Abstract
Salinity is an important property of industrial and natural waters. It is defined as the measure of the mass of dissolved salts in a given mass of solution. High salinity has an impact on people and industries reliant on water. High levels of salt can reduce crop yields, limit the choice of crops that can be grown and, at higher concentrations over long periods, can kill trees and make the land unsuitable for agricultural purposes. Salinity increases the “hardness” of water, which can mean more soap and detergents have to be used or water softeners installed and maintained. This can also cause scaling in pipes and heaters. The experimental determination of the salt content by drying and weighing presents some difficulties due to the loss of some components. The only reliable way to determine the true or absolute salinity of natural water is to make a complete chemical analysis. However, the method is time consuming and cannot yield the precision necessity for accurate work. Thus to determine salinity, one normally used method involves the measurement of a physical property such as conductivity, density or refractive index. The paper reports the refractometric fiber optic sensor for detection of salinity of water. The mathematical model is developed for detection of the refractive index of liquid and simulated in MATLAB. The fiber optic sensor probe is developed to measure the refractive index of the solution containing different amount of salt dissolved in water i.e. different molar concentrations. Experiments are carried out using the developed probe for these solutions. Experimental results are showing good agreement with the simulated results.
Highlights
Water quality monitoring is essential to modern life
A fiber optic sensor based on surface Plasmon resonance for determination of the refractive index is used for measuring degree of salinity of water [7]
A simple technique is used to measure the salinity of water using fiber optic sensor based on liquid refractometry
Summary
Water quality monitoring is essential to modern life. is it a major factor in safeguarding public health, and high-quality freshwater is a key input in agriculture and many industrial process. An intensity-modulated fiber-optic sensor for salinity measurement based on radiation loss was developed [5]. A fiber optic sensor based on surface Plasmon resonance for determination of the refractive index is used for measuring degree of salinity of water [7]. A new type of fiber optic Bragg grating sensor based on the hydrogels is used for measuring the salinity [8]. This paper discusses the fiber optic sensor based on liquid refractometry [9] for measuring the salinity of water. This technique has the advantage of non-contact type sensing, requires simple circuitry and as accurate as the other methods of refractometric sensing. The results are compared with the simulated as well as reported data [10] and found to be in good agreement with each other
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