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Model: HD2
Item Title:Halogen detector w/Heated Diode Sensor:Newest Technology and Design Most Sensitive No Moisture false alarm
S&H: $12.95, Continental USA, S&H varies to other areas and countries.

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How to Find Refrigerant Leak,

Methods of Refrigerant Leak Detection

One of the most difficult job of your service might be finding a refrigerant leak. The leak may exist within a series of tubing that may be up to hundreds of feet long or in a component that is not readily accessible or may even be, totally concealed. It could be in an operating or safety control such as a pressure switch or possibly right under your nose and you wouldn't�t even suspect it. As we all know, refrigerant leak detection can sometimes be a serviceman�s nightmare.

Having the proper test equipment is at least half of the battle. Unfortunately there are so many methods of leak detection and so many types of test equipment and unfortunately, not just one fits every situation. Decisions need to be made as to the method used and the type of equipment needed for every leak you need to find.

The sole purpose of this section is to help make you aware of the different methods available and to help you decide on which method is most appropriate to use in different situations.

All of these conditions make leak testing one of the most challenging tasks faced by service technicians today. The newer EPA rules are now requiring service technicians to find leaks that are excessive of the law, thus not allowing technicians the choice of just adding refrigerants every so often to keep the system in operation. Add to this the cost of refrigerants today and it become imperative that refrigerant leaks must now be found.

As you know, there are several methods used to find leaks. Some of the most popular are methods are listed below. They are not in any particular order because each leak is unique to the situation at large. PLEASE note, not every leak can be find easily, some leak may never be able to be located, because they are hiding in an odd locations where you can not reach, like inside a wall or in a coil, even for those most experienced field service men.

Bubble Test (Soap Solution)

A soap solution can be used when you know the approximate area where a leak may exist because of sealed service repair recently done or an electronic leak detector has indicated a leak exists in a particular area of the sealed system.

For example, if you repaired a leak, or replaced a component, or know that a system has a leak somewhere and/or you observe an area of the system that is oil coated, you would probably use a soap solution, in that area, to test for and pinpoint a leak. It is the simplest and least expensive (material wise) method known today. It may however be more expensive to use, because of labor costs, if the technician does not have any idea where the leak could be.

Soap solutions are available in many different types. Some have a brush applicator and others have a dabber (an absorbent ball attached to a stiff wire inside of the cap.) Some brands may even have a spray applicator to quickly cover large areas of tubing in a short amount of time. This is an advantage but is also messy and time consuming to clean up.

Some soap solutions even have an antifreeze base to prevent them from freezing in the winter time. Others may have a lower density to make them even more sensitive to very tiny leaks.

Some pointers when using soap solution:

If the system does not contain sufficient pressure for leak detection, the refrigerant can be recovered from the system and the system re-pressurized with dry nitrogen to increase the pressure, making it more a probable and less time consuming way of pin-pointing the leak.
WARNING: Do not pressurize the system or component to be checked, more than the manufactures leak testing standards. This pressure is usually stated on the name plate as factory test pressures. If it is not stated on the nameplate, a safe pressure is usually less than 150 psig.

There may be times in which an oil spot is noticed in an area of the sealed system. This is usually a suspect that a refrigerant leak is present in that area. A soap solution can help to pin-point the leak.

A pointer:

Holding the dabber against the suspected leak for a period of time may provide better results for small leaks.

Water Immersion Method

This method can only be used if the system is small enough to be emerged in a tank of water or if the suspected leak exists in a component that can be cut from the system, sealed and pressurized with a high pressure, dry nitrogen charge. That system or component of the system is then submerged into a water tank. Then the technician watches for bubbles escaping from the leak.

Some pointers when using the submersion method:

A detergent can be added to the water to decrease surface tension, which helps to prevent the leaking gas from clinging to the side of the component.

Hot water in the tank sometimes helps to increase the pressure inside the component or piping system. If dry nitrogen is used, this does not help because nitrogen does not increase significantly. If refrigerant is contained in the system or component, it may help considerably to increase the pressure and increase the chance of finding the leak.

Halide Torch

A halide torch is an inexpensive leak detector that is fast and reliable, but can only be used to detect chlorinated refrigerants. It can be used to detect leaks as small as � ounce per year.

A halide torch works on the principle that air is drawn over a copper element heated by a hydrocarbon fuel. If halogenated refrigerant vapors are present, the flame changes from a blue pictures of halide torch color to a bluish green color.

