves to prevent unwanted backflow. And we’re always careful about proper storage of spare cartridges—keeping them in original packaging in clean, dry environments ensures they’ll be ready when needed.

Here in Florida, our water often contains minerals that love to precipitate in chilled water systems. We’ve seen how proper filtration dramatically reduces emergency calls for pump failures and clogged heat exchangers. One client told us, “Since you upgraded our filtration system, our maintenance costs have dropped by almost 30%.” That’s the power of preventive maintenance!

At Comfort Temp, we believe that a well-maintained chilled water system isn’t just more reliable—it’s also more efficient, more environmentally friendly, and ultimately more cost-effective. Our team of experts is always ready to help you develop a maintenance plan that keeps your system running at peak performance, no matter what Florida’s weather throws at us.

Water Quality, Treatment & Performance Risks

Let’s talk about something that might not be glamorous but is absolutely crucial – water quality. In our years at Comfort Temp, we’ve seen that water quality is the silent hero (or villain) of your chilled water system’s story.

Think of your chilled water system like your car’s circulatory system. Just as bad oil damages an engine, poor water quality wreaks havoc on chillers. Three main culprits are always looking to cause trouble:

1. Scale: Those crusty mineral deposits that act like unwanted insulation, making your system work harder to transfer heat
2. Corrosion: The slow eating away of metal components that shortens equipment life
3. Biological growth: The slimy colonies of algae and bacteria that clog passages and reduce efficiency

Water Treatment Essentials

Chilled water system maintenance isn’t complete without a solid water treatment program. Here’s what works best:

Regular testing is your early warning system. We monitor pH, conductivity, hardness, alkalinity, and check for unwanted microbial guests. It’s like getting regular bloodwork – it tells you what’s happening before symptoms appear.

Chemical treatment is your defense system. Think of scale inhibitors, corrosion inhibitors, and biocides as your system’s medicine cabinet – each addresses specific threats to keep things running smoothly.

For systems with glycol (antifreeze), maintaining the right concentration is critical. Most Florida systems need about 25-30% glycol. Too little won’t protect against occasional cold snaps, while too much reduces heat transfer efficiency. The science behind glycol freezing protection is fascinating – each percentage point matters.

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Additional reading:
Low Temperature | Glycol Chiller - Universal Chilling Systems

Open cooling tower systems require special attention. They’re constantly exposed to our Florida air, sunshine, and whatever else blows in. Blowdown control – the controlled discharge of mineral-laden water – prevents concentrations from reaching problematic levels.

Closed loops are a bit more forgiving but still need quarterly check-ups. Think of them like the sealed cooling system in your car – they need less attention but can’t be completely ignored.

Consequences of Neglect

When water quality takes a backseat, the penalties are steep:

Did you know that scale just 1/16″ thick (about the thickness of a credit card) can reduce heat transfer efficiency by 12.5%? That’s like wearing a winter coat in July – the cooling still happens, but at what cost?

Energy bills tell the tale quickly. Poor water quality can spike energy usage by up to 20%. In a large commercial building, that could mean thousands of extra dollars every month.

Equipment damage is the next domino to fall. Corrosion and scale lead to tube failures, pump damage, and control valve malfunctions. We’ve seen 15-year chillers that look 30 years old inside due to water quality issues.

One often overlooked villain is air in the system. These non-condensable gases might seem harmless, but as little as 1 psi of air in a condenser reduces system efficiency by 3%. Regular purging keeps these gases from stealing your efficiency.

Here in Florida’s warm, humid climate, we pay special attention to biological control in cooling towers. Our quarterly water treatment service includes testing for Legionella and other microorganisms that thrive in our environment. It’s not just about efficiency – it’s about health and safety too.

At Comfort Temp, we’ve found that proactive water treatment isn’t just maintenance – it’s prevention that pays for itself many times over in extended equipment life and lower operating costs. Like the old saying goes: an ounce of prevention is worth a pound of cure… or in this case, thousands of dollars in repairs.

Smart Tech, Safety & Documentation for Peak Reliability

The world of chilled water systems has been transformed by technology in recent years. What was once a purely mechanical field now benefits from digital innovations that make maintenance smarter, more efficient, and ultimately more effective.

Remote Monitoring and IoT

Today’s modern chillers aren’t just cooling machines—they’re sophisticated data centers in their own right. Smart monitoring tools have changed the game for chilled water system maintenance by giving us eyes inside the system 24/7.

