Human error.
What is the number one cause for compressor failure.
Human error.
RSES Certificate Member Specialist
Southwest Regional Association of RSES Secretary, 2017
Compressors don't die; they're murdered.
Number One cause of compressor failure: improper installation procedures. This encompasses a long list of things: improper evacuation, not sweeping the lineset with nitro during brazing, no liquid line drier, ductwork improperly sized, system improperly sized, OVERCHARGE, improper piping procedures, etc.
Runner up is improper maintenance, even on a properly installed and sized system. Dirty coils, poor service procedures, etc. will put a compressor on death row as quick as anything.
Psychrometrics: the very foundation of HVAC. A comfort troubleshooter's best friend.
Electricity being applied,
They don't fail till they are energized.
If you try to fail, and succeed.
Which have you done ?
For me, the number one cause of existing compressor failure is low freon levels.
2nd cause would be liquid getting to compressor.
Wonder why anyone would think to answer about a new install ?? Only had two compressors in thirteen years fail that we installed. And one of those was in a low-rent apartment complex.The other was a 12 Seer system.
I must commend you on your low failure rate in systems you've installed. Sounds to me like you're doing things right if that's the case.Wonder why anyone would think to answer about a new install ?? Only had two compressors in thirteen years fail that we installed. And one of those was in a low-rent apartment complex.The other was a 12 Seer system.
Why did I respond as I did regarding installs? I didn't just have new installs in mind, but repair/replacement efforts as well. If a system isn't sized and installed right, the compressor will pay for it, sooner or later. Bad repair efforts also can jeopardize a compressor's life. Once I bothered to investigate why compressors fail, I have yet to find one that's the fault of the manufacturer.
I also think overcharged systems are a larger culprit in compressor failures than undercharged, as an undercharged system is more likely to see the compressor kick out on IP, even under lighter loads, which would draw attention to itself faster (an undercharge usually means there's a leak, which also calls attention to the system). An overcharged system might kick out only under extreme conditions but otherwise run a greater percentage of time under potentially floodback conditions, which is anathema to valves and lubrication of a compressor.
Electrical failures account for another percentage of comp failures, ranging from single phasing of three phase compressors, to inadequate voltage supplied to a unit, to dirty contactor points, etc. The latter two I mentioned might be a result of installation or maintenance effots. Undersized wiring and no regular inspection of electrical components would contribute to a failure.
[Edited by shophound on 03-16-2005 at 04:39 PM]
Psychrometrics: the very foundation of HVAC. A comfort troubleshooter's best friend.
Did not mean anything offensive !
Have just heard a lot of threads that indicate compressor falures on fairly new systems.
And I did not think of it the way you did, as i don't see many failures that I can blame on the system. Although there are a few.
MOst times, around here, if the freon is low, the HO does not realize anything except he is not cooling, and then some time later decides to call for repair. By the time he has called and I arrive, the unit has been on a long time ( maybe even over the weekend ), the compressor has overheated & shut off, cooled down & run again, several times before I get there. I do try to remember to tell them to shut it off, but sometimes I forget.
And around here, filters & coils get real dirty, but the HO doesn't know it until his cooling has stopped. By that time, liquid has gotten to the comprssor more than one time, before he calls it in.
flooding - caused by small return air, overcharge etc..,
compressors normaly dont burn out
human error is the bigest cause for failed copressor
None taken. Just wanted to clarify.Shop
Did not mean anything offensive !
We're cool.
You have a good point about homeowners being slow to call in a unit that's undercharged and has a compressor that's cycling on IP. I work on commercial stuff that I'm directly responsible for so I tend to forget the homeowner factor when I post!
Your last paragraph falls within my "runner up" catagory of poor maintenance. So, I guess we could say that perhaps a leading cause of compressor failures in the residential sector is, well, homeowners!
Psychrometrics: the very foundation of HVAC. A comfort troubleshooter's best friend.
Residentially speaking: You are absolutley right at least in this area. Most compressor failures that I see are HO induced.Of course a lot of these are rentals or apartments.
Done by tenant ( or not done as the case may be )
Look forward to bantering with you again !
Richard
#1 Cause of Comp. Failure.
