Principle Of Measurement - Vaisala K-PATENTS PR-23 Series Instruction Manual

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1.2 Principle of measurement

The refractometer sensor determines the refractive index n
measures the critical angle of refraction using a yellow LED light source with the same
wavelength (580 nm) as the sodium D line (hence n
Figure 1.2 is directed to the interface between the prism (P) and the process medium
(S). Two of the prism surfaces (M) act as mirrors bending the light rays so that they
meet the interface at different angles.
The reflected rays of light form an image (ACB), where (C) is the position of the critical
angle ray. The rays at (A) are totally internally reflected at the process interface, the
rays at (B) are partially reflected and partially refracted into the process solution. In
this way the optical image is divided into a light area (A) and a dark area (B). The
position of the shadow edge (C) indicates the value of the critical angle. The refractive
index n can then be determined from this position.
D
The refractive index n
ture. When the concentration changes, the refractive index normally increases when
the concentration increases. At higher temperatures the refractive index is smaller
than at lower temperatures. From this follows that the optical image changes with
the process solution concentration as shown in Figure 1.3. The color of the solution,
gas bubbles or undissolved particles do not affect the position of the shadow edge (C).
A
Low concentration
L
P
M
S
Figure 1.2 Refractometer principle
changes with the process solution concentration and tempera-
D
C B
Figure 1.3 Optical images
PR-23 instruction manual
of the process solution. It
D
). Light from the light source (L) in
D
C
A B
M
A C B
High concentration