Remote or Auto Restart: Difference between revisions

From EMIT Controls
Line 71: Line 71:
#Once unit stops running, bypass is opened or closed based on bypass config for condition after faulted stop
#Once unit stops running, bypass is opened or closed based on bypass config for condition after faulted stop
#Post lube runs
#Post lube runs
#If the fault condition calls for an auto restart, and it is possible to auto restart*, the state will go to ‘Auto restart pending’ and start counting down the timer to auto restart
#If the fault condition calls for an auto restart, and it is possible to auto restart (see below), the state will go to ‘Auto restart pending’ and start counting down the timer to auto restart
##Optionally, the unit can blow down at this point to allow some time for the pressure to settle before the next start attempt
##Optionally, the unit can blow down at this point to allow some time for the pressure to settle before the next start attempt
##Once the auto restart timer expires, the start sequence will begin at #3 of the start sequence above
##Once the auto restart timer expires, the start sequence will begin at #3 of the start sequence above

Revision as of 17:12, 25 October 2023

Overview

EMIT ETS and Dynamic Control panels can be configured to automate the start and load sequence through settings related to various valves around the skid. If the unit is configured to load automatically, it can also be configured to be started remotely and/or automatically restart on certain faults. This document describes the sequence and configuration for these scenarios. A separate document “DC Valve Setup Guide” covers each valve setup individually.

Note that navigation to setup screens are listed in this document for the DC panel. The ETS panel has similar screens under Annunciator Setup.

Both of these scenarios (remote reset or auto reset) involve the unit starting without any operator present.

Requirements

  1. Valves: The unit needs at least an automated suction, blowdown, and recycle/bypass valve. The suction valve can be a block valve, a Suction PID loop on a proportional suction valve, or both. Similarly, there can be an on/off recycle valve or a proportional recycle PID valve.
    1. On/off type valves can optionally have a limit switch for open/closed. These are the recommended type for safety reasons.
  2. The purge sequence should be set up, along with other important start parameters (detailed below)
    1. This is not strictly required. Instead, the unit can be purged manually and then the unit can be restarted remotely without blowing all the way down.
  3. The maximum number of remote resets must be more than 0 (see the Main Setup section at the end of this page)
  4. There should be a panel buzzer on the Brain “HORN” output. Ideally a larger external horn or siren is placed on the skid and wired to this input (if needed, through a relay) to help warn users when the unit is about to start
  5. It is recommended that warning signs be posted that unit can start remotely

Note that as a general goal the unit should be able to start and load itself on "Start" button press without any other intervention. Once this is can happen reliably, then the unit can have the remote resets enabled.

General Sequences

Start Sequence

  1. Unit is stopped by local or remote action, and speed switch is in AUTO position.
    1. Blowdown, suction block, discharge block valves are closed
    2. Bypass may be open or closed based on configuration on “Bypass Logic” screen
    3. Recycle (if used) is open, and suction proportional valve (if used) is closed. This depends on the PID setup.
  2. Modbus request for “remote reset” is received, or ‘remote reset’ input is activated
    1. If the [number of remote starts] < [max number of allowed remote starts] the unit can start.
    2. Note that someone could also press reset then start on the panel locally, and the sequence from here on would still be the same. A ‘local’ reset by panel button press resets the current number of remote starts to zero
  3. If the suction pressure is above the blowdown limit, a blowdown is performed
    1. The blowdown opens until the pressure is under the limit
    2. If the “max blowdown time” is reached before the blowdown pressure is reached, the sequence will fault out (usually because the valve is not working)
  4. If the suction pressure is below the purge limit, a purge sequence is performed
    1. The full sequence is shown on the purge setup screen
    2. The suction will open during the sequence, along with bypass and blowdown at times to get the system purged out
    3. When purge is complete, the suction and blowdown will again be closed, and bypass left open
    4. Note: If the purge sequence is not enabled then the sequence would fail here if the suction pressure is below the purge threshold
  5. The pre-lube sequence is run
    1. If the bypass is still closed for some reason (e.g. purge was not needed), then it will always be opened during pre-lube
  6. The system moves to ‘Ready to Start’
    1. Suction and discharge block valves are opened (if used)
    2. For EMIT engine controls, the auto-crank sequence will start
    3. For non-EMIT engine controls (e.g. CAT ®), the engine control unit will be sent a signal to start and the fuel valve opened
  7. Once engine is running, the state moves to the ‘running state’
    1. Independently, the idle hold condition will hold the unit at idle until the condition is met, e.g. oil temperature, at which time the unit goes to normal running speed(s)
  8. Once idle hold condition is met, the load delay timer begins counting down
  9. Once the load delay expires, the bypass valve closes
    1. Typically, if a recycle PID is used it will be set to activate after load delay ends, so it would start to close at this time as well.
    2. Assuming process pressures are on ‘C’ class alarms, they will arm when the pressures rise.
    3. A max ‘C’ timer can be configured so that the unit will stop if some amount of time passes and the ‘C’ inputs still have not cleared
  10. Unit is on line

