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Test and Measurement Instruments C.C.

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“Tomorrow’s Instruments Today”  —  “For Good Measure” ®

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ORP Meters

ORP Meters

Part No:  ORP-203

ORP Meter, -1999mV to +1999mV, High Impedance, Pocket Size. For Plating Baths and Waste Water Monitoring. Excludes Electrode.

Lutron ORP203 Pocket Size ORP Meter

Lutron

Lutron ORP203 Pocket Size ORP Meter

Accessories

Part No:  ORP-14

ORP Electrode, with BNC Connector& 3 Meter Cable, 12,5 mm X 150mm, (High Accuracy) For use with ORP203, PH206, PH207,PH208, YK2001PH,YK2005WA

Lutron ORP14 ORP Electrode

Lutron

Lutron ORP14 ORP Electrode
Lutron ORP203 Pocket Size ORP MeterLutron ORP14 ORP Electrode

Part No:  ORP-213

ORP Meter : Range: -1,000mV - 1,000mV.        Professional ORP Electrode Included.                                 Data Hold, Reverse display Button

Lutron ORP-213 pen Type ORP Meter

Lutron

Lutron ORP-213 pen Type ORP Meter
Lutron ORP-213 pen Type ORP Meter

Notes on ORP Meters.

pH and oxidation reduction potential (ORP) Test Instruments, or water Testers are used to measure or monitor pH and oxidation-reduction potential. pH is the negative logarithm of the hydrogen ion activity in solution. The pH value of a substance is directly related to the ratio of the hydrogen ion [H+] and the hydroxyl ion [OH-] concentrations. It is one of the most common laboratory measurements because many chemical processes are dependent on pH. Oxidation reduction is a type of chemical reaction where electrons are transferred from one substance to another. The oxidized species loses electrons and the reduced species gains electrons. Both species must be present for the reaction to occur. These parmeters can be monitored with Test and Measurement Instruments like a Redox Meter.

 

pH and oxidation reduction potential (ORP) instruments can measure either pH or ORP or both. The most important specifications are the pH or ORP/redox range the Water Tester Meters can measure, and the accuracy with which it is measured. pH and oxidation reduction potential (ORP) instruments can accept either half-cell or combination electrodes. If half-cell electrodes are being used, the instruments will need to have a reference electrode input. These instruments can have some controller functionality such as set limits, regulator, P/PI/PID as well as control relay output. Another useful item to have is an Aquarium pH Meter .

Mounting options for Aquarium Digital pH meters and oxidation reduction potential (ORP) instruments are quite varied. They can be handheld meters, larger portable meters with wheels or handles for carrying, and modular for interfacing with sensors of different input ranges. Other styles commonly available are specially designed for lab or benchtop use and others for field or in-situ applications. Some of these meters are designed to be mounted in a panel, whereas pH Meter Aquarium could be portable and Hand-Held and are Digital Test Meters.

Displays for the pH and oxidation reduction potential (ORP) instruments can be analog meters with a ph elektrode,  pH Measuring instruments, a numeric or alphanumeric rapidest digital display or video, CRT or LCD. Another option is to have no local display at all and have the data gathered by another instrument. Likewise, the user controls can also be analog or digital or can be operated through a host computer. To simplify the instruments, preprogrammed devices without user controls are available. Electrical output options are the standard voltage and current outputs as well as an analog frequency or a change in state of switches or an alarm. Serial and parallel ports can help connect pH and oxidation reduction potential (ORP) instruments to a host computer. Another method to measure the pH is with pH Testing Kits but the temp tester ability is crucial.

Some features available for many pH and oxidation reduction potential (ORP) instruments and testing meters include battery power for greater portability and built-in signal processing filters. Built-in calibration ability and self-test functions are also available, as are event triggering and ratings for extreme environments. Hanna Meter Calibration Certificates can be obtained by us and WTW pH meters The Salt content is also important and can be measured with a Digital Salt Meter. We have regularly been requested circuit diagrams for pH Meter Circuits, but are unable to supply such.

