Emec CENTURIO
5-Channel Controller for Water Treatment and Control
Looking for the best water treatment system for your cooling tower? Emec Centurio is one of the most advanced systems on the market. Its 5 modular channels receive data from optional sensors. PH, temperature, conductivity, chlorine, turbidity, tracers, etc. Of course, controlling spray valves, addition of chemistry, 4-20 mA output, etc etc are no problem for this complete solution. And because the eye wants something too, it comes in Italian design!
The Centurio can be controlled remotely via the exclusive EMEC ERMES web management system. This service includes.
Features
- Real-time indication of process values
- N.O./N.C. contact
- MODBUS, TCP/IP MODBUS, WIFI, LAN available
- Simple control
- Local/remote controllable
- Proportional control of chemical doses
- Data log
- Emec Centurio is supplied without sensors.
Emec Centurio Tower | specially developed for cooling towers
Especially for cooling water treatment, there is the Emec Centurio Tower. As standard, this controller can measure the conductivity in the water and adjust the dosing volume based on this value.
Besides the (inductive) conductivity in the water, the Centurio can also measure the following values (parameters) in the water:
- pH values
- ORP
- Free chlorine
- Bromine
- Chlorine dioxide
- Hydrogen Peroxide
- Ozone
- Peracetic acid
- Tracers
- Turbidity
- For more information on the parameters and associated sensors, see the ?Versions' tab.
Versions
In the table below, you can see which versions are available and which additional sensors can be connected to them. Can't find the right sensor? Then please contact us.
|
Centurio PRO |
Description |
Multi-parameter controller for water treatment (6-channel). |
Sensors (Channel 1 to 6) |
Conductivity
- Model: ECD / EICD
- Range: 0/9999 _S
- Compensation: Temperature
Inductive conductivity
- Model: ECDIND
- Range: 0/3000 mS, 0/30000 mS
- Compensation: Temperature
pH
- Model: EPH
- Range: 0 ? 14 pH
- Compensation: Temperature
ORP
- Model: ERH
- Range: 0/1000 mV
- Compensation: Temperature
Free Chlorine
- Model: ECL / SCL
- Range: Depending on sensor
- Compensation: Temperature
Bromine
- Model: SBR
- Range: 0.20 ml/l
- Compensation: Temperature
Chlorine dioxide
- Model: SCL2
- Range: Depending on sensor
- Compensation: Temperature
Hydrogen Peroxide
- Model: SCL9
- Range: Depending on sensor
- Compensation: Temperature
Ozone
- Model: SCL10
- Range: Depending on sensor
- Compensation: Temperature
Peracetic acid
- Model: SCL11
- Range: Depending on sensor
- Compensation: Temperature
Tracers
- Model: ETRC
- Range: 0/9999.9 ppm
- Compensation: ?
Turbidity
- Model: ETORB2
- Range: 0/40.00 NTU, 0 / 400.0 NTU, 0 / 4000 NTU
- Compensation: Temperature
Dissolved Oxygen
- Model: EOLUM
- Range: 0 ? 20 mg/l
- Compensation: Temperature
Potentiostatic Probe
mA Input
|
|
Centurio TOWER |
Description |
Multi-parameter controller specially designed for cooling water treatment (6-channel). |
Sensors (Channel 1) |
Conductivity
- Model: ECD / EICD
- Range: 0/9999 _S
- Compensation: Temperature
Inductive conductivity
- Model: ECDIND
- Range: 0/3000 mS, 0/30000 mS
- Compensation: Temperature
|
Sensors (Channel 2 to 6) |
pH
- Model: EPH
- Range: 0 ? 14 pH
- Compensation: Temperature
ORP
- Model: ERH
- Range: 0/1000 mV
- Compensation: Temperature
Free Chlorine
- Model: ECL / SCL
- Range: Depending on sensor
- Compensation: Temperature
Bromine
- Model: SBR
- Range: 0.20 ml/l
- Compensation: Temperature
Chlorine dioxide
- Model: SCL2
- Range: Depending on sensor
- Compensation: Temperature
Hydrogen Peroxide
- Model: SCL9
- Range: Depending on sensor
- Compensation: Temperature
Ozone
- Model: SCL10
- Range: Depending on sensor
- Compensation: Temperature
Peracetic acid
- Model: SCL11
- Range: Depending on sensor
- Compensation: Temperature
Tracers
- Model: ETRC
- Range: 0/9999.9 ppm
- Compensation: ?
Turbidity
- Model: ETORB2
- Range: 0/40.00 NTU, 0 / 400.0 NTU, 0 / 4000 NTU
- Compensation: Temperature
Dissolved Oxygen
- Model: EOLUM
- Range: 0 ? 20 mg/l
- Compensation: Temperature
Potentiostatic Probe
mA Input
|