The bulb must be secured to the pipe using a copper strap. The use of heat transfer paste between the bulb and the pipe will also help ensure optimum performance.

The bulb must also be properly insulated to eliminate any influence on valve operation by the surrounding conditions. Cork tape is the recommended insulation as it can be molded tight to the bulb to prevent air infiltration.

Causes of TXV Failure — The most common causes of TXV failure are:

1.A cracked, broken, or damaged sensing bulb or capillary can be caused by excessive vibration of the capillary dur- ing shipping or unit operation.

If the sensing bulb is damaged or if the capillary is cracked or broken, the valve will be considered failed and must be replaced. Replacement of the TXV “power head” or sensing bulb, capillary, diaphragm assembly is possible on some TXVs. The power head assembly screws onto most valves, but not all are intended to be replaceable. If the assembly is not replaceable, replace the entire valve.

2.Particulate debris within the system can be caused by sev- eral sources including contaminated components, tubing, and service tools, or improper techniques used during brazing operations and component replacement.

Problems associated with particulate debris can be com- pounded by refrigerant systems that use POE (polyol es- ter oil). POE oil has solvent-like properties that will clean the interior surfaces of tubing and components. Particu- lates can be released from interior surfaces and may mi- grate to the TXV strainer, which can lead to plugging of the strainer.

3.Corrosive debris within the system may happen after a failure, such as a compressor burn out, if system was not properly cleaned.

4.Noncondensables may be present in the system. Non- condensables includes any substance other than the refrigerant or oil such as air, nitrogen, or water. Contami- nation can be the result of improper service techniques, use of contaminated components, and/or improper evacu- ation of the system.

Symptoms — The symptoms of a failed TXV can be varied and will include one or more of the following:

Low refrigerant suction pressure

High refrigerant superheat

High refrigerant subcooling

TXV and/or low pressure tubing frosting

Equalizer line condensing and at a lower temperature than the suction line or the equalizer line frosting

FP1 faults in the heating mode in combination with any of the symptoms listed above

FP2 faults in the cooling mode in combination with any of the symptoms listed above. Some symptoms can mimic a failed TXV but may actually be caused be another problem.

Before conducting an analysis for a failed TXV the follow- ing must be verified:

Confirm that there is proper water flow and water tempera- ture in the heating mode.

Confirm that there is proper airflow and temperature in the cooling mode.

Ensure coaxial water coil is clean on the inside; this applies to the heating mode and may require a scale check.

Refrigerant may be undercharged. To verify, subcooling and superheat calculations may be required.

Diagnostics—Several tests may be required to determine if a TXV has failed. The following tools may be required for testing:

1.Refrigerant gage manifold compatible with the refriger- ant in the system

2.Digital thermometer, preferably insulated, with wire leads that can be connected directly to the tubing

3.Refrigerant pressure-temperature chart for the refrigerant used

To determine that a TXV has failed, verify the following:

The suction pressure is low and the valve is non-responsive. The TXV sensing bulb can be removed from the suction line and warmed by holding the bulb in your hand. This action should result in an increase in the suction pressure while the compressor is operating. The sensing bulb can also be chilled by immersion in ice water, which should result in a decrease in the suction pressure while the compressor is operating. No change in the suction pres- sure would indicate a nonresponsive valve.

Simultaneous LOW suction pressure, HIGH refrigerant subcooling and HIGH superheat may indicate a failed valve.

LOW suction pressure, LOW subcooling and HIGH super- heat may indicate an undercharge of refrigerant. HIGH sub- cooling and LOW superheat may indicate an overcharge of refrigerant. The suction pressure will usually be normal or high if there is an overcharge of refrigerant.

LOW suction pressure and frosting of the valve and/or equalizer line may indicate a failed valve. However, these symptoms may also indicate an undercharge of refrigerant. Calculate the subcooling and superheat to verify a failed valve or refrigerant charge issue.

Repair

WARNING

Puron® refrigerant (R-410A) operates at higher pressure than R-22, which is found in other WSHPs. Tools such as manifold gages must be rated to withstand the higher pres- sures. Failure to use approved tools may result in a failure of tools, which can lead to severe damage to the unit, injury or death.

WARNING

Most TXVs are designed for a fixed superheat setting and are therefore considered non-adjustable. Removal of the bottom cap will not provide access for adjustment and can lead to damage to the valve or equipment, unintended vent- ing of refrigerant, personal injury, or possibly death.

CAUTION

Use caution when tightening the strap. The strap must be tight enough to hold the bulb securely but caution must be taken not to over-tighten the strap, which could dent, bend, collapse or otherwise damage the bulb.

CAUTION

Puron refrigerant (R-410A) requires the use of synthetic lubricant (POE oil). Do not use common tools on systems that contain R-22 refrigerants or mineral oil. Contamina- tion and failure of this equipment may result.

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Carrier PSD006-070, PSV, 50PSH instruction manual