Difference between revisions of "Inline Refractometers"
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[[File:Inline refractometer.jpg|thumb|right|Inline refractometers]] | [[File:Inline refractometer.jpg|thumb|right|Inline refractometers]] | ||
'''Inline Refractometers''' are a type of refractometer designed for the continuous measurement of a fluid flowing through a pipe or inside a tank. These refractometers typically consist of a sensor, placed inline with the fluid flow, coupled to a control box. The control box usually provides a digital readout as well as 4-20 mA analog outputs and relay outputs for controlling pumps and [[ | '''Inline Refractometers''' are a type of refractometer designed for the continuous measurement of a fluid flowing through a pipe or inside a [[Tanks|tank]]. These refractometers typically consist of a sensor, placed inline with the fluid flow, coupled to a control box. The control box usually provides a digital readout as well as [[ | ||
4-20mA Controllers|4-20 mA analog outputs]] and relay outputs for controlling [[pumps]] and [[valves]]. Instead of placing the [[Sensors|sensor]] inline of the process, it can be placed in a bypass, attached by a thin [[Tubes|tube]]. | |||
This measurement has been an important element in the process control of the chemical and refining, pulp and paper, food, sugar and pharmaceutical industries for more than a century. For instance, the in-line concentration measurement can be used as a real-time predictive tool for the final concentration. A quick and accurate response is needed to optimize production. Cost reduction is possible by reducing the variation of mean average of the product concentration. The cost saving is related to the value of the component being measured. | This measurement has been an important element in the process control of the chemical and refining, pulp and paper, food, sugar and pharmaceutical industries for more than a century. For instance, the in-line concentration measurement can be used as a real-time predictive tool for the final concentration. A quick and accurate response is needed to optimize production. Cost reduction is possible by reducing the variation of mean average of the product concentration. The cost saving is related to the value of the component being measured. | ||
A digital inline refractometer sensor measures the refractive index and the temperature of the processing medium. The measurement is based on the refraction of light in the process medium, i.e. the critical angle of refraction using a light source. The measured refractive index and temperature of the process medium are sent to the control box. It calculates the concentration of the process liquid based on the refractive index and temperature, taking pre-defined process conditions into account. The output is typically a 4 to 20mA DC output or, increasingly, an Ethernet signal proportional to process solution concentration, liquid density, Brix or other scale that has been selected for the instrument. | A digital inline refractometer sensor measures the refractive index and the temperature of the processing medium. The measurement is based on the refraction of light in the process medium, i.e. the critical angle of refraction using a light source. The measured refractive index and temperature of the process medium are sent to the control box. It calculates the concentration of the process liquid based on the refractive index and temperature, taking pre-defined process conditions into account. The output is typically a 4 to 20mA DC output or, increasingly, an Ethernet signal proportional to process solution concentration, liquid density, Brix or other scale that has been selected for the instrument. | ||
==Sources== | ==Sources== | ||
[http://en.wikipedia.org/wiki/Inline_process_refractometer Wikipedia Inline refractometer] | [http://en.wikipedia.org/wiki/Inline_process_refractometer Wikipedia Inline refractometer] |
Revision as of 21:15, 27 February 2013
Inline Refractometers are a type of refractometer designed for the continuous measurement of a fluid flowing through a pipe or inside a tank. These refractometers typically consist of a sensor, placed inline with the fluid flow, coupled to a control box. The control box usually provides a digital readout as well as [[ 4-20mA Controllers|4-20 mA analog outputs]] and relay outputs for controlling pumps and valves. Instead of placing the sensor inline of the process, it can be placed in a bypass, attached by a thin tube.
This measurement has been an important element in the process control of the chemical and refining, pulp and paper, food, sugar and pharmaceutical industries for more than a century. For instance, the in-line concentration measurement can be used as a real-time predictive tool for the final concentration. A quick and accurate response is needed to optimize production. Cost reduction is possible by reducing the variation of mean average of the product concentration. The cost saving is related to the value of the component being measured.
A digital inline refractometer sensor measures the refractive index and the temperature of the processing medium. The measurement is based on the refraction of light in the process medium, i.e. the critical angle of refraction using a light source. The measured refractive index and temperature of the process medium are sent to the control box. It calculates the concentration of the process liquid based on the refractive index and temperature, taking pre-defined process conditions into account. The output is typically a 4 to 20mA DC output or, increasingly, an Ethernet signal proportional to process solution concentration, liquid density, Brix or other scale that has been selected for the instrument.