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My Adler Barbour seems to make refrigerant.
I can't figure it out. I keep having to let refrigerant out of my Adler Barbour. It runs great with the suction-side pressure set at 15 psi. But, every month or so it will commence to cycle off and on after being off for the night. I put a gauge on it and the suction side pressure is in the beginning of the red range(55 psi). It turns on and the compressor starts compressing, the pressure starts going down but it only gets to about 45 psi until the compressor *clicks off* and the voltage gauge goes up a volt or two because the load comes off the circuit. Then it turns itself off and back on and the compressor starts to compress again and the pressure goes down to about 45 psi, then it cycles off again. So, I let out some pressure until it only starts out around 45 psi and it will finally keep compressing until it draws down the suction side to about 15 psi where it stabilizes. So where does the extra pressure come from. I've had to let out ten pounds of pressure about half a dozen times this summer. I can understand leaks but this is ridiculous! -- Sir Gregory |
My Adler Barbour seems to make refrigerant.
On Thu, 02 Oct 2014 15:14:32 -0400, "Sir Gregory Hall, Esq."
wrote: I can't figure it out. I keep having to let refrigerant out of my Adler Barbour. It runs great with the suction-side pressure set at 15 psi. But, every month or so it will commence to cycle off and on after being off for the night. I put a gauge on it and the suction side pressure is in the beginning of the red range(55 psi). It turns on and the compressor starts compressing, the pressure starts going down but it only gets to about 45 psi until the compressor *clicks off* and the voltage gauge goes up a volt or two because the load comes off the circuit. Then it turns itself off and back on and the compressor starts to compress again and the pressure goes down to about 45 psi, then it cycles off again. So, I let out some pressure until it only starts out around 45 psi and it will finally keep compressing until it draws down the suction side to about 15 psi where it stabilizes. So where does the extra pressure come from. I've had to let out ten pounds of pressure about half a dozen times this summer. I can understand leaks but this is ridiculous! You have a closed system connected to a compressor. One side to the suction side and the other to the pressure side. Think why the suction side would be at a higher pressure, or conversely, why the low pressure side is at a lower pressure in a properly operating system. -- Cheers, Bruce in Bangkok |
My Adler Barbour seems to make refrigerant.
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My Adler Barbour seems to make refrigerant.
On Sat, 04 Oct 2014 07:34:51 +0700, wrote:
On Fri, 03 Oct 2014 10:38:12 -0400, "Sir Gregory Hall, Esq." wrote: On Fri, 03 Oct 2014 19:08:56 +0700, wrote: On Thu, 02 Oct 2014 15:14:32 -0400, "Sir Gregory Hall, Esq." wrote: I can't figure it out. I keep having to let refrigerant out of my Adler Barbour. It runs great with the suction-side pressure set at 15 psi. But, every month or so it will commence to cycle off and on after being off for the night. I put a gauge on it and the suction side pressure is in the beginning of the red range(55 psi). It turns on and the compressor starts compressing, the pressure starts going down but it only gets to about 45 psi until the compressor *clicks off* and the voltage gauge goes up a volt or two because the load comes off the circuit. Then it turns itself off and back on and the compressor starts to compress again and the pressure goes down to about 45 psi, then it cycles off again. So, I let out some pressure until it only starts out around 45 psi and it will finally keep compressing until it draws down the suction side to about 15 psi where it stabilizes. So where does the extra pressure come from. I've had to let out ten pounds of pressure about half a dozen times this summer. I can understand leaks but this is ridiculous! You have a closed system connected to a compressor. One side to the suction side and the other to the pressure side. Think why the suction side would be at a higher pressure, or conversely, why the low pressure side is at a lower pressure in a properly operating system. Since the two sides are able to equalize when the compressor sits idle overnight the suction side and the compressed side should be the same. So, when I measure the suction side at startup and it shows 50 psi that means the compressed side is also (temporarily) at 50. As the suction side pressure decreases the compressed side increases. So, if I measured pressure on the suction side in Jult after it has sat idle all night it and it starts out being 30psi, do tell why in August it will suddenly be reading 50psi on the same suction side at start up? As I said, it IS a closed system. If the system has been off for a sufficient period the entire system should be the same pressure as the refrigerant will be the same temperature throughout the system. Then you start the system and the compressor sucks on one side and blows on the other as it is a closed system why aren't the two sides of the system still at the same pressure? I fear you may suffer from reading comprehension problems, Bruce. I understand what you just typed and the problem has nothing to do with a system that's running and everything to do with a system that has been turned off for the night. In the morning, before starting, when the system is stabilized so that suction side pressure equals compression side pressure This is what I read on the suction side (i.e. it will be the same on the compressed side). July 38 psi August 45 psi (so I let out five psi) Sept. 60 psi (so I the let out 20 psi) In other words, even though I let out pressure because it gets so high that the compressor, when started for the first time in the morning, cycles off and on because of the high pressure cut-out circuit. That's why I have to let out pressure so it will get about the business of refrigerating. So where does the excess pressure come from? And, don't say water vapor as there will be no steam even if there is water vapor when the system is cool and stabilized in the morning. -- Sir Gregory |
My Adler Barbour seems to make refrigerant.
