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playground:power [2010/07/30 13:09]
132.235.40.102
playground:power [2015/10/16 14:48] (current)
jacobs
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 **POWER INTERRUPTION RECOVERY** **POWER INTERRUPTION RECOVERY**
-This process will guide the operator through the steps to recover from a brief ( less than 1 minute ) power interruption. ​ The goal is to quickly restore critical support systems before they reach an inoperable state. ​ This process should take less than 3 minutes.+This process will guide the operator through the steps to recover from a brief **( less than 1 minute )** power interruption. ​ The goal is to quickly restore critical support systems before they reach an inoperable state. ​ This process should take less than 3 minutes
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 +The source vacuum controls and cooling water pump switches are kept in an "​on"​ configuration by a UPS located on the sputter source vacuum cabinet. ​ The UPS should keep these controls running for 30-40 minutes. ​ The pumps themselves will thus restart automatically when the power comes back on, as long as the UPS is still working.
  
 If a power blink is observed, or the phase alarm activates, immediately follow these steps as soon as the power comes back on: If a power blink is observed, or the phase alarm activates, immediately follow these steps as soon as the power comes back on:
  
-1) Re-activate the cooling water loop pumps. ​ The controls are located at the entry to the source area. (Ground the high voltage cage). Push each start button.  ​The source cooling water must also be re-activated. ​ This control is on the side of the cabinet that is against the wall by the sputter source. ​ You may need to hold the “on” switch for several seconds before the pump will remain on.+1) The source cooling water must  be re-activated. ​ This control is on the side of the cabinet that is against the wall by the sputter source. ​ You may need to hold the “on” switch for several seconds before the pump will remain on. 
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 +{{playground:​im001093s.jpg|}}  
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 +2) Check the vault cryopump compressors to verify that they have re-started. ​ There is one in the high energy pumping station and one next to the low energy pumping station. ​ If they are running they should be making noise and the pressure gauge should read ~300 psi on the HE unit, and ~75 psi on the LE unit.  If they are not running try cycling the power switch on the front of the compressor, if that doesn’t work try cycling the breaker on the back of the compressor. ​ Do the same for any cryopump compressors associated with your beam line. 
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 +{{playground:​im001094s.jpg|}}{{playground:​im001095s.jpg|}}{{playground:​im003474s.jpg|}} 
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 +3)      Acknowledge the alarm panel, reset the shutdown module and the tritium monitor. 
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 +4) If the blink was more than a few milliseconds the accelerator and all electrostatic devices will have shut down and all electrically operated gate valves (except for the sources) will have closed. ​ If the accelerator was running, set all of its controls to the initial condition (off) settings.  ​
  
-{   ​{playground:​im001091s.jpg|}}.....{{playground:​im001093s.jpg|}} ​+5)      Check the “main loop temp” on the alarm panel If it is greater than 58 the chiller has failed and you will need staff to restart it Turn down the magnets.
  
-2) Check the vault cryopump compressors to verify ​that they have re-started. ​ There is one in the high energy ​pumping station ​and one next to the low energy ​pumping station. ​ If they are running they should ​be making noise and the pressure gauge should read ~300 psi on the HE unit, and ~75 psi on the LE unit.  If they are not running try cycling the power switch on the front of the compressor, ​if that doesn’t work try cycling the breaker on the back of the compressor.+6) Return to the vault and check that the 4 cryopumps ( LE line, LE pumping station, HE pumping station, analyzer line) are still cold.  The CTI pumps at the LE area have reliable temperature gauges. ​ Condensation or frost on the cryopump is a sign of failure.  If they appear to still be good open the "​pump"​ gate valve at each pumping station.  If they have failed, shut down the compressor ​to begin regenerationdo not open any gate valves
  
-{{playground:​im001094s.jpg|}}{{playground:​im001095s.jpg|}}+7) The HVAC, lab cooling water, and compressed air systems are automated and should return to normal operation within 5 minutes of power restoration No action is required in the mechanical room upstairs. 
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-3) Proceed to the mechanical room.  Stand at the yellow circle painted on the floor in front of the main breaker panel. ​ Push the reset and start buttons on panels A, B, & C.  This will activate 2 air handlers, and the water pump behind you. +8) This process has preserved the vacuumcooling, climate control ​systems. ​ The ion gauges, gates valves and ion sources will need to be carefully re-started to resume operations. ​ Call the lab staff personnel for assistance in these matters.
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- Panels A, B, C Water pump +
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-4) Return to the control room.  Check the “main loop temp” on the alarm panel. ​ If it is greater than 50 the chiller has failed and you will need staff to restart it.  Do not re-start the accelerator,​ and turn down the magnets. +
-5) Return to the vault and check that the 4 cryopumps ( LE line, LE pumping station, HE pumping station, analyzer line) are still cold.  Remember, the green part of the dial is NOT good.  If they have failed, shut down the compressor to begin regeneration. +
-6) This process has preserved the vacuum ​and cooling systems. ​ The ion gauges, gates valves and ion sources will need to be carefully re-started to resume operations. ​ Call the lab staff personnel for assistance in these matters.+
  
playground/power.1280509798.txt.gz · Last modified: 2010/07/30 13:09 by 132.235.40.102