EC / TDS Transmitter

EC / TDS Transmitter
WEC1200C

Features

  • Direct change over to
  • Conducvity (µScm )
  • TDS measurement (ppm )
  • Automac temperature compensaon
  • 4-20 mA Isolated Output

WEC1200C Conductivity/Hardness/Resistivity Online analyzer, an intelligent online chemical analyzer, is frequently used in the thermal power, chemical fertilizer, environmental protection, metallurgy, pharmacy, biochemistry, food, and water industries for continuous monitoring and measurement of EC value, TDS value, or ER value, and temperature in the solution.

Description
Technical Details
Sensors
Applications
Accessories
Documents
01

EC / TDS Transmitter with Controller

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 posive or negave, can be monitored by an EC sensor to idenfy whether oxidaon or reducon is taking place. The mV value is posive 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. Reducon and oxidaon are combined to form the word redox. Unl a potenal is formed, the electrode will connue 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, which directly relates to the concentration of ionic species in the solution.Chemical Analysis: Measuring ionic concentration in various experimental setups. Biotechnology: Monitoring fermentation processes and other biological reactions.Clean the electrode with deionized water to remove.

02

Applications of EC / TDS Transmitter

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 Transmitter

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 Transmitter Calibration

Calibrating a conductivity transmitter involves several key steps to ensure accurate measurements. First, gather the necessary equipment, including the transmitter, standard conductivity solutions (such as 84 µS/cm and 1413 µS/cm), calibration beakers, a thermometer, and deionized water for rinsing. Begin by turning on the transmitter and allowing it to warm up, ensuring that any temperature compensation settings are correctly adjusted. Clean the electrode with deionized water to remove any contaminants, and immerse it in the first standard solution. Once the reading stabilizes, adjust the transmitter to match the known conductivity value of the solution. After rinsing the electrode, repeat the process with additional standard solutions if multi-point calibration is needed. Verify the accuracy of the calibration by rechecking the readings against the standards.

Technical Specification

Product
TDS meter, EC controller
Model
WEC1200C
Measurement range
0.01 electrode: 0-20.00us/cm
0.1 electrode: 0.2~200.0us/cm
1.0 electrode: 2-2000us/cm
10.0 electrode: 0.02-20ms/cm
Basic Error Of Electronic Unit
EC/TES/ER: ±1%FS NTC10K: ±0.3℃ PT1000: ±0.3℃
Measuring medium
Liquid
Temp compensation
NTC10K/PT1000 Manual/ Auto temperature compensation
Temperature Range
-10-130℃
Accuracy
2%
Communication
RS485, Modbus-RTU
Transmission signals
4-20 mA
Relative humidity
(10~85)%RH
Operation temperature
0~60℃
Power supply
AC: 220VAC±10%, 50Hz/60Hz
DC: 24VDC±20%
Relay output
2
Operation condition
Temperature: 15~65℃ Relative humidity: (5~95)%RH
Display Size
2.8 inch
Size
96*96mm

Sensors

2020090414004273863-!j

Features

Direct change over to

Conducvity (µScm )
TDS measurement (ppm )
Automac temperature compensaon
4-20 mA Isolated Output
Large LCD display with background lighng
IP54 water resistant and corrosion proof
enclosure
Using the setup program: user-friendly
programming
RS485 communicaon
Relay output
Affordable
Ease of operaon
Low maintenance
Ensures product quality

A tool for determining a solution’s electrical conductivity is a conductivity sensor. It is often utilized in many different sectors, including water treatment, food & beverage, and medicines. The sensor measures a solution’s capacity to carry an electrical current. To do this, submerge two electrodes in the fluid and briefly apply voltage between them.

The concentration of dissolved ions in a solution is directly correlated with its conductivity. As a result, the sensor may be used to measure the concentration of several ions, including calcium, sodium, and chloride. Numerous variables, like the solution’s purity and temperature, affect the sensor’s accuracy.

Applications

Heating and Cooling Reactors

Heating and cooling reactors are crucial components in various industrial processes, particularly in chemical, pharmaceutical, and food industries. These reactors are used for carrying out reactions under controlled temperature conditions.

Disinfecting and
Sterilizing

Disinfection and sterilization are critical processes across various industries, particularly in healthcare, pharmaceuticals, food processing, and biotechnology. These applications ensure the elimination of harmful microorganisms.

Waste Heat Recovery Boilers

Waste heat recovery boilers are essential components in industries where significant amounts of heat are generated during various processes but are typically wasted. These boilers capture this waste heat and convert it into useful energy, thereby improving.

Dyeing WasteWater

Treatment of highly coloured wastewater containing a variety of dyes in varying quantities is a major component of wastewater treatment in the textile and dye industry.The flow of dye into the interior of the fibre as well as the interaction between a dye .

Exhaust Gas Treatment

Exhaust gas treatment systems (EGTS), also referred to as SOX scrubbers, are an alternative to these solutions that clean the exhaust gas in order to reduce SOX emissions to a level that is equivalent to the acceptable fuel sulphur content.

Fertigation System

Fertigation is the process of injecting fertilisers into an irrigation system for the purpose of amending the soil, the water, and other water-soluble goods. Adding chemicals to an irrigation system is known as chemigation, which is connected to fertigation.

Accessories

Documents

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