In the morning, before starting, when the system is stabilized so that suction side pressure equals compression side pressure This is what I read on the suction side (i.e. it will be the same on the compressed side). Why do you assume that each side of the system is the same? You've got a pressure gauge on one side. Your problem is consistent with the high readings that you have. Do you really have any idea what the pressure is on the other side? I'd consider that the refrigerant is contaminated. Go through the cleaning process, pressure test and replace the refrigerant. If the problem comes back suspect a leak or a bad compressor. Hope it turns out to be an easy fix. Dave M. |
My Adler Barbour seems to make refrigerant.
On Sat, 04 Oct 2014 15:28:37 -0400, "Sir Gregory Hall, Esq."
wrote: On Sat, 04 Oct 2014 07:34:51 +0700, wrote: On Fri, 03 Oct 2014 10:38:12 -0400, "Sir Gregory Hall, Esq." wrote: On Fri, 03 Oct 2014 19:08:56 +0700, wrote: On Thu, 02 Oct 2014 15:14:32 -0400, "Sir Gregory Hall, Esq." wrote: I can't figure it out. I keep having to let refrigerant out of my Adler Barbour. It runs great with the suction-side pressure set at 15 psi. But, every month or so it will commence to cycle off and on after being off for the night. I put a gauge on it and the suction side pressure is in the beginning of the red range(55 psi). It turns on and the compressor starts compressing, the pressure starts going down but it only gets to about 45 psi until the compressor *clicks off* and the voltage gauge goes up a volt or two because the load comes off the circuit. Then it turns itself off and back on and the compressor starts to compress again and the pressure goes down to about 45 psi, then it cycles off again. So, I let out some pressure until it only starts out around 45 psi and it will finally keep compressing until it draws down the suction side to about 15 psi where it stabilizes. So where does the extra pressure come from. I've had to let out ten pounds of pressure about half a dozen times this summer. I can understand leaks but this is ridiculous! You have a closed system connected to a compressor. One side to the suction side and the other to the pressure side. Think why the suction side would be at a higher pressure, or conversely, why the low pressure side is at a lower pressure in a properly operating system. Since the two sides are able to equalize when the compressor sits idle overnight the suction side and the compressed side should be the same. So, when I measure the suction side at startup and it shows 50 psi that means the compressed side is also (temporarily) at 50. As the suction side pressure decreases the compressed side increases. So, if I measured pressure on the suction side in Jult after it has sat idle all night it and it starts out being 30psi, do tell why in August it will suddenly be reading 50psi on the same suction side at start up? As I said, it IS a closed system. If the system has been off for a sufficient period the entire system should be the same pressure as the refrigerant will be the same temperature throughout the system. Then you start the system and the compressor sucks on one side and blows on the other as it is a closed system why aren't the two sides of the system still at the same pressure? I fear you may suffer from reading comprehension problems, Bruce. I understand what you just typed and the problem has nothing to do with a system that's running and everything to do with a system that has been turned off for the night. In the morning, before starting, when the system is stabilized so that suction side pressure equals compression side pressure This is what I read on the suction side (i.e. it will be the same on the compressed side). July 38 psi August 45 psi (so I let out five psi) Sept. 60 psi (so I the let out 20 psi) In other words, even though I let out pressure because it gets so high that the compressor, when started for the first time in the morning, cycles off and on because of the high pressure cut-out circuit. That's why I have to let out pressure so it will get about the business of refrigerating. So where does the excess pressure come from? And, don't say water vapor as there will be no steam even if there is water vapor when the system is cool and stabilized in the morning. I've been trying to get you to reason rather then just bitch and moan. Think about why a totally closed system might have a significantly different pressure for the suction and pressure sides of a compressor when running and the same pressure on each side when the system is shut down for a while. You seem to be saying that your stabilized system pressure is high.... Have you checked the temperature of the system -- usually OAT and looked at a temperature - pressure table to be sure that it isn't a temperature problem? -- Cheers, Bruce in Bangkok |
My Adler Barbour seems to make refrigerant.
