IPRM-C Inline Brix Monitor

IPRM-C Inline Brix MonitorIt is a refractometer for in-line monitoring of  Brix, which is widely used in the food industry to monitor the Brix value of cola, sugar, starch, sweeteners, ketchup, fruit juice, etc., and to play the role of production process control.

Description

Specifications

Product model IPRM-C  inline brix monitor
Measurement item Brix,Refractive Index (nD), temperature.
Measuring range 0.00 – 80.00% Brix
Resolution 0.01% Brix
Measurement accuracy ± 0.15% Brix
Brix range Temperature corrected 5-60°C
Process temperature -10°C up to +70°C
Prism Sapphire
Wetted parts Stainless Steel SUS 316L
Power supply 24 V DC
Interfaces 1 output 4 – 20 mA,1 serial output RS485
International Protection class Display surface:IP65 Water resistant
Process pressure Max. 1 MPa (145 psi, 10 bar)
Dimensions and weight length 109 x diam.77mm; approx. 1000g
Cleaning components Options IPRM-US, IPRM-Wiper
Fitting Options IDF/ISO clamp union (1-3 inches), Flange, Compression Fitting G1/4

Dimensions

IPRM-C350 inline brix monitor
IPRM-C-dimensions

Measurement Principles
The refraction of light is a phenomenon wherein the direction that light is traveling changes as it passes through different mediums.
Through this phenomenon, we can observe as light’s direction changes and the “bent” appearance of substances even in the seemingly familiar, ordinary places in our day to day lives.
For example, imagine the lens of a pair of glasses and a pool.
When looking through the lens, an object appears larger or smaller than it is in reality.
When standing inside a pool, as you peer downward from the water’s surface, your legs will look shorter than they actually are.
As light moves from medium A (in this case, air) to medium B (lens and the pool’s water), it refracts.
Furthermore, it is known that light’s refraction changes depending on the concentration of a liquid.
The refractive index, which is a value that expresses the degree of refraction, is proportional to the density (mixture ratio) of a component.
Therefore, if there is 10g of sugar contained in 100ml of an aqueous solution and 20g of sugar contained in 100ml of an aqueous solution, the latter will have a higher refractive index value.
This difference in refractive index due to concentration variance has also been confirmed in solutions other than sucrose.
The properties of both the phenomenon known as the refraction of light and differing refractive index depending on concentration, are used as the principles of refractometers.
In addition to measuring the refractive index of a liquid, refractometers also display the concentration, converted from the refractive index.

Application highlights
Food and beverage industry
Sugar, starch, sweeteners
Biofuels and fermentation industry