pH Measuring Instruments, Working Principle, Theory and Determinating Methods | pH Meter | Principle, Calibration, and Working

A measuring technique used to find the acidic and basic condition of a substance, it mostly indicates the activeness of the substance to react, we can know how stable a compound is, to determine the pH of a substance there are easy methods available along with some portable instrument which will be used to know the pH of the substance at an instant. The term pH is widely used in the field of chemistry, biochemical, and all organic and inorganic concepts. The element hydrogen which has one electron is highly active it tends to react with other elements to get a paired electron.
when data is given for a compound we can calculate theoretical values of pH, pOH, [H+], and [OH-].
By using the relations like  =
                                             pH + pOH = 14
                                             Anti log of (-pH) = [H+]
                                             Anti log of (-pOH) = [OH-]
and by definition
pH is defined as the negative logarithm of  H+ ion and pOH  is defined as the -ve log of OH- ion
                                            pH = – log [H+]
                                            pOH = – log [OH-]
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Let’s see an example: Calculate the [H+], [OH-], pH, and pOH of 0.001 M HCl solution

we have one H in HCl so the [H+] = molarity of the HCl solution = 0.001 = [H+]

pH = – log([H+]) = -log(0.001) = 3

we have pOH = 14 – pH = 14 – 3 = 11

and now
[OH-] = 10(-[pOH]) = 10^(-11) = 1X10-11

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General:

The pH value of a material is tested by two methods which are (1 ) the Electrometrical method and (2) the Colorimetrical method. By using the electrometric method enough accurate values can be determined but requires special apparatus. The colorimetric method is simple and requires less expensive apparatus, and is sufficiently accurate for general work. It is however subjected to interference by color, turbidity, high saline content, free chlorine, and various oxidants and reductants. In case of dispute, the electrometric method shall be considered the referee method.

pH scale:

Neutral pH: when pure water dissociates into positive hydrogen(H+) ions and negative Hydroxyl(OH-) ions in equimolar proportion then neutrality is said to exist and water is said to be neutral. It is found that in pure water at 22oC, the concentration of H+ and OH- ions is equal to 10-7, hence pH value is equal to –log (10-7)=7. Hence, pure water is neither acidic nor basic. The acidity of the solution increases as the pH value falls below 7 with an unlimited value of 0 while the alkalinity of the solution increases as the pH value rises above 7 with an ultimate value of 14. Thus pH scale ranges from 0 to 14. An acid solution of unit strength has a pH value of 0 and a pH value of 14 means a base solution of unit strength. Note that pH measures only the concentration of H+ ions actually dissociated in a solution and not the total acidity or alkalinity. Due to this reason, the pH value changes with the temperature of the liquid. As the water temperature increases the dissociation into H+ and OH- ions increases which results in a decrease in pH value.

Electrometric method: The determination may be made with any pH meter provided with a glass electrode, using instructions from the manufacturer. Express the result to the nearest 0.1 units. The electronic pH measurement system consists of

  1.  Measuring electrode
  2.  Reference electrode
  3.  Potential measuring system

Measuring electrode: A glass electrode is made of a thin glass membrane of special composition that could develop potential proportional to the difference in H+ ion concentration of liquid on either side of the membrane. The glass envelope has a pH-sensitive glass membrane at the bottom that contains a constant pH buffer solution. This electrode is dipped in the measuring solution so that potential is developed at the platinum electrode which is proportional to the pH of the measuring solution. This potential is measured by completing the circuit with the reference electrode.

pH measuring
glass electrode

Reference electrode: calomel electrode can be used as a reference electrode which has a glass envelope that contains a glass tube that contains calomel (mercury and mercurous chloride) solution along with platinum wire dipped in it. This tube is surrounded by a KCl solution that slowly diffuses or leaks into process liquid through liquids junction provided by asbestos fiber. Due to this, the reference electrode develops constant potential.

Reference electrode

Potential measuring system: the measuring and the reference electrode together form an electrolytic cell whose output equals the sum of the voltage produced by the two electrodes. This net voltage is applied to a null balance mill volt potentiometer in which the slide wire can be calibrated in terms of the pH of the measuring liquid. Since the electrode operation depends upon the electrical resistivity of glass, a change in temperature may cause an error in pH reading. To compensate for changes in the temperature of the measuring solution a temperature compensation resistance is included in the circuit which is immersed in the solution. The resistance of this resistor changes with temperature.

Potential measuring system for pH determination

Colourimetric method:
Reagents: A series of indicators and buffer solutions are required for this method. The method of preparation of the indicator is given below.

Procedure: Take 100ml of the sample in a hard glass tube and determine the approximate pH by using a universal indicator. Repeat using a solution of the indicator about 1/20 of the volume of the liquid being tested which corresponds to the approximate pH found above.

Compare the color produced with a series of buffer solutions of known pH each containing the same proportion of the indicator. Report as pH, the pH of that buffer solution which matches with that of the sample, to the nearest 0.1 unit

For the determination of pH, we use some indicators to find its magnitude(value) based on color change
Universal indicator:

To prepare a universal indicator which is used widely and frequently the procedure is, to dissolve 0.05g of methyl orange, 0.15g of methyl red, 0.3g of bromothymol blue, and 0.35g of phenolphthalein in one-liter alcohol(66 percent) which may be ethanol

And the color change occurs when two to three drops of this solution are mixed with the sample of which we like to determine pH as below:

pHColor
Up to 3Red
4Orange-red
5Orange
6Yellow
7Yellowish-green
8Greenish-blue
9Blue
10Violet
11Reddish-violet

For accurate determination of pH, a process indication of color should be referred to the particular range as below.

s.noName of indicatorpH rangeColour changeMethod of preparation
1Thymol blue1.2-2.8Red to yellowTribute 0.1g in 10.75ml of N/50 sodium hydroxide solution and dilute with distilled water to 250ml
2Bromophenol blue3.0-4.6Yellow to blue-violetTriturate 0.10g in 7.45ml of N/50 sodium hydroxide solution and dilute with distilled water to 250ml
3Bromocresol green3.8-5.4Yellow to blueTriturate 0.10g in 7.15 ml as above
4Methyl red4.2-6.3Red to yellowUse 18.60ml
5Bromocresol purple5.2-6.8Yellow to blue-violetUse 9.25 ml
6Bromothymol blue6.0-7.6Yellow to blue8.00ml
7Phenol red6.8-8.4Yellow to red14.20
8Cresol red7.2-8.8Yellow to red13.10
9Thymol blue8.0-9.6Yellow to blue10.75
10Thymolphthalein9.3-10.5Colorless to blueDissolve 0.10g in 100ml rectified spirit
11Thymol violet9.0-13.0Yellow to green to violetDissolve 0.01g of tropaeolin 0 in 100 ml of distilled water. Dissolve 0.04g of thymolphthalein in a mixture of 50 ml of rectified spirit and 50 ml of water. Mix one part of tropaeolin O solution with 4 parts of thymolphthalein solution

Standard buffer solutions prepared as given below shall be kept in bottles made of alkali-free glass or of polyethylene and shall not be used later than three months after preparation.

The solution from pH 1.2 to 2.2 shall be prepared by mixing 50ml of M/5 potassium chloride solution with the specified volumes of N/5 HCl as given below and diluting with distilled water to 200ml

pHVolume in ml of N/5 HCl
1.264.5
1.441.5
1.626.3
1.816.6
2.010.6
2.26.7

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