Here's my story: 1. Luxury Apartment Complex
2. 128 Apartments
3. 4 Bozo installers
4. 1 mildly warm Indiana summer
5. 24 (yes, 24) comp. replacements
6. 1 extremely mad boss
One co-worker actually said "Hmmm, must have been a bad batch of compressors at the factory." We have a new company policy about installing air conditioners now. So sad it took something like this to make it come about.
I like thatOriginally posted by shophound
Compressors don't die; they're murdered.
Compressor failures within the first year are usually caused by improper installation, application or just plain old bad work habits.
Compressors that go for more then a year are usually killed by overcharging. Most overcharging is due to improper diagnosis of symptoms. Most units that are grossly overcharged are done by techs who only read suction line data. Low suction caused by low indoor air flow due to dirty filters and/or coils are misconstrued as low refrigerant. Adding refrigerant brings the superheat of a system with low indoor airflow back to normal and allows the system to operate but with a reduced capacity and with possible slugging of liquid back to the compressor.
Training is important!
Practical Training is a must!
Bornriding and shophound read my mind and robo filled in any voids. Other than their reasons I have seen a few compressors fail due to improper 3phase power. For no apparent reason a comp failed and the voltaged were something like 221/222/174 we made a big fiasco and the electricians came in to swap some loads around and do a reassesment.
Quote
“Engineers like to solve problems. If there are no problems handily available, they will create their own." Scott Adams
"We can't solve problems by using the same kind of thinking we used when we created them."
Albert Einstein
When they don't study for their test.Originally posted by geoexchangeman
What is the number one cause for compressor failure.
What's up with all the credentials?
What makes compressors fail ?
One Word....
Stress.
Take your pick, Thermal Stress, Electrical Stress, Mechanical Stress, and Chemical Stress.
As Shophound said, they are murdered.
Originally posted by docholiday
What makes compressors fail ?
One Word....
Stress.
Take your pick, Thermal Stress, Electrical Stress, Mechanical Stress, and Chemical Stress.
As Shophound said, they are murdered.
I like that answer.
All these answers are good. The things that make high compressor ratios are the greatest killers. High compressor ratios are the number one killers says the compressor manufactures. Next in line is the wrong voltage either high or low. Flood back of systems with fixed bore metering devices is also up there from over charge. Refrigeration low back pressure unit are made to run with higher compessor ratios. But A/C Units are made to run with high back pressure and therefore lower compressor ratios. So if they are installed and have to operate with less than design air flow they will hit the graveyard quick. I can't leave with out saying a word about Geoexchange. They run with compressor Ratios of less than 2.5 to 1 in cooling some time as high as 3.5 to 1 in heating and have high and low pressure protection. Air source HP unit have to operate with compession ratios of 6 to 1 under normal conditions and let alone the conditions they get in when the HO don't keep the filters and coils clean. Add the defrost cycle, I don't see how the last as long as they do no matter what SEER rating they are. The low end models have only the internal overload to protect them. As I have said geo units love what they are doing and keep on doing it for many years after the warrenty is gone if the HO will just change the air filter. If not the unit will trip out on high or low pressure and must be reset because of the lock out relay. Is that a plus for Geoexchange.
I think what you meant to say was it brings the suction pressure up to normal but the superheat will go down if you have low airflow and add refrigerant, which will lead to slugging. This is prevented by actually reading superheat and not charging by pressures alone.Originally posted by RoBoTeq
Adding refrigerant brings the superheat of a system with low indoor airflow back to normal and allows the system to operate but with a reduced capacity and with possible slugging of liquid back to the compressor.Originally posted by shophound
Compressors don't die; they're murdered.
In most cases this is correct. I was thinking of one particular instance where the technician made certain that the superheat was correct but ignored the fact that the suction temperature was on 2ºF. In this case, the suction pressure was also low but this tech stuck to his guns and make sure he had the correct superheat. Damnest thing I've seen. The unit was actually operational with solid ice all the way back to and halfway up the compressor housing.Originally posted by docholiday
I think what you meant to say was it brings the suction pressure up to normal but the superheat will go down if you have low airflow and add refrigerant, which will lead to slugging. This is prevented by actually reading superheat and not charging by pressures alone.Originally posted by RoBoTeq
Adding refrigerant brings the superheat of a system with low indoor airflow back to normal and allows the system to operate but with a reduced capacity and with possible slugging of liquid back to the compressor.Originally posted by shophound
Compressors don't die; they're murdered.
Training is important!
Practical Training is a must!