Orp 5.1. theory – Ionode IJ pH V5.1 User Manual

Ionode IJ Instruction Manual

31

5. ORP
5.1. Theory

ORP stands for oxidation reduction potential.
Ideal ORP obeys the Nernst equation:

















]

[

]

[

ln

0

Re

Ox

nF

RT

E

E

Where [Ox] is the active concentration of an
oxidized species such as ferric ion Fe

3+

and

[Re] is the active concentration of the reduced
form of that species namely ferrous ion Fe

2+.

The pair provides a redox couple.

The following is required for a stable ORP
reading:

1) Significant concentrations of both species of

the couple

2) Both species must be capable of readily

transferring electrons to or from each other
(reversible redox couple) and readily
accepting or removing electrons from an
inert metal surface.

Ferric/ferrous,

iodine/iodide

and

quinone/hydroquinone

are

examples

of

reversible redox couples and are used for ORP
standards (see

Table 7 - Table 9

)

Generally, most practical ORP measurements
are made on samples which do not meet the
above

criteria.

This

results

in

poor

reproducibility, drift, stirring rate dependence
and non-Nernstian behaviour. Nevertheless,
ORP is useful for measuring changes in a
system rather than absolute values (e.g.
process control to an ORP set-point and
titrations).

Like pH, ORP represents an intensity factor. It
does not characterize the capacity of the
system for oxidation or reduction, in the same