On Sun, 05 Oct 2014 10:47:40 +0700, wrote:
On Sat, 04 Oct 2014 15:28:37 -0400, "Sir Gregory Hall, Esq." wrote: On Sat, 04 Oct 2014 07:34:51 +0700, wrote: On Fri, 03 Oct 2014 10:38:12 -0400, "Sir Gregory Hall, Esq." wrote: I've been trying to get you to reason rather then just bitch and moan. Think about why a totally closed system might have a significantly different pressure for the suction and pressure sides of a compressor when running and the same pressure on each side when the system is shut down for a while. You seem to be saying that your stabilized system pressure is high.... Have you checked the temperature of the system -- usually OAT and looked at a temperature - pressure table to be sure that it isn't a temperature problem? He's misreading the gauges, has bad gauges, or is wrong about the system being in a stable state. |
My Adler Barbour seems to make refrigerant.
On Sun, 05 Oct 2014 07:12:58 -0500, Vic Smith
wrote: On Sun, 05 Oct 2014 10:47:40 +0700, wrote: On Sat, 04 Oct 2014 15:28:37 -0400, "Sir Gregory Hall, Esq." wrote: On Sat, 04 Oct 2014 07:34:51 +0700, wrote: On Fri, 03 Oct 2014 10:38:12 -0400, "Sir Gregory Hall, Esq." wrote: I've been trying to get you to reason rather then just bitch and moan. Think about why a totally closed system might have a significantly different pressure for the suction and pressure sides of a compressor when running and the same pressure on each side when the system is shut down for a while. You seem to be saying that your stabilized system pressure is high.... Have you checked the temperature of the system -- usually OAT and looked at a temperature - pressure table to be sure that it isn't a temperature problem? He's misreading the gauges, has bad gauges, or is wrong about the system being in a stable state. You two are hopeless as you both can't seem to render things down to the basics. The basics are that the suction side and the compressed side will carry the same psi after the system has sat all night long turned off. It doesn't matter where one puts the gauge as the pressure will be the same throughout. The compressor *leaks* and is not some sort of impermeable membrane. Duh. And don't say there is some kind of a check valve in the system as that would also be silly as the evaporator is a free flow device. Silly speculation as to the system being hot might be the problem are just that - silly as the compressor will be at room temperature in the morning. Actually it will be closer to water temperature as it's installed in the bilge. My question of where does the extra psi come from remains unanswered. |
My Adler Barbour seems to make refrigerant.
On Sat, 4 Oct 2014 17:38:56 -0400, "David L. Martel"
wrote: In the morning, before starting, when the system is stabilized so that suction side pressure equals compression side pressure This is what I read on the suction side (i.e. it will be the same on the compressed side). Why do you assume that each side of the system is the same? Because the pressure throughout is the same after it has sat all night and has yet to be started in the morning. You've got a pressure gauge on one side. Your problem is consistent with the high readings that you have. Do you really have any idea what the pressure is on the other side? Not physically with a gauge but that would be unnecessary. Every bit as unnecessary as testing the psi in both sides of a balloon. I'd consider that the refrigerant is contaminated. Possibly, I had a leak whereby most of the pressure leaked out. I didn't put the vacuum to it but just added more r134a thinking that since the pressure inside was still higher than atmospheric pressure no contaminating air could have leaked in. Go through the cleaning process, pressure test and replace the refrigerant. If the problem comes back suspect a leak or a bad compressor. Compressor is good as when the pressure is right it cools like a champ. Hope it turns out to be an easy fix. It is easier to just let out excess pressure from time to time although I sure would like a decent explanation as to how in the hell can the pressure increase unless somebody is sneaking aboard and putting more r123a into it from time to time. -- Sir Gregory |
My Adler Barbour seems to make refrigerant.