 

See also notes on the page of pH Meters.

Test and Measurement Instruments C.C.T+M Instruments

Clearing Up the Mysteries of ORP.

By Robert W. Lowry and David Dickman
Reprinted from
Service Industry News

 

This is another in a continuing series of articles that Service Industry News is presenting on pool and spa sanitation, water balance and test methods. Although it is firmly based on sound, scientific study, it is not written as a scientific paper, but rather as a practical, understandable guide for pool and spa service technicians.

Let's get something straight from the start - ORP is not a word; it's a set of initials, like IBM or IRS or NFL.

ORP stands for Oxidation-Reduction Potential. In practical terms, it is a measurement to oxidize contaminants. It's as simple as that.

Well, then, you might ask, if ORP is so simple that it can be reduced to an 11-word definition, why are you devoting an entire article to it, and why should it be important to me at all?

The answer to that is that right now, ORP is the only practical method we have to electronically monitor sanitizer effectiveness. Every true system of automatic chemical control depends on ORP to work.

If you've been in the pool and spa service industry for any length of time, you already know the routine involved in maintaining proper water chemistry. First you test the water, then you adjust it to recommended chemical levels.

That sounds simple, too. Of course, you could make automobile maintenance sound just as simple: Simply measure the car's performance; then adjust everything necessary to make it perform the way it should.

In the real world, we all know that chemical maintenance of pool and spa water is a fairly complicated balancing act. You must maintain sanitizer residual at a level sufficient to protect swimmers and bathers from the invasion of unwanted - and possibly harmful - plant and animal life. You must maintain the pH of the water at a level that assures the sanitizer works effectively and at the same time protects the pool shell and equipment from corrosion or scaling and the bathers from discomfort or irritation.

 

 

Along the way, you must make sure that all the other ingredients in this chemical mix - total alkalinity, water hardness, temperature, and total dissolved solids (TDS), to name four big ones - are also in balance or not out of the recommended range. These can be measured with a Portable Meter Testers.

But of all the factors involved in chemical maintenance, the "frontline" troops are two: sanitizer residual and pH. By far, these are the chemical tests performed most often. By far, these are things that we are most concerned with.

ORP and pH sensors allow us to electronically monitor and control sanitizer residual and pH automatically. In a light usage residential pool, this might not be a primary concern. But in a public or semi-public pool or spa - one that is under constant observation by local health authorities - some form of dependable, accurate, automatic chemical control may well be a necessity.

"But," you might say, "I'm already in control. I've got an erosion feeder hooked up to the suction line, or a floater in the pool, or I've left chemicals behind with the owner to add between service calls. There should be plenty of sanitizer in the water by the time I return for my next call."

The key words are "dependable" and "accurate." The methods described above may get some sanitizer in the water, but will it be enough? Will it be too much? Will it get done at all?

An erosion feeder, hooked in-line with the circulation system, will dispense some chemicals whenever the system is running - whether they are needed or not. A floater will dispense some chemicals constantly - whether they are needed or not. Depending on a pool owner to take care of things between calls is - well - chancy at best and downright dangerous at worst.

Besides, erosion feeders and floaters only deal with sanitizer residual. There's still nothing there to control pH. pH, as we all know, is the thing that makes sanitizer work.

If you want true chemical control, you've got to have some method of monitoring both the sanitizer residual and the pH and using that information to chemically treat the water. That's where ORP enters the picture.

So What Exactly Is ORP?

As we stated earlier, ORP stands for Oxidation-Reduction Potential. In some parts of the world, it is also known as Redox Potential. Sometimes, you'll see the words "oxidation" and "reduction" spelled without the hyphen connecting them. We chose the hyphen because the two chemical reactions are really "joined at the hip" - one cannot occur without the other also occurring.

