Tag Archives: Subcooling

Understanding Superheat and Subcooling

(The content of this post is intended for consideration by trained service personnel only)

Superheat and subcooling are the terms used to describe two of a heat pump system’s operating characteristics. We, in the service business, generally rely on these numbers to evaluate system performance as well diagnose system problems. The values essentially provide us with information about what’s going on inside the evaporator and condenser coils. And depending on the metering device used in the system, one or the other number is the value used to determine optimum system charge.

If you wanted to define the words non-mathematically, superheat is the increase in temperature of the refrigerant vapor in the evaporator before it exits the coil, and subcooling is the decrease in temperature of the refrigerant liquid in the condenser before it exits the coil. The diagram below offers a visual illustration.

The two numbers are actually calculated temperature values, using simple arithmetic with saturated temperatures and tubing temperatures.

Normal operation always results in some percentage of the evaporator coil filled 100% with vapor and some percentage of the condenser coil filled 100% with liquid. Since the vapor starts out at the same saturated suction temperature, the vapor will take in heat or warm up, before it exits the evaporator coil. Likewise, the liquid starts out at the same saturated condensing temperature, so it will give up heat or cool down before exiting the condenser coil.

So to calculate the superheat, subtract the saturated suction temperature from the suction line temperature. Which in the diagram is 50 – 40 = 10 F superheat.

To calculate subcooling, subtract the liquid line temperature from the saturated condensing temperature: 110 – 100 = 10 F subcooling.

More discussion: HvacR Professional.Com

You can get more explanation of heat pump charging details in the refrigerant system video for rent:

Troubleshooting Heat Pump Refrigerant Systems

You can post questions and get answers from professionals here:

Hvac/R Professional.Com

Charging TXV Systems

(The content of this post is intended for consideration by trained service personnel only)

Somewhere in a previous post there is some discussion and pics relative to charging heat pumps in the cool cycle. The method of charging depends on the metering device feeding the evaporator coil. Fixed orifice systems have to be charged by the superheat method, TXV systems by the subcooling method. The video below illustrates charging by the subcooling method…

You can get more explanation of heat pump charging details in the refrigerant system video for rent:

Troubleshooting Heat Pump Refrigerant Systems

You can post questions and get answers from professionals here:

Hvac/R Professional.Com

Superheat…or Subcooling?

(The content of this post is intended for consideration by trained service personnel only)

So, here’s the question: How do you charge fixed orifice and txv systems? Same way? No. Fixed orifice systems can only be charged via superheat. TXV systems have to be charged by the subcooling method. The explanations for the answers are related to how TXV’s do what they do and how fixed orifice devices do what they do. Fixed orifice devices deliver a rate of refrigerant flow dependent on the pressure differential across the orifice. TXV’s are active devices that “look” at the suction line temperature and evaporator temperature and maintain a fairly consistent superheat value…Following are illustrations of both. (You can “click” the pics for a slightly larger view)

Fixed Orifice System…R-22

I started a service call on this system knowing there’s a small leak and that the system needed topping off…

An early reading of suction pressure and superheat…

Then I got carried away…”0″ deg superheat.

Removed some refrigerant, and got a number that was about right for the particular indoor and outdoor conditions.

Charging fixed metering systems by superheat is a delicate process, requiring an indoor wetbulb temperature, outdoor drybulb temperature and some “tool” for determining the required superheat for the given system and conditions.

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TXV System…R-410A

This one is a new system start-up.

Early reading…subcooling top right value.

After adding a few ounces of 410A…

You can see a complete explanation of superheat and subcooling in the “Troubleshooting Heat Pump Refrigerant Systems” rental video:

Troubleshooting Heat Pump Refrigerant Systems

You can post questions and get answers from other professionals here:

Hvac/R Professional.Com