Hi, Neal,
You'll really need to put gauges on both sides to see what's going on. I spent MONTHS trying to sort out my Frigoboat; ultimately it failed, and I had to replace it. The cause is known, but the stimulus is uncertain (I'm one of only hundreds of similar experiences). The end result was the same. However... In the time I messed with it, I had wildly varying pressures. My issues were a blockage which would sometimes move, or not. Your gauges should have a temperature indication on them, and the suction side should read colder the lower the pressure. FWIW, +15psi should be about -8°F 134a temp. If you have a plate-mounted thermistor or equivalent for on/off, you could compare temps of that point (where it mounts) to the indicated temperature, with an IR heat sensor. It may not be exact (my and my technician's didn't agree, even with fresh batteries in both, and neither agreed with the thermistor's readout, nor the analog thermometer we hung in there, e.g.) but it will give you an indication of whether your gauges are correct. I'm assuming you've zeroed the gauge when not using it. I'm also assuming you purge your gauge line before attaching it, whether by bleeding or a can, the other way. When you get the lockdown/restart, where is the frost on your suction side? Right at the evaporator/cold plate-to-pipe? Somewhat inside it? Somewhere down the tube? Do you have an expansion valve, capillary tube, or constant pressure valve controlling your evaporation/boil/superheat point? Do you have a receiver/drier and sight glass? If so, any bubbles in the sight glass? In my new system, there's a CPV, and a pretty good tolerance for over/under charging as a result. YMMV of course. L8R Skip -- Morgan 461 #2 SV Flying Pig KI4MPC See our galleries at www.justpickone.org/skip/gallery ! Follow us at http://groups.yahoo.com/group/TheFlyingPigLog and/or http://groups.google.com/group/flyingpiglog When a man comes to like a sea life, he is not fit to live on land. - Dr. Samuel Johnson |
My Adler Barbour seems to make refrigerant.
On Sun, 5 Oct 2014 13:56:12 -0400, "Flying Pig"
wrote: Hi, Neal, You'll really need to put gauges on both sides to see what's going on. I spent MONTHS trying to sort out my Frigoboat; ultimately it failed, and I had to replace it. The cause is known, but the stimulus is uncertain (I'm one of only hundreds of similar experiences). The end result was the same. However... In the time I messed with it, I had wildly varying pressures. My issues were a blockage which would sometimes move, or not. Your gauges should have a temperature indication on them, and the suction side should read colder the lower the pressure. FWIW, +15psi should be about -8°F 134a temp. If you have a plate-mounted thermistor or equivalent for on/off, you could compare temps of that point (where it mounts) to the indicated temperature, with an IR heat sensor. It may not be exact (my and my technician's didn't agree, even with fresh batteries in both, and neither agreed with the thermistor's readout, nor the analog thermometer we hung in there, e.g.) but it will give you an indication of whether your gauges are correct. I'm assuming you've zeroed the gauge when not using it. I'm also assuming you purge your gauge line before attaching it, whether by bleeding or a can, the other way. When you get the lockdown/restart, where is the frost on your suction side? Right at the evaporator/cold plate-to-pipe? Somewhat inside it? Somewhere down the tube? Do you have an expansion valve, capillary tube, or constant pressure valve controlling your evaporation/boil/superheat point? Do you have a receiver/drier and sight glass? If so, any bubbles in the sight glass? In my new system, there's a CPV, and a pretty good tolerance for over/under charging as a result. YMMV of course. Oh man, thanks for the help but you've made things WAY too complicated. I'm not concerned with temperature readings on the gauge fittings. Who cares? I'm perfectly happy when the evaporator is ice cold all around so that it freezes cans of beer unless the thermostat is turned way down. It does just that when the pressure in the suction side gauge fitting is around 15psi when it's running. Neither am I concerned with pressures on the compressed side. If the pressure on the suction side is within specs then the pressure on the compressed side will also be within specs. The only thing that could drive up the pressure on the compressed side is if the tiny little capillary in the evaporator should become clogged which it obviously is not as the evaporator gurgles, hisses and chitters indicating that compressed r134a is making its way through the capillary where it then expands and freezes the heck out of my cans of beer which fill the evaporator to the brim. (It's one of those vertical ones an it holds about fifteen cans of beer which make a great drinkable holding plate system) All that other stuff you mentioned doesn't really apply as the Adler Barbour doesn't have sight glasses, etc. It has a low pressure cut off and a high pressure cut off and a high temp cut off and that's about it. It's never gotten so hot that it cuts off because of that. It does suffer from connection problems in the spade connectors to the control panel, though. One must clean them and tighten them by gentle crimping from time to time lest the resistance build to the point where they fail to pass current. It HAS and does cut off due to high pressure. Where the high pressure in the suction side in the morning after it's sat idle all night comes from is the question. Nobody seems to be able to answer that simple question. Instead, everybody wants to go off on oddball tangents. -- Sir Gregory |
My Adler Barbour seems to make refrigerant.