When chemists first used the term in the late 18th Century, the word "oxidation" meant, "to combine with oxygen." Back then, it was a pretty radical concept. Until about 200 years ago, folks were really confused about the nature of matter. It took some pretty brave chemists to prove, for example, that fire did not involve the release of some unknown, mysterious substance, but rather occurred when oxygen combined rapidly with the stuff being burned.

We can see examples of oxidation all the time in our daily lives. They occur at different speeds. When we see a piece of iron rusting, or a slice of apple turning brown, we are looking at examples of relatively slow oxidation. When we look at a fire, we are witnessing an example of rapid oxidation. We now know that oxidation involves an exchange of electrons between two atoms. The atom that loses an electron in the process is said to be "oxidized." The one that gains an electron is said to be "reduced." In picking up that extra electron, it loses the electrical energy that makes it "hungry" for more electrons.

We also know that matter can be changed, but not destroyed. You can alter its structure, and can increase or decrease the amount of energy it contains - but you can't eliminate the basis building blocks that make things what they are.

Chemicals like chlorine, bromine, and ozone are all oxidizers. It is their ability to oxidize - to "steal" electrons from other substances - that makes them good water sanitizers, because in altering the chemical makeup of unwanted plants and animals, they kill them. Then they "burn up" the remains, leaving a few harmless chemicals as the by-product.

Of course, in the process of oxidizing, all of these oxidizers are reduced - so they lose their ability to further oxidize things. They may combine with other substances in the water, or their electrical charge may simply be "used up." To make sure that the chemical process continues to the very end, you must have a high enough concentration of oxidizer in the water to do the whole job.

But how much is "enough?" That's where the term potential comes into play.

"Potential" is a word that refers to ability rather than action. We hear it all the time in sports. ("That rookie has a lot of potential - he hasn't done anything yet, but we know that he has the ability to produce.)

Potential energy is energy that is stored and ready to be put to work. It's not actually working, but we know that the energy is there if and when we need it. Another word for potential might be pressure. Blow up a balloon, and there is air pressure inside. As long as we keep the end tightly closed, the pressure remains as potential energy. Release the end, and the air inside rushes out, changing from potential (possible) energy to kinetic (in motion) energy.

In electrical terms, potential energy is measured in volts. Actual energy (current flow) is measured in amps. When you put a voltmeter across the leads of a battery, the reading you get is the difference in electrical pressure - the potential - between the two poles. This pressure represents the excess electrons present at one pole of the battery (caused, incidentally, by a chemical reaction within the battery) ready to flow to the opposite pole.

When we use the term potential in describing ORP, we are actually talking about electrical potential or voltage. We are reading the very tiny voltage generated when a metal is placed in water in the presence of oxidizing and reducing agents. These voltages give us an indication of the ability of the oxidizers in the water to keep it free from contaminants.

How Do You Measure ORP?

An ORP probe is really a millivolt meter, measuring the voltage across a circuit formed by a reference electrode constructed of silver wire (in effect, the negative pole of the circuit), and a measuring electrode constructed of a platinum band (the positive pole), with the pool water in between.

The reference electrode, usually made of silver, is surrounded by salt (electrolyte) solution that produces another tiny voltage. But the voltage produced by the reference electrode is constant and stable, so it forms a reference against which the voltage generated by the platinum measuring electrode and the oxidizers in the water may be compared.

The difference in voltage between the two electrodes is what is actually measured by the meter. Modern ORP electrodes are almost always combination electrodes, that is both electrodes are housed in one body - so it appears that it is just one "probe."

Incidentally, the meter circuitry itself must have very high impedance (resistance) in order to measure the very tiny voltages generated by the circuit.

What Does an ORP Meter Tell US?

Now that you know the basis of how an ORP meter works, let's take a look at how changes in the oxidizer level in the water will effect the measurement.

For practical purposes, oxidizing agents are the "good guys" in the water sanitation picture, reducing agents are contaminants and therefore are the "bad guys."

