EC/TDS Sensor
WTE1007_HT Series
Features
- Automatic temperature compensation
- Temperature up to 120 Deg.Cel.
- Low Maintenance - Reduced cleaning requirements
- Range of cell constants
With the ability to detect conductivity, EC, and TDS, the WTE1007 performs a number of tasks simultaneously. Its cost-effective integrated design supports boiler water, RO water treatment, sewage treatment, the pharmaceutical industry, and other liquid measurement and monitoring.
01
EC/TDS Sensor For The Process Industry
The ability of a medium to oxidise or reduce another medium is measured by its “oxidaon-reducon potenal,” or EC . When an oxidizer takes an electron from another molecule, it is said to be oxidising, and when a reducer gives an electron to another molecule, it is said to be reducing. A single mV value, which can be positive or negative, can be monitored by an EC sensor to identify whether oxidaon or reduction is taking place. The mV value is passive when a medium is oxidising. The mV reading will be negave when it is displaying reducon. Addionally, an EC measurement known as “Redox” is frequently used. Reduction and oxidation are combined to form the word redox. In a protentional is formed, the electrode will continue to take or release electrons. Aer then, it produces millivolts. The reference electrode in an EC sensor is commonly constructed of Ag/AgCl and submerged in a KCl reference substance, making it very similar to a pH reference electrode. The electrode is able to exchange electrons with both oxidizers and reducers. Conductivity sensors are essential tools used to measure the ability of a solution to conduct electrical current.
02
Applications of EC/TDS Sensor
Water Quality Monitoring: Ensuring safety in drinking water and efficiency in wastewater treatment. Industrial Processes: Monitoring chemical concentrations in manufacturing, pharmaceuticals, and food production. Agriculture: Analyzing soil salinity and managing nutrient levels in hydroponics. Power Generation: Preventing corrosion in boilers and optimizing cooling tower performance. Marine Applications: Studying ocean salinity and maintaining aquaculture environments.
03
Uses of EC/TDS Sensor
Monitor water quality in drinking water, wastewater, and environmental systems. Control chemical concentrations in industrial, pharmaceutical, and food processes. Analyze soil and nutrient levels in agriculture and hydroponics. Prevent corrosion in power plants by monitoring boiler and cooling water. Measure salinity in oceans and aquaculture. Conduct laboratory experiments on ionic concentrations. Detect leaks in heat exchangers and storage tanks.Ensure cleanliness in electronics manufacturing.
EC/TDS Sensor Calibration
Rinse the Sensor: Use distilled water to clean the sensor before calibration.
Immerse in Calibration Solution: Place the sensor in a standard conductivity solution with a known value (e.g., 1413 µS/cm).
Adjust the Meter: If the meter reading doesn’t match the solution’s conductivity, adjust the meter or follow the device-specific calibration procedure.
Rinse and Repeat: Rinse the sensor, then repeat the process with another standard solution if multiple calibration points are required.
Confirm Calibration: Verify the sensor’s accuracy by checking it in a fresh calibration solution.
Technical Specification
Product
TDS sensor, EC sensor, Resistivity sensor
Model
WTE1007_HT Series
Measure range
0.01 electrode: 0.01~20us/cm
0.1 electrode: 0.1~200us/cm
1.0 electrode: 1~2000us/cm
Accuracy
±1%FS
Thread
G3/4
Pressure resistance
0.8MPa
Material
stainless steel (SS304/ SS316)
Temp compensation
NTC10K (PT1000, PT100, NTC2.252K optional)
Temperature range
0-60℃
Temperature accuracy
±3℃
Ingress protection
IP68
Temperaure Compentation range
0-100℃, 0-120℃
Cable
05 Meter , 10 Meter
Sensors
Features
Measurement accuracy: 1%
Temperature resistance range: 0~50
steel electrode); 0~50 (4-electrode)
Temperature accuracy: 1 Deg.Cel
Temperature compensation: NTC10K
(optional Pt100,PT1000, NTC2.252K)
Pressure range: 5bar(constant 0.01 / 0.1)
7bar(constant1.0)( SS electrode); 5bar (4-
electrode)
Housing material: SS 316 or SS 304
steel electrode); PBT (4-electrode)
Process connection: G3/4 threaded
installation steel electrode); NPT3/4
threaded installation(4-electrode)
Ingress protection: Ip68
The Model EEC110 sensor was designed for high pressure, high temperature conductivity measurements, and is an ideal choice for boiler control applications. Blowdown control, condensate monitoring, leak detection on heat exchangers, and steam purity measurements are just a few of the many applications in which this rugged and reliable sensor can be used. Weed materials of construction are 316 stainless steel, PEEK, and EPDM Orting’s. All possible leak paths through the sensor are double sealed with orienting’s for maximum on-stream reliability. Hot water is a severe environment for any elastomer, and the front seals bear the brunt of chemical a attach, allowing the back seals to remain relatively unaffected. The result is that sensor Life The device is designed for use on site. A rugged housing protects the electronics and the electrical connections from corrosive environmental conditions . As an alternative, the device can also be installed in a control panel.
Applications
Heating and Cooling Reactors
Disinfecting and Sterilizing
ensure the elimination of harmful microorganisms.
Waste Heat Recovery Boilers
Dyeing WasteWater
Exhaust Gas Treatment
content.
Fertigation System
Accessories
Documents
Wellkonix global commitment to the Chemical Industry
Wellkonix is the world leader in automation solutions to the chemical industry. As a global player, we have strong local support in any region that you run your business
Providing solutions of every kind, at all times in chemical industries
Wellkonix engineers were all very affected person and cooperative during the early engineering and start-up phases. We labored as one team thru to the completion of this plant project