...VFD driven motors?
I have been drafted for a project, already well on its way to FUBAR, where a compressor may need to run at a small fraction of its' normal throughput. Background novel follows.
A small experiment decided a year ago that they wanted to recover the helium being used for the cryogenic cooling, instead of venting to atm. At $3000/ 500L dewar/week, that was reasonable economics. The experiment has ~0 budget, so we rebuilt and donated an old 1 cylinder compressor to take their spent gas and send it to our main plants' dirty gas recovery system. We've since realized that the experiment has two distinct modes-cooldown, where the gas mass flow approaches 5 gm/sec and running, with mass flow of ~.5g/sec.
The compressor is pulley driven by a 7.5 hp, 1800rpm that starts and runs across the line and is rated at ~2.5 g/sec. So-during cooldown, a hefty portion of the gas gets vented to atm anyway, because of inadequate compressor capacity, and during running, the compressor is 90% shunted by a hastily installed valve, to prevent pulling vacuum on the suction side and introducing air contamination.
since we have several more of these 1 cylinder Corkin compressors on hand, I've been charged with getting a second one installed parallel to the first and giving the operators a way of maintaining suction pressure at ~1psig, under all conditions. Both compressors running full speed are suffucient for the cooldown load.But the running load is 1/10th the cooldown load and since the compressor throughput is linear w/speed, the motors would need to run ~180 rpm.
The initial proposal called for the purchase of a single 15 hp VFD to throttle back the speed of both compressor motors. This seems very slow to me and I wonder about the motors (ODP) ability to cool themselves.
My questions are:
Can AC induction motors run at fractional speeds reliably for extended periods? Is there a lower limit for standard duty motors?
What are the concerns beside heating?
If the pulley ratio were decreased from ~7:12 to say 5:14, how much faster can the motors be run than their 60 Hz speed, to achieve normal compressor throughput? 3150 rpm (105Hz)?
Strang but we've never used a VFD/motor to simply drive a load at variable speed. We have 30 or so 7.5 hp VFDs in service but they all operate in a continuous regenerative braking mode.
I have been drafted for a project, already well on its way to FUBAR, where a compressor may need to run at a small fraction of its' normal throughput. Background novel follows.
A small experiment decided a year ago that they wanted to recover the helium being used for the cryogenic cooling, instead of venting to atm. At $3000/ 500L dewar/week, that was reasonable economics. The experiment has ~0 budget, so we rebuilt and donated an old 1 cylinder compressor to take their spent gas and send it to our main plants' dirty gas recovery system. We've since realized that the experiment has two distinct modes-cooldown, where the gas mass flow approaches 5 gm/sec and running, with mass flow of ~.5g/sec.
The compressor is pulley driven by a 7.5 hp, 1800rpm that starts and runs across the line and is rated at ~2.5 g/sec. So-during cooldown, a hefty portion of the gas gets vented to atm anyway, because of inadequate compressor capacity, and during running, the compressor is 90% shunted by a hastily installed valve, to prevent pulling vacuum on the suction side and introducing air contamination.
since we have several more of these 1 cylinder Corkin compressors on hand, I've been charged with getting a second one installed parallel to the first and giving the operators a way of maintaining suction pressure at ~1psig, under all conditions. Both compressors running full speed are suffucient for the cooldown load.But the running load is 1/10th the cooldown load and since the compressor throughput is linear w/speed, the motors would need to run ~180 rpm.
The initial proposal called for the purchase of a single 15 hp VFD to throttle back the speed of both compressor motors. This seems very slow to me and I wonder about the motors (ODP) ability to cool themselves.
My questions are:
Can AC induction motors run at fractional speeds reliably for extended periods? Is there a lower limit for standard duty motors?
What are the concerns beside heating?
If the pulley ratio were decreased from ~7:12 to say 5:14, how much faster can the motors be run than their 60 Hz speed, to achieve normal compressor throughput? 3150 rpm (105Hz)?
Strang but we've never used a VFD/motor to simply drive a load at variable speed. We have 30 or so 7.5 hp VFDs in service but they all operate in a continuous regenerative braking mode.