IoT sensors now track everything from water temperatures to vibration patterns, sending real-time data to building management systems and maintenance teams. This means small issues can be spotted before they become big problems—often before you’d even notice something’s wrong.

“The best emergency calls are the ones that never happen,” as our senior technician likes to say. Remote monitoring makes this possible by alerting our team to unusual patterns that might indicate a developing problem.

The real power comes from tracking key performance indicators (KPIs) over time. The most important is kW/ton—essentially your chiller’s miles-per-gallon rating. When this number starts creeping up, it’s a clear sign that efficiency is dropping. Other vital metrics include approach temperature (the difference between water and refrigerant temperatures) and runtime hours.

At Comfort Temp, we’ve invested in these technologies because they help us deliver better service to our North Central Florida clients. Our monitoring systems often alert us to issues before our clients even know there’s a problem—meaning we can schedule maintenance visits during normal business hours instead of emergency midnight calls.

Using Data & KPIs to Decide Repair vs Replace

One of the toughest questions facing facility managers is when to stop repairing an aging chiller and invest in a replacement. This is where good data becomes invaluable.

As chillers pass the 15-year mark, they often enter a period where maintenance costs climb while efficiency declines. Tracking performance data helps make this decision more scientific and less emotional.

When we see a system’s efficiency trending downward despite regular maintenance, or repair frequency increasing year over year, these are strong signals that replacement might make financial sense. For older systems using refrigerants being phased out due to environmental regulations, the decision becomes even clearer.

Sometimes a full replacement isn’t necessary. Strategic retrofits like adding variable frequency drives (VFDs) to existing motors or upgrading control systems can breathe new life into older equipment. We’ve seen automatic tube cleaning systems pay for themselves in under two years through efficiency improvements alone.

“A chiller is like a car,” our operations manager often explains. “Regular oil changes and tune-ups will keep it running, but eventually, the repair costs outweigh the value of the vehicle.”

Recording & Reporting Requirements

Good documentation might not be the most exciting part of chilled water system maintenance, but it’s absolutely essential for long-term success. Thorough record-keeping serves multiple purposes:

First, it creates a performance history that helps identify trends and predict future needs. Second, it ensures compliance with health department regulations, especially for cooling towers. Finally, it provides accountability and transparency for all stakeholders.

At Comfort Temp, we provide our commercial clients throughout North Central Florida with secure online access to their equipment maintenance history. This digital documentation includes service dates, work performed, parts replaced, and efficiency measurements. We also include before-and-after photos that visually document conditions and repairs.

This approach helps facility managers track performance, plan budgets, and make informed decisions about their equipment. It also creates continuity when personnel changes occur—the system’s history remains accessible even when the people maintaining it change.

Safety Considerations

Maintaining chilled water systems involves significant safety considerations that we take very seriously. Proper safety protocols protect both our technicians and your facility.

Electrical hazards are perhaps the most obvious concern, requiring strict lockout/tagout procedures before work begins. Refrigerant handling requires EPA certification and specialized equipment to prevent environmental damage and personal injury. Some maintenance tasks may involve confined space entry protocols, particularly when working with large systems.

Water treatment chemicals require proper handling and personal protective equipment (PPE), while the pressurized nature of these systems demands careful service techniques to prevent accidents.

Our technicians undergo regular safety training to stay current with best practices and regulations. This investment in safety pays dividends in preventing accidents and ensuring reliable service.

For more information about our preventative maintenance plans that incorporate these modern approaches to chilled water system maintenance, visit our preventative maintenance plans page.

Frequently Asked Questions about Chilled Water System Maintenance

How often should tubes, filters, and strainers be cleaned?

You know that feeling when your shower pressure drops because of a clogged showerhead? Your chiller feels the same way when its components get dirty. For chilled water system maintenance, timing is everything.

Your chiller tubes need both mechanical and chemical cleaning at least once a year—ideally before Florida’s scorching summer hits. If your system includes an open cooling tower (which is exposed to our humid Florida air), you might need more frequent cleanings. Keep an eye on your approach temperature (the difference between your leaving chilled water temperature and refrigerant temperature). If it starts climbing, your tubes are likely calling out for cleaning.

As for strainers, we recommend cleaning or blowing them down every three months. Those Y-strainers sitting just before your pumps? They’re especially prone to clogging, so check them more often. If you notice pressure dropping quickly across any strainer, take that as an urgent request for attention!

