Myron L PS9TK User Manual
Page 63
59
XXii. ph and ORP/FREE chLORinE
A. pH
1. pH as an Indicator
pH is the measurement of Acidity or Alkalinity of an aqueous solution. It
is also stated as the Hydrogen Ion activity of a solution. pH measures
the effective, not the total, acidity of a solution.
A 4% solution of acetic acid (pH 4, vinegar) can be quite palatable, but
a 4% solution of sulfuric acid (pH 0) is a violent poison. pH provides the
needed quantitative information by expressing the degree of activity of
an acid or base.
In a solution of one known component, pH will indicate concentration
indirectly. However, very dilute solutions may be very slow reading,
just because the very few ions take time to accumulate.
2. pH Units
The acidity or alkalinity of a solution is a measurement of the relative
availabilities of hydrogen (H
+
) and hydroxide (OH
-
) ions. An increase in
(H
+
) ions increases acidity, while an increase in (OH
-
) ions increases
alkalinity. The total concentration of ions is fixed as a characteristic
of water, and balance would be 10
-
7
mol/liter (H
+
) and (OH
-
) ions in a
neutral solution (where pH sensors give 0 voltage).
pH is defined as the negative logarithm of hydrogen ion concentration.
Where (H
+
) concentration falls below 10
-7
, solutions are less acidic
than neutral, and therefore are alkaline. A concentration of 10
-9
mol/
liter of (H
+
) would have 100 times less (H
+
) ions than (OH
-
) ions and be
called an alkaline solution of pH 9.
3. The pH Sensor
The active part of the pH sensor is a thin glass surface that is selectively
receptive to hydrogen ions. Available hydrogen ions in a solution will
accumulate on this surface and a charge will build up across the glass
interface. The voltage can be measured with a very high impedance
voltmeter circuit; the dilemma is to connect the voltmeter to solution on
each side.
The glass surface encloses a captured solution of potassium chloride
holding an electrode of silver wire coated with silver chloride. This is
the most inert connection possible from a metal to an electrolyte. It can
still produce an offset voltage, but using the same materials to connect
to the solution on the other side of the membrane causes the 2 equal
offsets to cancel.
The problem is, on the other side of the membrane is an unknown test
solution, not potassium chloride. The outside electrode, also called the