It is not as sensitive as electronic leak detectors and is somewhat awkward and could be dangerous because of the open flame.

Dye Interception Method

This is method in which a dye is inserted into the system in hopes that some day, the leak allows the escape of a colored dye where the leak exists. This dye becomes visible after a period of time, notifying the technician where the leak is.

Ultraviolet leak detection dyes are also available. These dye kits sometime requires more expensive equipment to detect the leak. This may include an ultraviolet lamp, ultraviolet dye, and some method of getting the dye into the system without letting any moisture or air into the system. These dye methods may be more time consuming because of the time it takes to leak the dye and be visible to the human eye.

Some considerations when using a dye might be:

The dye may be considered a contaminate to the sealed system and is difficult to get into the system without moisture contamination. Even the slightest bit of moisture is detrimental to the longevity of any sealed system.

This method can be (and usually is) a mess and normally requires some type of clean up. The dye usually ends up in your test equipment (gauge manifold and/or refrigerant hoses) and is usually a time consuming mess to clean up.

This method is usually time consuming because it could take several hours or days for the dye to leak from the leak source indicating a leak. This method also means you have to have access to all of the system, which may limit its use.

Standing Hold Test

This method consists of pressurizing the system with a high pressure, dry nitrogen gas. A pressure, usually between 100 to 200 psig, for a period of time and then identify whether or not the pressure drops during this time. The higher the pressure, the faster you can determine if a leak is present. Fortunately, dry nitrogen experiences very little pressure changes when it is exposed to small temperature changes.

WARNING: Do not pressure the system or component, to be checked, more than the manufactures leak testing standards. This pressure is sometimes stated on the nameplate as test pressures but if not, using less than 150 psig is usually safe.

The disadvantage of this method of leak detection is that it can only be used if you have a system that can be shut down for a period of time (usually overnight or longer.) This can be time very consuming because some low-level leaks may require a holding period of up to 48 hours or more. It�s not that you have to stay with the system for that period of time, it�s just the fact that the system may need to be out of operation for that amount of time.

The advantage however is that this method will positively identify whether or not a leak exists by monitoring pressure drop. If any pressure drop occurs, it means a leak is definitely present. The disadvantage: This method does not identify where the leak exists, only if a leak is or is not present.

Isolation of the Sealed System

This is a time consuming method of the standing hold test but is sometimes your only choice. It is usually used when you have no physical access to components in which you suspect are leaking or when you want to identify which part of the system contains the leak. Some examples might be: a concealed refrigerant line, an in-wall condenser, an in-wall evaporator, or any component in which you do not have access to.

This process would include isolation of the component (suspected of leaking) from the rest of the system. This is done by breaking that part of the system apart from the rest of system, sealing it, and pressurizing only that component with dry nitrogen. Then use the standing hold test covered before. If the system�s pressure drops fast, there is a large leak present in that component or section of the system. If the system�s pressure drops slowly, there is a small leak present. If the pressure remains the same, that component does not leak.

This method can limit your leak detection labor time only if the system can be out of order for a period of time. Once the component leaking is identified, determine if repairs can be made or not. If not, that particular component can be replaced if it at all possible.

A process tube adapter kit could save you some time. It can be quickly connected to the part of the system that has been cut out. This eliminates having to make a mechanical or brazed connection.

Electronic Leak Detectors

Electronic Refrigerant Leak Detectors are the quickest and easiest to use of the three methods. Most of the time you will have no idea where the refrigerant is leaking and have to narrow down the possible areas. A electronic refrigerant leak detector can get you very close to the location of the leak and from there you can get more precise. Some of the better models will allow to crank up the sensitivity once you get the area found. For very small leaks you can wrap the suspected area in cling wrap or a rag to try and contain the refrigerant. When you unwrap the area, put in the refrigerant leak detector and see if you get a reading. Remember, refrigerant is heavier than air and it will sink to the ground. It is best to sniff under tubing and compartments when looking for it. They can be used to quickly find a leak, or to find the area in which the leak exists, in a sealed system when you don�t even know where to start. An electronic leak detector gets you real close to the leak. After you find the area in which the leak is detected, you can usually decrease the sensitivity of the some types of detectors to pin point the area of the leak. The leak area is then coated with soap solution to verify the exact point of the leak.