If we had a body of water in which the concentration of oxidizers (or oxidants as chemists usually say) exactly equaled the concentration of reducers (reductants), then the amount of potential generated at the measuring electrode would be exactly zero. As you might guess, the water would be in pretty sad shape, because if any additional contaminants were introduced into the water, there would be no oxidizer to handle it.

As we add oxidizer to the water, it "steals" electrons from the surface of the platinum measuring electrode. To make things a little more confusing, we need to point out that electrons are negatively charged particles. When we remove these negatively charged particles from this electrode, the electrode becomes more and more positively charged. As we continue to add oxidizer to the water, the electrode generates a higher and higher positive voltage.

How pH Affects ORP

Service professionals are already well aware that sanitizer effectiveness can vary rather significantly with changes in pH - particularly in regards to chlorine, which is by far the most commonly used chemical for water sanitation.

You will recall from previous articles about chlorine that the killing form of chlorine is hypochlorous acid (chemical formula HOCI), which, not coincidentally, is a powerful oxidizer. You will also remember that the percentage of hypochlorous acid is present in pool and spa water depends directly on the pH.

For example, at a pH of 6.0, 96.5 percent of the Free Available Chlorine in the water is in the form of HOCI, while at a pH of 8.5, only 10 percent is in this active killing form.

Testing the water with OTO can tell you the concentration of chlorine, but it cannot tell you how much of the chlorine is combined into organic compounds or how much is in the form of hypochlorous acid. Changing the pH of the water will not affect the result of an OTO test.

A DPD test can tell you how much of the chlorine is combined and how much is free and available, but it cannot tell you what percentage is in the form of hypochlorous acid. To determine this, you must take a pH test and calculate the results. Altering the pH will not effect the results of a DPD test.

Although ORP does not specifically tell you the chlorine concentration in parts per million, it does indicate the effectiveness of the chlorine as an oxidizer. An ORP reading will vary as pH fluctuates. As the pH goes up, the millivolt reading on an ORP meter will go down, indicating that the sanitizer is not as effective. Bringing the pH down or adding more sanitizer will raise the millivolt reading.

That is why most ORP instruments also incorporate an electronic pH meter - which measures the difference in electrical potential between the pool water and a sample of known pH that is contained in the probe in a small glass bulb.

Setting the Standard

Once the instruments and methods for measuring ORP were developed in the 1960's, researchers began working toward setting standards under which ORP measurements could be used as an accurate gauge of water quality.

In 1972, the World Health Organization adopted an ORP standard for drinking water disinfection of 650 millivolts. That is, the WHO stated that when the oxidation-reduction potential in a body of water measures 650/1000 (about 2/3) of a volt, the sanitizer in the water is active enough to destroy harmful organisms almost instantaneously.

In Germany, which has about the strictest water quality standards in the world, an ORP level of 750 millivolts has been established as the minimum standard for public pools (1982) and spas (1984).

In its 1988 standards for commercial pools and spas, the National Spa & Pool Institute stated that ORP can be used as a "supplemental measurement of proper sanitizer activity" when chlorine or bromine are used as primary disinfectants. The recommended minimum reading under the NSPI standards is 650 millivolts, with no ideal and no maximum.

The NSPI also stated that "the use of ORP testing does not eliminate or supersede the need for testing the sanitizer level with standard kits."

The above statement is not necessarily a matter of the NSPI being cautious about setting chemical standards. The fact is that most health codes still specify that a measurable free available chlorine (FAC) residual - usually 1.0 ppm present in the water of public pools and spas, as measured with a DPD test kit.

Chemical Automation

ORP technology has received widespread application in this country as the basis of automated chemical control equipment. The reasoning is clear: Only an ORP sensor can deliver the kind of feedback needed to control feeders for sanitizer and pH adjusting chemicals.

