summary

Through microorganisms (with electrochemical activity) in the sensor, cytochrome generates charges and accumulates on the electrode surface. Due to the change in charges, an electric current is generated between the positive and negative electrodes of the sensor. When toxic substances flow in, the activity of microorganisms is inhibited, the charge generated by cytochromes decreases, and the sensor current changes. Based on the decrease in the peak current, it is determined whether toxic substances have flowed in.

Instrument characteristics

• The sensor has a long service life and can reach10Years and above

• Real time online, continuous monitoring

• Strong anti-interference ability, suitable for various types of water quality

• Can perceive organic overload

• There are many types of responses to toxic substances, which can reach5000Multiple, highly sensitive, and responsive

• The main interface displays the working status of the system clearly and intuitively, and analyzes the process

• Daily management is simple, only requiring regular replacement of nutrient solution and simple pipeline cleaning

applicationarea

• National Water Quality Monitoring Station (Rivers, Lakes, Reservoirs, Water Source Areas)

• Water plant inlet

• Monitoring the inflow and outflow of industrial wastewater treatment plants

• Monitoring toxic wastewater discharge enterprises

Technical Parameter

• Measurement principle: electrochemically active microbial (fuel cell) method

• Measurement Sensor: Electrochemical Microorganisms

• Measurement range: Toxicity level（-100%～0）Organic compounds（0～100%）

• Measurement cycle:10～60Minutes (adjustable)

• Measurement accuracy:ppmlevel

• Repeatability:10%

• Measurement method: Continuous online measurement method

• Environmental temperature:0～45℃

• Relative humidity:≤95%

• Alarm method: warning, alarm

• Output signal:4-20mA，RS232, TCP/IP

• Data storage:80GHard disk

• Power supply:AC110/220V，50/62Hz

• Operating System:Windows