Electronic leak detectors must be designed to detect a certain type of or multiple types refrigerant, i.e. (CFC, HFC, HFCF, etc.)


You must be careful because you can waste a lot of time if you�re using a detector that is not compatible with the refrigerant that is contained in the system you are leak testing.

Know your leak detector's capabilities and also what it is not capable of detecting.

Carbon monoxide and alcohol can affect the sensitivity of most electronic leak detectors. Be sure neither is present when leak detecting.

Operation usually depends on a variation of current flow caused by ionization of decomposed refrigerant between two oppositely charged platinum electrodes.

Important Warning: Most electronic leak detectors are not recommended to be used in atmospheres that contain flammable or explosive vapors. The sensor operates at an extremely high temperatures. If this sensor comes in contact with a combustible gas, an explosion will occur. This can be very dangerous and costly. It will probably ruin your electronic leak detector and/or possibly damage or destroy a building because of an explosion. Most manufactures will not honor warrantee products against abuse, and exposing a refrigerant sensor to combustible gases, constitutes abuse.

Some Pointers when using electronic leak detectors: If the leak is suspected to be very small, it may be possible to enclose the suspected area for a period of time to allow the leaking refrigerant time to accumulate. When accumulated, it is then more readily sensed by the detector. This may be done by:

Wrapping a suspected leak in cellophane and leaving it pressurized with a refrigerant charge for a period of time. Then using an electronic leak detector, cut the cellophane at the bottom while using an electronic detector to detect any refrigerant that may have accumulated in the pouch over time.

It is permissible to add a little vapor R-22 to a system and then re-pressurize the system to a higher pressure by adding nitrogen to the system containing the R-22 holding charge. This increases the chance of finding the leak and is considered, by the EPA, as �De Minimus Release� (a good faith effort of finding a leak that may prevent future refrigerant venting through a leak that is not found.)

If a refrigerant component or piping section that is suspected of leaking, is inside a compartment (such as a freezer/refrigerator compartment or a small room) and a leak is suspected in that part of the system. That section could be easily isolated by closing a door and trapping the components in an enclosed space. This space can be concealed for a period of time and then when re-entering the space with an electronic leak detector.

If the detectors alarm goes off, you have verified the leak exists in that component, tubing or area.

Again, re-pressurizing the system to a higher pressure and of course, having refrigerant in the system, will accelerate the process.

Refrigerant has a higher specific volume than air, therefore refrigerants will fall when exposed to atmospheric pressures. This means leak detecting on the bottom sides of the piping or components will be more effective in detecting a leak and will save you time.

Ultrasonic Leak Detectors

This type of leak detector is relatively new to our industry. It consists of a device that is capable of amplifying noise so the human ear can recognize very small noises. Most detectors will allow a technician to hear minute sounds such as a very small leak in a sealed system. This procedure can be very successful if, and only if, the area in which your trying to detect the leak in is ABSOLUTELY QUIET AREA. This is usually impossible, which imposes great limits on the ultrasonic leak detector.

As usual, the higher the pressure in the system, the greater the chance of finding or in this case, hearing the leak. It can be used in the same manor as an electronic leak detector with one exception. It is more effective using dry nitrogen as a pressure medium than refrigerant because nitrogen has a lower specific volume than refrigerant. This will permit the nitrogen to escape faster thus being more easily detected.

Q: If I do not have a standard leak source, is there any way to test my detector and make sure its working?

A: Yes. here is how.

first, try not to use a canister of refrigerant to test the detector, unless you can open it just a tinny, tinny, tiny bit(no noise heard), other wise it create too much draft around the opening, the refrigerant may never reach to the sensor tip. the best way to do a testing is with a manifold with hoses, charge the hose just a little bit then test the warmed up detector when you release the refrigerant out from the hose, or release a little of the refrigerant to an empty container, like a jar, can, or a bottle, then test the refrigerant with the detector.

Q: how do your detectors compare with Inficon or other name brand detectors?

A: Very similar. The detector HD2, our newest model, will compete with any detectors on the market for sensitivity and response time. Our lab tests show that this detector will detect small leaks as little as 1 gram per year! HLD-9 is almost as sensitive, and is recommemded if budget is limited.

Q: Is there any warranty on your detectors?

A: Yes. we provide warranty for every thing we sell. for the leak detectors, a three months warranty is provided, this include the material and workmanship.



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