pH sensor

pH sensor
WPH5105

Features

  • Industrial wastewater engineering
  • Process measurements, electroplating plants, paper industry, drinks industry
  • Wastewater containing oil
  • Suspensions, varnishes, media containing solid particles
  • Two-chamber system for when electrode poisons are present
  • Media containing fluorides (hydrofluoric acid) up to 1000 mg/l HF

The WPH5105 glass pH sensor is frequently used in the downstream engineering of biotechnology as well as the mining and smelting, papermaking, paper pulp, textile, petrochemical, and semiconductor electronic industries.The reference electrode and the glass or metal electrode are united in one shaft because they are intended to function as combined electrodes. Depending on the kind, a temperature probe may also be integrated.

Description
Technical Details
Sensors
Applications
Accessories
Documents
01

Industrial pH Monitoring: pH and pH Sensor Basics

The WPH5105 sensor has large sensitive areas and strong mechanical shock resistance, which can bewidely used in various chemical processes including microbialtechnology, pharmaceuticals, food and beverages, sugar manufacturing, chlor-alkali, mining and smelting, paper-making, paper pulp, textiles, petrochemical industry and semiconductor electronic industry as well as fields such as waste watertreatment

The principleof pH/ORPsensor measurement is electrochemical method and galvanic battery principle. The primary battery is a system whose function is to turn chemical energy into electrical energy. The voltage of this battery is called electromotive force (EMF) which ismade up of 2half-cells, of which one is called ameasuring cell whose potential is related to specific ionic activity;the otheris a reference half-cell, commonly known as a reference sensor, which is generally interlinked with the measuring solution and is connected to the measuring instrument. The potential difference produced by the galvanic interaction inside the sensor is transmitted to the pH controller, and the corresponding algorithm is transmitted to display the pH value.The pH sensor wire is not waterproof, so it shall be avoided to be contact with water as far as possible.

02

Application of pH Sensor

Industrial wastewater engineering. Process measurements, electroplating plants, paper industry, drinks industry. Wastewater containing oil. Suspensions, varnishes, media containing solid particles. Two-chamber system for when electrode poisons are present. Media containing fluorides (hydrofluoric acid) up to 1000 mg/l HF. Isolated power supply design, data stability, strong anti-interference ability

03

Uses of pH Sensor

Adopt a big area PTFE liquid junction with easy maintenance and an advanced solid dielectric from across the world. Long-range reference diffusion route significantly increases electrode life in challenging conditions. Because the electrode is constructed from high-quality low-noise wire, the signal output may be produced for up to 40 meters without interference. It also has excellent precision, quick reaction times, and strong repeatability.

pH Calibration

Enter the PH calibration screen, the first PH electrode intothe4.00PH standard solution, standing for a moment, to be stable after the show, press the ENT, then the PH electrode into the 6.86PH standard solution Set the PH electrode into the 9.18PH standard solution, put it aside for a moment, after the test is stable, press ENT, the display shows the success of the calibration, the whole process of PH calibration complete

Technical Specification

Product
Glass pH sensor
Model
WPH5105
Temperature Range
0-130 Deg.Cel.
Zero potential point
7 ± 0.5 pH
Slope
> 98%
Membrane resistance
<250ΜΩ
Practical response time
< 1 min
Salt bridge
Porous ceramic core/ porous Teflon
Thread Connection
Pg13.5
Temperature
0 ~ 100℃
Pressure resistance
Up to 2.5 Bar at 25 ℃
Temperature compensation
PT100 / PT1000
Cable Length
10 meter

Sensors

234-5312-!m

Features

Compact structure and easy installation
Isolated power supply design, data
stability, strong anti-interference ability
automatic/manual temperature
compensation
Automatically detect whether the
temperature probe is disconnected or
faulty, then switch to manual
temperature compensation
Support USA/NIST/custom pH calibration
solution, and user-defined ORP standard
solution
Communication: RS485 interface*1
(Modbus RTU protocol)

The principleof pH/ORPsensor measurement is electrochemical method and galvanic battery principle. The primary battery is a system whose function is to turn chemical energy into electrical energy. The voltage of this battery is called electromotive force (EMF) which ismade up of 2half-cells, of which one is called ameasuring cell whose potential is related to specific ionic activity; the other is a reference half-cell, commonly known as a reference sensor, which is generally interlinked with the measuring solution and is connected to the measuring instrument.The potential difference produced by the galvanic interaction inside the sensor is transmitted to the pH controller, and the corresponding algorithm is transmitted to display the pH value. WKP100 is a digital sensor with RS485 designed by our company for the aquiculture industry, which can be used to measure the change of pH/ORP value in an aqueous solution system within the range. The sensor with a standard RS485 MODBUS-RTU protocol interface, which can be connected with the host computer conducts remote communication Each sensor is manufactured with our patented Axial Ion Path® reference technology, proprietary Low-Noise & High Temp Signal Cable along with proprietary ruggedized, high temp and coat resistant glass formulations.

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

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

Solutions
automation
Project execution

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

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