Good catch. Too many techs change motors, compressors, etc but they don't confirm proper ops. I recommend checking the IOM flow charts. The center of the flow curve is Trane's design data.
Do you have any Peete's plugs? Wonder what the ft of head is on that pump. Do you have access to the start up data on the HD.....Trane isn't big on sharing that information. We tend to write it on the inside of the door on every chiller qe start up....makes it easier for anyone else to know design data. You got it done.....its running....on to the next adventure. Great video as always
No plugs just 1/4 shut off valves, Pump Head is 40ft 700 GPM , PD is matching start up of 2 psi although design is 4.8. Both chillers operating same now.,Thanks Jason👊
The diameter of the pump impeller is important too, if it is to big the motor gets so much load. thats why the impeller gets turned down in a lathe tho the calculated diameter.
Your channel's awesome mate , I learn a lot watching it .
I like your straight to the point approach too 👍.
I appreciate that, it’s just me at work thinking out loud 👍
Good catch. Too many techs change motors, compressors, etc but they don't confirm proper ops. I recommend checking the IOM flow charts. The center of the flow curve is Trane's design data.
Right on 👍
Pump bearings being tight can cause higher amps, Loose connections in the starter panel are also things to look for
Yeah, pump is only a couple years old… it was the balancing valve
Do you have any Peete's plugs? Wonder what the ft of head is on that pump. Do you have access to the start up data on the HD.....Trane isn't big on sharing that information. We tend to write it on the inside of the door on every chiller qe start up....makes it easier for anyone else to know design data. You got it done.....its running....on to the next adventure. Great video as always
No plugs just 1/4 shut off valves, Pump Head is 40ft 700 GPM , PD is matching start up of 2 psi although design is 4.8. Both chillers operating same now.,Thanks Jason👊
🤙✌
Thank you for your great work !!!!
Thanks for watching 👊
The diameter of the pump impeller is important too, if it is to big the motor gets so much load. thats why the impeller gets turned down in a lathe tho the calculated diameter.
Yeah, usually oversized… 👍
Great video. Thank you for sharing
Thanks Zekenzy!
Great video, thanks for sharing 😊
Thanks for watching!
Air flow, Air flow, Water flow!
Yep… then cash flow 👍
Nice work!
Thanks!
good showing thanks
Thanks for watching!
Great job subcool
Thanks Victor 👊
🥶 🤓✌️ Thanks
Thanks for watching
If it was drawing 18.5 amps why did overload stop the motor?
Never saw amp draw on the failed motor just blown 20amp fuses… can only assume same. Overload wasn’t tripped
Did you lose your apprentice?
He was on 6mo rotation… he’ll be back