On Sun, 05 Oct 2014 13:15:55 -0400, "Sir Gregory Hall, Esq."
wrote: On Sun, 05 Oct 2014 07:12:58 -0500, Vic Smith wrote: On Sun, 05 Oct 2014 10:47:40 +0700, wrote: On Sat, 04 Oct 2014 15:28:37 -0400, "Sir Gregory Hall, Esq." wrote: On Sat, 04 Oct 2014 07:34:51 +0700, wrote: On Fri, 03 Oct 2014 10:38:12 -0400, "Sir Gregory Hall, Esq." wrote: I've been trying to get you to reason rather then just bitch and moan. Think about why a totally closed system might have a significantly different pressure for the suction and pressure sides of a compressor when running and the same pressure on each side when the system is shut down for a while. You seem to be saying that your stabilized system pressure is high.... Have you checked the temperature of the system -- usually OAT and looked at a temperature - pressure table to be sure that it isn't a temperature problem? He's misreading the gauges, has bad gauges, or is wrong about the system being in a stable state. You two are hopeless as you both can't seem to render things down to the basics. The basics are that the suction side and the compressed side will carry the same psi after the system has sat all night long turned off. It doesn't matter where one puts the gauge as the pressure will be the same throughout. The compressor *leaks* and is not some sort of impermeable membrane. Duh. And don't say there is some kind of a check valve in the system as that would also be silly as the evaporator is a free flow device. The evaporator is a free flow device? Well yes it is but there is a valve or other restriction in there. Or is it just another thing that you don't know? Silly speculation as to the system being hot might be the problem are just that - silly as the compressor will be at room temperature in the morning. Actually it will be closer to water temperature as it's installed in the bilge. Well yes, silly. Except of course that with a gas pressure is associated with temperature. My question of where does the extra psi come from remains unanswered. -- Cheers, Bruce in Bangkok |
My Adler Barbour seems to make refrigerant.
On Mon, 06 Oct 2014 07:02:15 +0700, wrote:
On Sun, 05 Oct 2014 13:15:55 -0400, "Sir Gregory Hall, Esq." wrote: On Sun, 05 Oct 2014 07:12:58 -0500, Vic Smith wrote: On Sun, 05 Oct 2014 10:47:40 +0700, wrote: On Sat, 04 Oct 2014 15:28:37 -0400, "Sir Gregory Hall, Esq." wrote: On Sat, 04 Oct 2014 07:34:51 +0700, wrote: On Fri, 03 Oct 2014 10:38:12 -0400, "Sir Gregory Hall, Esq." wrote: I've been trying to get you to reason rather then just bitch and moan. Think about why a totally closed system might have a significantly different pressure for the suction and pressure sides of a compressor when running and the same pressure on each side when the system is shut down for a while. You seem to be saying that your stabilized system pressure is high.... Have you checked the temperature of the system -- usually OAT and looked at a temperature - pressure table to be sure that it isn't a temperature problem? He's misreading the gauges, has bad gauges, or is wrong about the system being in a stable state. You two are hopeless as you both can't seem to render things down to the basics. The basics are that the suction side and the compressed side will carry the same psi after the system has sat all night long turned off. It doesn't matter where one puts the gauge as the pressure will be the same throughout. The compressor *leaks* and is not some sort of impermeable membrane. Duh. And don't say there is some kind of a check valve in the system as that would also be silly as the evaporator is a free flow device. The evaporator is a free flow device? Well yes it is but there is a valve or other restriction in there. Or is it just another thing that you don't know? Silly speculation as to the system being hot might be the problem are just that - silly as the compressor will be at room temperature in the morning. Actually it will be closer to water temperature as it's installed in the bilge. Well yes, silly. Except of course that with a gas pressure is associated with temperature. My question of where does the extra psi come from remains unanswered. === Someone suggested contamination and I think that is the right track, especially in view of the fact that you didn't use a vacuum pump on the system after fixing a leak. All of the professionals that I know will *always* use a vacuum pump after repairing a leak. They are not that expensive and a good investment if you are doing you're own work. If you also get a leak detector, a full gage set and an IR temp gun, you can not only fix your own system, but also hire out and make some cash on the side. |
My Adler Barbour seems to make refrigerant.