Normal Stop Sequence

  1. Operator presses ‘Stop’ button, a Modbus stop is received, or the “remote stop” input is activated
  2. Unit goes to “Shutdown Delay” state
    1. Suction and discharge block (if used) are closed
    2. If engine (through CAT panel) is configured to cool down, the cooldown time will elapse
  3. Once unit stops running, bypass is opened or closed based on bypass config for condition after normal stop
  4. Post lube runs
  5. State is “Manual Stop”

Fault Stop Sequence

  1. Some input causes a fault
  2. Unit goes to “Shutdown Delay” state
    1. Suction and discharge block (if used) are closed
    2. No cooldown is performed, engine is stopped immediately
  3. Once unit stops running, bypass is opened or closed based on bypass config for condition after faulted stop
  4. Post lube runs
  5. If the fault condition calls for an auto restart, and it is possible to auto restart (see below), the state will go to ‘Auto restart pending’ and start counting down the timer to auto restart
    1. Optionally, the unit can blow down at this point to allow some time for the pressure to settle before the next start attempt
    2. Once the auto restart timer expires, the start sequence will begin at #3 of the start sequence above
  6. If an auto restart is not applicable, the unit goes to Faulted state

Conditions to allow for an auto restart

For an auto restart to take place, all the following conditions must be met:

  • The unit must be in ‘auto’ switch position
  • The number of auto restarts currently attempted must be less than the maximum allowed number of auto restarts (which by default is zero, for no auto restarts)
  • The fault that occurred has to allow for an auto restart. This includes low or high suction, low or high final discharge, or one of the user-selected DI faults.

Sequence Setup Notes

Suction PID

If a proportional suction valve is installed, it will be set up as a normal PID loop and given a name “SUCTION”. The activation criteria should be set so that the loop is active when the RPM is above 0, so that when the unit is off the valve is closed. Once the unit is turning the PID loop will come on and try to keep suction at the set pressure. The output value for “inactive” should be set to whatever closes the valve.

Note that during the purge sequence the valve position will be overridden by the needs of the sequence. As soon as purge ends the PID loop goes back to normal.

Recycle PID

If a proportional recycle valve is used, it will be set up as a normal PID loop or can be set up at the special “Dual input recycle PID” under outputs setup. If using a normal PID, the activation criteria is recommended to activate right after load delay ends, and when inactive have the valve open.

On / Off Valves

For on/off valves (suction block, discharge block, bypass, blowdown) the valve setup is at Settings -> Brain -> Outputs Setup -> Output to Valve selection. See Annunciator_Valve_Setup

Purge / Blowdown thresholds

The suction pressure limits for purge / blowdown are found at Brain -> Outputs Setup -> "Purge Threshold" and "Blowdown Settings".

See Annunciator_Blowdown_Setup and Annunciator_Purge_Setup.


Load Delay

The load delay can be set at Brain -> Timers Setup -> Load Delay Timer. The C contacts can be unarmed during load delay to prevent incorrect shutdowns. See Annunciator_Load_Delay

Bypass Logic

A few aspects of the bypass valve logic can be adjusted at the page Brain -> Outputs Setup -> Bypass Logic. See Annunciator_Bypass_Setup

Misc Start Permissive

Optionally, an extra start permissive can be added at Brain -> Outputs setup -> Misc Start Permissive. This can come from any input and can add some extra condition that has to be met to allow the unit to start locally or remotely.

Remote or Auto Restart Main Setup

Assuming all the above settings are complete, enabling a remote or auto restart is done at Brain -> Reset Logic.

The first tab deals with Remote Resets, which are restarts that are attempted via modbus or an external wire.

Restart1.png

Max Remote Resets- If set to something other than 0, then a remote reset and start is possible. The remote reset consists of writing a "1" to register 41200 or using a remote input. As an example, if this setting is "3", then a remote reset/start can be used 3 times before a user has to be at the panel. At versions 2283 and above, if this setting is "15" then the number is unlimited.

Digital Inputs for remote stop / reset- Some digital inputs can be specified as linked to a PLC for stop/reset through this screen. Note: Remote start input is not needed- a remote reset will also start the unit if a start is possible.

Example: Di-9 and Di-10 can be assigned to remote reset and remote stop. If Di-9 is grounded briefly, the unit resets and starts if possible. If Di-10 is grounded briefly, the unit stops.

The second tab deals with Auto Resets/Restarts, which is when the unit restarts itself after certain conditions.

Restart2.png

Max Auto Resets- If set to something other than 0, then an auto reset/start is possible. The auto restart will happen if the conditions outlined in a previous section “Condition to allow for an auto restart” are met.

Auto-Reset Delay, Minutes- If using auto restart, this is the time after shutdown before the unit restarts, assuming an auto restart is possible.

Additional DI Sensors to Auto-Reset on- By default, if using auto restart the sensors that will allow for the auto restart are low/high suction and high discharge. Additional digital inputs can be selected here that will be added to the list of inputs that allow an auto restart.