Electrical Conductivity Meter for Water - ConductiSense
Why is conductivity measurement important in water treatment?
The conductivity of water is extremely important when treating drinking water or industrial water because it gives an indication of the amount of dissolved material within that water.
Process Instruments supplies a range of high-quality low-cost conductivity sensors to cover the full range from deionized water all the way up to highly saturated brines.
Coupled with Pi’s controllers these sensors provide excellent and cost-effective process control in all industries and applications.
Conductivity is often seen as a minor measurement i.e not as important as some other measurements. ConductiSense from Pi is a stand-alone controller for the dedicated measurement of conductivity online and also allows for the connection of conductivity sensors to any other Pi analyzer. When coupled with the CRONOS® and CRIUS®4.0 controllers the conductivity sensors from Pi give you everything that you need and nothing that you don’t.
- Resists coating, corrosion and fouling
- Durable Noryl (plastic) construction (Toroidal sensor)
- Easy installation
- Low purchase cost
- Custom tee for in-line mounting
Graphite – Our light industrial standard conductivity sensor uses a graphite sensor. The epoxy body construction provides a rugged and dependable sensor for potable water and clean water. Mount them in-line, in a pipe “T” fitting, or submerse them into a tank.
Toroidal – The toroidal inductive conductivity sensors features a wide measurement range and dependable toroidal technology over the range 0-2,000,000 μS/cm. Noryl is the standard construction material and has a wide solvent tolerance and temperature stability to 105°C. All models can be submersed by utilizing the 3/4” NPT threads on the sensor or installed in 2” NPT tees for in-line deployment. They also have in-built temperature sensors within the conductivity sensor for automatic temperature compensation.
Stainless Steel – The stainless steel conductivity sensors utilize the same measurement technology as the graphite sensors giving the same reliability of measurement but in a more robust, and resistant, body. This added robustness over the standard graphite probe, means that they can be used in high pressure and/or high temperature environments, for example boiler or CIP applications.
Document | Type | Size |
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ConductiSense | Brochure | 656kB |
Conductivity Background and Measurement | Article | 947kB |
FAQs
What do conductivity sensors measure?
Conductivity sensors measure the ability of solutions to conduct electrical current. This is related to the ionic species that are present in that solution and can be defined as ‘the conductance in a given volume’.
What is a conductivity meter used for?
A Conductivity meter gives accurate measurements of the conductivity in solutions. Conductivity creates the ability of materials (solutions, gasses, or metals) to pass through an electrical current. While every material can pass through electrical currents, the level of such ability can vary.
What is the relationship between conductivity and conductance?
Although they are similar terms which are related, conductance is more general in that it refers to a solutions ability to conduct electric current, whereas conductivity refers to conductance in a given volume. This is evidenced in the units of conductivity, which is usually measured in μS/cm or μΩ/cm.
If the temperature varies, what will happen?
All three models of ConductiSense have integrated temperature compensation as standard, so although changes in temperature do affect conductivity readings this is accounted for in your Pi hardware and firmware. ConductiSense will remain accurate despite temperature changes.
Can conductivity only be measured in aqueous solutions?
Conductivity measurement is not restricted to aqueous solutions. The solution being measured may affect the choice of sensor (organic compounds such as petroleum products have very low conductivities, for example), and safety can also be a concern, such as when measuring flammable liquids.
What is a K value and why are there different ones?
In practical terms, the cell constant (K value) refers to the distance between the electrodes within the sensor, with a lower number meaning a smaller distance. It is calculated by dividing the area (a) normal to the current flow squared by the distance (d) between the electrodes. Low K value sensors are used in lower conductivity solutions, where the smaller distance raises the conductance allowing for easier measurement. The opposite is true in high conductivity solutions, where a larger K value may be more suitable. Pi sensors are available in K values of 0.1, 1 and 10.
What is the relationship between conductivity and TDS?
The variation of conductivity in water is due to the substances dissolved in it, which are referred to as Total Dissolved Solids (TDS). TDS is measured in terms of mass and volume (g/l, for example), but multipliers can be used to convert this into conductivity if the ionic species are known. Sodium chloride, for example, uses a standard multiplier of 0.65.
What is conductivity meter basic principle?
Conductivity is the ability of a material to conduct an electric current. How is this measured? Two plates are placed in a sample, then a potential is applied across the plates (usually a sine wave voltage) and then the current that passes through the sample is then measured.
Why do we test conductivity in water?
The testing of conductivity in water is very important because it tells us how much dissolved substances, chemicals, and minerals are present in the water. High amounts of these impurities will lead to a higher conductivity.
There is a difference between my dissolved solids and those in the calibration solution. How do I calibrate my meter?
Creating a standard solution yourself, which matches your sample stream more accurately, is a way to get a more accurate calibration. A proportional mixture of salts based on your sample stream can be added to distilled water, where 1mg of your salt mixture 1l of distilled water will yield a 1ppm TDS solution. Try to produce a standard that is close to your expected sample in concentration, or If you expect a great deal of variation make a solution that is in the upper third of the sensor range.
How are micromhos (µ℧/cm) and microsiemens (μS/cm) related?
Micromhos (µ℧/cm) and microsiemens (μS/cm) are the same. The former is more common in the U.S. and the latter is more common in Europe, but the two terms can be used interchangeably.
How do I keep my conductivity electrode clean?
Agitate your sensor in a mild detergent or dilute nitric acid (0.1M) solution for a few minutes and then rinse with clean water. This should be sufficient, but dilute solutions of sulfuric or hydrochloric acid can also be used to remove any fouling if required.
How should my conductivity electrode be stored?
The sensor can be stored wet or dry, but rinse with clean tap water when removing the sensor from the sample stream. Please note that if storing the sensor dry, the electrodes will need to be reconditioned before being used again.
How should I condition/recondition my probe?
Ensure that power is running to the sensor, and give it a short (30-60 mins) soak in a standard solution (tap water will also suffice) before use.
What is the relationship between conductivity and salinity?
Salinity is a measure of the amount of salts in water, and so it is related to conductivity. A correction factor can be used to convert between these units, from microsiemens to the ppm of a specific salt.
Can I use other conductivity probes with Pi analyzers?
It is often possible to integrate other sensors into Pi hardware. Please contact a member of our team, and we will be happy to discuss this with you.
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