Cartridge filters typically need replacement every 3-6 months, but this varies based on your water quality and system design. Rather than sticking to a calendar, let pressure differential readings be your guide—they’ll tell you when it’s time for a change.

What water treatment program keeps scale and bacteria in check?

In Florida’s climate, water treatment isn’t optional—it’s essential. Think of it as sunscreen for your chiller system.

Any effective treatment program starts with a thorough initial cleaning. This is especially important for new systems or ones being brought back online after sitting idle. Starting with clean pipes sets you up for success.

Regular chemical treatment forms the backbone of your water care routine. This includes scale inhibitors (preventing those nasty mineral deposits), corrosion inhibitors (protecting your metal components), biocides (particularly crucial in Florida’s warm climate where bacteria thrive), and dispersants (keeping suspended particles from settling).

Your monitoring should follow a consistent schedule: weekly visual checks (is the water clear? how does the cooling tower look?), monthly testing of chemical levels, pH and conductivity, and quarterly comprehensive analysis by a water treatment professional who knows what they’re doing.

For systems with cooling towers, proper blowdown management prevents minerals from concentrating to problematic levels. And if your system uses glycol for freeze protection (less common in our Florida climate but used in some specialized applications), check concentration levels annually.

Which performance numbers signal immediate service is needed?

Some warning signs just shouldn’t be ignored. When it comes to chilled water system maintenance, these red flags demand immediate attention:

If your approach temperature increases by more than 2-3°F from your baseline, it’s likely signaling tube fouling. This is like your car’s temperature gauge creeping up—something needs attention before it gets worse.

Watch your energy consumption carefully. A jump of 10% or more in kW/ton is your system’s way of crying for help. It’s working harder than it should, and your utility bill is paying the price.

Pressure readings tell important stories. Low discharge pressure often points to refrigerant issues or blockages. Low-suction pressure might indicate leaks or valve restrictions. And high-suction pressure? Your cooling load might exceed capacity, or you could have expansion valve problems.

The temperature difference between entering and leaving chilled water should typically be around 10-12°F. If this delta starts shrinking, you’re likely facing flow or heat transfer problems.

New vibrations or unusual noises should never be ignored—they’re like the strange knocking in your car engine that deserves immediate investigation to prevent catastrophic failure.

Oil analysis results showing moisture content above 50 ppm or acidity above 1 ppm require immediate service. And if you’re purging non-condensables more frequently than usual, you might have a leak in the low-pressure side of your system.

At Comfort Temp, our North Central Florida technicians are just a call away when these warning signs appear. We’d rather help you address small issues before they become expensive emergencies.

Conclusion & Next Steps

When you invest in comprehensive chilled water system maintenance, you’re not just preventing those middle-of-the-night emergency calls—you’re making a smart business decision that pays dividends for years to come. Think about it: these systems often account for half of your building’s electricity usage. When proper maintenance delivers 5-10% energy savings, that’s real money staying in your pocket month after month.

I’ve seen how buildings with well-maintained chillers enjoy extended equipment lifespans—often exceeding 20 years of reliable service. The secret isn’t complicated, but it does require commitment. Daily operating logs become your early warning system, helping you spot small issues before they become expensive problems. Those trending numbers tell a story about your system’s health that an experienced technician can read like an open book.

Water quality deserves special attention in our Florida climate. Clean, properly treated water flowing through your system means efficient heat transfer—exactly what your chiller was designed to do. When scale builds up even 1/16 of an inch, your efficiency takes a serious hit, and your utility bills climb accordingly.

Today’s smart technology makes maintaining peak performance easier than ever. Remote monitoring tools can alert you to developing issues before you’d notice them during a routine inspection. Variable frequency drives (VFDs) not only improve efficiency but can extend component life by reducing mechanical stress during operation.

Always remember that your chiller manufacturer designed your specific system with certain maintenance requirements in mind. Following these guidelines isn’t just about keeping your warranty valid—it’s about respecting the engineering that went into your equipment.

Here at Comfort Temp, we’ve built our reputation by treating our clients’ equipment as if it were our own. Our experienced technicians understand the critical role your chilled water system plays in your facility’s comfort and operations. We’re passionate about preventive maintenance because we’ve seen how it transforms reactive, stressful situations into smooth, predictable operations.

Our customized maintenance agreements cover everything from daily monitoring to those crucial annual services like tube cleaning and comprehensive inspections. And because we know cooling emergencies don’t respect business hours, our 24/7 emergency service team stands ready throughout North Central Florida—from Gainesville to Jacksonville and Orlando.

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