When a damaged chiller claim lands on your desk, you need to be ready for the complexities that come with it. These systems are often intricate and specialized based on the space or equipment they&#;re cooling, meaning they present their own challenges to insurance adjusters like you. If you&#;re not familiar with this complicated cooling equipment and you&#;re working on a claim that includes one, you&#;ll want to know the basics.

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Water pipes for a chiller system

How Do Chillers Work?

Chillers transfer heat away from a space that requires climate control much like a traditional split system or package unit does, but they use water (or a water solution) to do so instead of air. There are two types of chillers: water-cooled and air-cooled. They work similarly throughout most of the process until the refrigerant reaches the condenser, and both are outlined in the following sections.

Water-Cooled Chillers

Diagram A

The cooling process begins when water enters the evaporator from the primary return where heat is transferred from the water to the refrigerant.

The now-chilled water is then sent to the water tank via the primary supply (shown in blue), where it is distributed to the various climate-controlled spaces by the water pump. Because heat always moves from hot to cold as stated by the second law of thermodynamics, the chilled water absorbs the conditioned space&#;s ambient heat in the air handler. A fan then forces the cooled air into the space via the ductwork. The warmer water is then returned to the chiller to be cooled once again.

In the meantime, the heat absorbed by the refrigerant (path shown in green) in the evaporator needs to be transferred to allow the refrigerant to absorb more heat. The low-pressure, high-temperature refrigerant moves from the evaporator to the motor-run compressor, which increases the pressure and temperature.

After that, the refrigerant enters the condenser. Water-cooled chillers use water to surround the refrigerant pipes and draw in the heat (path shown in red). The water is then pumped into a cooling tower to release the heat. After condensing, the refrigerant goes through an expansion valve to reduce pressure (and temperature) before returning to the evaporator, where the process begins again.

Air-Cooled Chillers

 Diagram B

Like with water-cooled chillers, the process begins with the primary return bringing warm water to the chiller. Heat is transferred in the evaporator to the refrigerant, and the water runs through the primary supply to the cooled space. The refrigerant moves through the compressor to raise the pressure and temperature, and then it reaches the condenser. Here, fans circulate outside air through the condenser, which absorbs heat from the refrigerant (again, the second law of thermodynamics dictates that hot moves to cold) before expelling this heat to the ambient air. The refrigerant then goes through the expansion valve (as before) and returns to the evaporator.

Where Are Chillers Used?

Chillers have several uses and are sometimes preferred over traditional split systems or package units because the water conducts heat better than air. This is also why water-cooled chillers are known for being more consistent and efficient in their performance and for having a longer lifespan than their air-cooled counterparts. Water-cooled chillers are common in medium and larger facilities (so long as they have an adequate water supply), such as airports, hospitals, hotels, shopping malls, commercial buildings, and more. (Pictured: A portable chiller)

Air-cooled chillers are more prevalent in small to medium sized facilities where space and water may be limited. The costs to install and maintain these chillers are lower than that of their water-cooled counterparts, but they typically have a shorter lifespan. These chillers are commonly used for restaurants, corporate and sporting events, and temporary structures.

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Chillers are also often used for industrial or medical applications. Assembly equipment, construction sites, lasers, MRI machines, and various other high-powered equipment and facilities may require chillers to maintain a workable temperature.

Common Problems That Affect Chillers

Corrosion

Chillers use metal tubes (usually made of copper or carbon steel) to transfer water between the chiller and the climate-controlled space. The simple presence of oxygen in water can cause corrosion, but if the water and pipes are treated properly, this can significantly reduce the risk. However, if the water treatment is inadequate, sediment, minerals, and bacteria can enter the system. If there is a buildup of sediment or bacteria that causes oxygenation levels to differentiate, the metals can begin to corrode. In addition, any point where two different metals are used can be at risk for corrosion due to their different electrochemical properties. No matter how the corrosion occurs, it can cause leaks that will damage the chiller, reduce its efficiency, and possibly damage the area surrounding the chiller.

Compressor for a chiller

Poor Maintenance

These complex machines require a lot of maintenance to keep them in good working order. If proper steps aren&#;t taken, the chiller can corrode, clog, lose efficiency, or experience a number of other issues. For example, if proper water treatment isn&#;t maintained or if open cooling towers aren&#;t cleaned, sediment or particulates can be introduced to the system, causing clogged pipes and poor heat transfer. An air-cooled chiller&#;s condenser can be blocked by debris or become caked in dirt, which also lowers efficiency.

Electrical Issues 

The electrical systems within a chiller are carefully designed and as complex as the rest of the machine. They can easily be thrown off balance by a high voltage surge or wear and tear. If there is a grounding issue or a power supply failure, the chiller may detect this and shut itself off. Overloading the chiller can cause it to overheat, which will likely result in failure. Wires and cables can become loose or damaged after maintenance or due to negligence, which can result in chiller malfunctions.

We Can Help Settle Your Chiller Claims

Chiller claims are no walk in the park &#; several components can malfunction and cause the entire system to fail, and the source may not always be clear. To handle them properly, you may need an expert opinion. If you&#;re handling a chiller claim, let us help! Our trained technicians will document the damages and our experts will put together a comprehensive report outlining damages, cause of loss, and costs involved with repair or replacement.

Make settling chiller claims easier on yourself. Submit an assignment today!

Condenser

What is a condenser?

A condenser is an essential component within any HVAC system. Its purpose is to take in high-pressure refrigerant gas, emitted by the compressor, and convert it into liquid state.  The refrigerant is cooled and then condenses at a virtually constant temperature and pressure. At the condenser outlet the refrigerant will be in the liquid state at high pressure and with a temperature slightly lower than the condensing temperature.

How does a condenser work?

The concept behind condensers is heat transfer. That is, the thermodynamic principle describing how heat always moves from warmer to cooler environments.

Three different phases happen in condenser. The first phase is called the desuperheating.   The vapor entering in the condenser is superheated and super pressurized. Desuperheating means to eject the heat from the vapor and turns it into liquid, is the initial cooling process.

The second phase is condensation. Once all refrigerant superheat has been rejected, the actual process of condensation may begin. Condensation involves the transformation of the gaseous refrigerant into its liquid state.

The third and last phase is a sub-cooling state. The sub-cooling state is there to be sure that not even rising temperatures can bring the liquid refrigerant into vapor again.

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