8 p gain tss, 9 integral time tss, 10 derivative time tss – Hach-Lange RTC112 SD-Module User Manual

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Parameterization and operation

4.7.8

P GAIN TSS

Proportional gain for the PID closed-loop controller for the TSS
concentration in the dewatered sludge.

Note: P GAIN TSS [L/g] is divided by 100 before it is multiplied by the
deviation of the actual TSS concentration from the required TSS
setpoint.

4.7.9

INTEGRAL TIME TSS

Integral time for the PID closed-loop controller for the TSS
concentration in the dewatered sludge.

Note: INTEGRAL TIME TSS is set to "0" to deactivate the integral part of
the PI open-loop controller.

4.7.10 DERIVATIVE TIME TSS

Derivative time for the PID closed-loop controller for the TSS
concentration in the dewatered sludge.

4.7.11 SET-POINT FILT

Required setpoint of the TSS concentration in the centrate/filtrate.

Note: This parameter is only considered if CLOSED-LOOP FILTRATE
CONTROL is activated.

4.7.12 P GAIN FILT

Proportional gain for the PID closed-loop controller for the TSS
concentration in the centrate/filtrate.

Note: This parameter is only considered if CLOSED-LOOP EFFLUENT
CONTROL is activated.

P GAIN FILT [L/g] is divided by 100 before it is multiplied by the deviation
of the actual TSS concentration from the required TSS setpoint.

4.7.13 INTEGRAL TIME FILT

Integral time for the PID closed-loop controller for the TSS
concentration in the centrate/filtrate.

Note: This parameter is only considered if CLOSED-LOOP EFFLUENT
CONTROL is activated.

INTEGRAL TIME TSS is set to "0" to deactivate the integral part of the
PID open-loop controller.

4.7.14 DERIVATIVE TIME FILT

Derivative time for the PID closed-loop controller for the TSS
concentration in the centrate/filtrate.

Note: This parameter is only considered if CLOSED-LOOP FILTRATE
CONTROL is activated.

4.8

INPUT/OUTPUT LIMITS

4.8.1

FEED FLOW LOW

Feed flow rate input signals below this value [m

3

/h] are set to this

value. This means that very low feed flow rates can be avoided.