On Thursday, October 2, 2014 3:14:32 PM UTC-4, Sir Gregory Hall, Esq. wrote:
I can't figure it out. I keep having to let refrigerant out of my Adler Barbour. It runs great with the suction-side pressure set at 15 psi. But, every month or so it will commence to cycle off and on after being off for the night. I put a gauge on it and the suction side pressure is in the beginning of the red range(55 psi). It turns on and the compressor starts compressing, the pressure starts going down but it only gets to about 45 psi until the compressor *clicks off* and the voltage gauge goes up a volt or two because the load comes off the circuit. Then it turns itself off and back on and the compressor starts to compress again and the pressure goes down to about 45 psi, then it cycles off again. So, I let out some pressure until it only starts out around 45 psi and it will finally keep compressing until it draws down the suction side to about 15 psi where it stabilizes. So where does the extra pressure come from. I've had to let out ten pounds of pressure about half a dozen times this summer. I can understand leaks but this is ridiculous! -- Sir Gregory An Adler Barbour old fixed speed or new variable speed CU models are serviced with 80 to 120 grams of refrigerant. Trying to determine correct refrigerant charge when compressor is not running is of no value as ambient temperatures of complete system are likely never going to be the same pressure. The important indicators of an AB refrigeration unit's performance is how much amperage it is drawing, frost covering of evaporator and no frost on return line towards compressor. Once a servicing gauge is connected to one of these very small systems the chances are the refrigerant's purity is probably compromised. If refrigerant is still pure suction pressure will after 20 minutes compressor running time will read 6 to 8 psi for 134a refrigerant and 8 to 11 psi for R12 refrigerant. If thermostat is set for refrigerator temperatures many hours later suction pressure will be the same or a few psi lower if evaporator is very cold. Once low pressure is correct and frost coverage and amperage is not correct you will know there is a problem with condenser cooling or contaminated refrigerant. As Skip mentioned on another manufactures refrigerant flow problems can not be ruled out. Moisture freezing in refrigerant is possible if refrigerant is contaminated. It is unlikely that Skips problem with refrigerant flow will occur on an AB system. There is a special section on Refrigerant Charging on my web site covering Adler Barbour Danfoss BD compressors. |
My Adler Barbour seems to make refrigerant.
On Mon, 6 Oct 2014 07:40:33 -0700 (PDT), Richard Kollmann
wrote: On Thursday, October 2, 2014 3:14:32 PM UTC-4, Sir Gregory Hall, Esq. wrote: I can't figure it out. I keep having to let refrigerant out of my Adler Barbour. It runs great with the suction-side pressure set at 15 psi. But, every month or so it will commence to cycle off and on after being off for the night. I put a gauge on it and the suction side pressure is in the beginning of the red range(55 psi). It turns on and the compressor starts compressing, the pressure starts going down but it only gets to about 45 psi until the compressor *clicks off* and the voltage gauge goes up a volt or two because the load comes off the circuit. Then it turns itself off and back on and the compressor starts to compress again and the pressure goes down to about 45 psi, then it cycles off again. So, I let out some pressure until it only starts out around 45 psi and it will finally keep compressing until it draws down the suction side to about 15 psi where it stabilizes. So where does the extra pressure come from. I've had to let out ten pounds of pressure about half a dozen times this summer. I can understand leaks but this is ridiculous! -- Sir Gregory An Adler Barbour old fixed speed or new variable speed CU models are serviced with 80 to 120 grams of refrigerant. Trying to determine correct refrigerant charge when compressor is not running is of no value as ambient temperatures of complete system are likely never going to be the same pressure. The important indicators of an AB refrigeration unit's performance is how much amperage it is drawing, frost covering of evaporator and no frost on return line towards compressor. Once a servicing gauge is connected to one of these very small systems the chances are the refrigerant's purity is probably compromised. If