Unlike constant feed or timer controlled devices, ORP based chemical controllers can dispense pool chemicals as they are needed. Combined with a pH sensor, these controllers can be used to activate liquid feed pumps, gas chlorinators, and erosion type feeders for dry chemicals. They also can monitor pool water chemistry and record the reading on a chart.

Clearly, this type of chemical automation can result in significant savings for operators of large, commercial pool and spa installations, because chemicals are only dispensed when they are needed.

Further, electronic control assures that sanitizer and pH adjusting chemicals will be dispensed precisely as they are needed, eliminating the peaks and valleys in sanitizer residual and pH that often occur in pools and spas as bather load fluctuates.

Control equipment is generally installed with the ORP and pH probes placed in the pressure line, or water from the pressure line may be diverted to the probes. Probes are always installed prior to the point of chemical injection. This way, water passing over the sensors is representative of water in the pool, and the sensors are always ready to produce an accurate voltage.

When used with liquid chemical feed pumps, the signals from the pH and ORP probes determine when the controller activates chemical pumps. The pumps are turned on and off to achieve the set points (desired control levels).

When using a gas chlorinator, the controller activates a solenoid valve, which permits gas to be injected through a bypass line and into the recirculation line. A booster pump in the bypass line is often used to assure adequate dispersion of gas.

Erosion feeders (dispensing trichlor or calcium hypochlorite tablets or bromine sticks or tablets) can also be controlled by an ORP controller. The feeder is placed in a bypass line, which is opened or closed through the use of a solenoid valve.

In addition, ORP devices can be used to measure sanitizer effectiveness and to control ozone generators, chlorine generators, and ionizers (in combination with chlorine). 

Another Fresh Take on ORP.

ORP, or Redox Potential, is a measurement of water’s ability to oxidize contaminants. The higher the ORP, the greater the number of oxidizing agents.

Checking ORP is a simple method to monitor the effectiveness of a sanitizer or the quantity of anti-oxidants in a liquid. In generalized terms for humans, a higher ORP is better for outside of the body, while a lower ORP is preferred for consumption due to the high anti-oxidant value.

There are numerous applications for ORP, each with its own specific optimum value. For example, the minimum ORP for pool & spa disinfection (set by the World Health Organization) is 650 mV. Though the WHO has not set a standard for ORP in drinking water, anything below -550mV is considered too strong and not recommended for drinking.

In Conclusion...

We hope that this introductory story has helped remove some of the mystery behind oxidation-reduction potential of water. Those of you who service commercial pools will surely be selling more ORP based chemical controllers as time goes on, and being familiar with their theory of operation can only make you more valuable to your customers. Although so called "chemical automation" may sound like a threat to the livelihood of a pool and spa service professional, we don't think you really have anything to worry about. Even a pool equipped with every labour saving device known to man still needs someone to take care of the day to day maintenance that the pool owner doesn't want to do himself.

 

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Part No:WA-2017SD

pH Multifunction Meter with ORP, Dissolved Oxygen, Conductivity, TDS and Salt Meter. Only one probe included: CD/ TDS/ Salt, Others probes are Optional.

Lutron WA-2017SD Combo pH, ORP,DO,TDS,Salt Meter

Lutron

Lutron WA-2017SD Combo pH, ORP,DO,TDS,Salt Meter
Lutron WA-2017SD Combo pH, ORP,DO,TDS,Salt MeterLutron WA-2017SD Combo pH, ORP,DO,TDS,Salt MeterLutron WA-2017SD Combo pH, ORP,DO,TDS,Salt Meter

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Part No:  WAC-2019SD       

pH / ORP, DO, CD, TDS, Salt Meter, SD Card Real Time Datalogger Professional All in One: Records to Excel. No software needed. Needs Some Optional Electrodes.

Lutron WAC-2019SD pH/ORP, CD, DO, TDS, Salt datalogging meter

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Lutron WAC-2019SD pH/ORP, CD, DO, TDS, Salt datalogging meter
Lutron WAC-2019SD pH/ORP, CD, DO, TDS, Salt datalogging meter