refrigerant is still pure suction pressure will after 20 minutes compressor running time will read 6 to 8 psi for 134a refrigerant and 8 to 11 psi for R12 refrigerant. If thermostat is set for refrigerator temperatures many hours later suction pressure will be the same or a few psi lower if evaporator is very cold. Once low pressure is correct and frost coverage and amperage is not correct you will know there is a problem with condenser cooling or contaminated refrigerant. As Skip mentioned on another manufactures refrigerant flow problems can not be ruled out. Moisture freezing in refrigerant is possible if refrigerant is contaminated. It is unlikely that Skips problem with refrigerant flow will occur on an AB system. There is a special section on Refrigerant Charging on my web site covering Adler Barbour Danfoss BD compressors. Thanks, I might just have to try vacuuming the damned thing out and putting new r134a into it. It could be that it gets a blockage from time to time which could conceivably drive up the suction pressure so high that the high pressure cut-off switch cuts in. I know somebody who has a vacuum pump I can borrow. I suppose a little water vapor in the system could wreak havoc. I tend to be sloppy with connecting the little can of r134a and I never even thought about purging the supply hose. -- Sir Gregory |
My Adler Barbour seems to make refrigerant.
On Mon, 6 Oct 2014 07:40:33 -0700 (PDT), Richard Kollmann
wrote: There is a special section on Refrigerant Charging on my web site covering Adler Barbour Danfoss BD compressors. Link please. |
My Adler Barbour seems to make refrigerant.
On Mon, 06 Oct 2014 20:16:13 -0400, "Sir Gregory Hall, Esq."
wrote: On Mon, 6 Oct 2014 07:40:33 -0700 (PDT), Richard Kollmann wrote: There is a special section on Refrigerant Charging on my web site covering Adler Barbour Danfoss BD compressors. Link please. === http://www.kollmann-marine.com/servicing%20sml%20refrig.aspx#INDEX |
My Adler Barbour seems to make refrigerant.
On Mon, 06 Oct 2014 20:50:49 -0400, Wayne.B
wrote: On Mon, 06 Oct 2014 20:16:13 -0400, "Sir Gregory Hall, Esq." wrote: On Mon, 6 Oct 2014 07:40:33 -0700 (PDT), Richard Kollmann wrote: There is a special section on Refrigerant Charging on my web site covering Adler Barbour Danfoss BD compressors. Link please. === http://www.kollmann-marine.com/servicing%20sml%20refrig.aspx#INDEX Thanks, it looks like a lot to read. But at first glance it looks like my suction side pressure might still be a bit too high although the evaporator is frozen all the way around. It's not possible to tell where the frost line is as the tubing exits the icebox and is immediately enshrouded by a rubberized sleeve that goes almost all the way to the compressor. The tubing about a two feet from the compressor where it enters the rubberized shroud is only slightly cold to the touch so the frost line is somewhere inside the insulation. The amperage draw is lower as the suction pressure is lower. I can tell by the volt meter. When running in the bright sunshine with 20 amps of solar panels keeping the batteries charged the voltage will be about 13.2 with the fridge running. I can lower the voltage (thus upping the amperage) by adding more refrigerant. I can easily whack it down to 12.5 volts by adding about 5-7 pounds more than the fifteen pounds which seems optimal. This is with a hot system that has stabilized itself with a completely frosted evaporator. Kollman is suggesting 8psi or lower for optimization. Perhaps I need to let out more pressure. But, where is the extra pressure coming from. I'd still like to know that. I can understand leaks which lower the pressure but I just can't understand what can constantly cause pressure increases. As of now, my freaking beer has ice crystals and I have to turn the thermostat down, way down so the fridge only runs about 20 minutes per hour. The amp draw is low because the voltage is high. I'm happy until it stops working again and I find too much pressure again. You don't get too much pressure from nowhere. ????? -- Sir Gregory |
My Adler Barbour seems to make refrigerant.
On Mon, 06 Oct 2014 21:24:15 -0400, "Sir Gregory Hall, Esq."
wrote: You don't get too much pressure from nowhere. ????? === Best guess is water vapor freezing or some other contaminant. You can eliminate water vapor by pumping it down with a vacuum pump and being very careful to purge the hoses properly. |
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