Abstract
To meet the demands of the chemical and pharmaceutical process industry for a combination of high measurement accuracy, product selectivity, and low cost of ownership, the existing measurement and evaluation methods have to be further developed. This paper demonstrates the attempt to combine future Raman photometers with promising evaluation methods. As part of the investigations presented here, a new and easy-to-use evaluation method based on a self-learning algorithm is presented. This method can be applied to various measurement methods and is carried out here using an example of a Raman spectrometer system and an alcohol-water mixture as demonstration fluid. The spectra’s chosen bands can be later transformed to low priced and even more robust Raman photometers. The evaluation method gives more precise results than the evaluation through classical methods like one primarily used in the software package Unscrambler. This technique increases the accuracy of detection and proves the concept of Raman process monitoring for determining concentrations. In the example of alcohol/water, the computation time is less, and it can be applied to continuous column monitoring.
Highlights
Process analysis technology (PAT) is established in many chemical industry plants
Raman Spectroscopy was performed with a tec5 MultiSpec® Raman system, equipped with a coaxial designed RamanProbe II
Raman Spectroscopy was performed with a tec5 MultiSpec®Raman system, equipped with a coaxial designed RamanProbe II (InPhotonics, Norwood, Massachusetts, USA;fibre configuration: 105 μm excitation fibre; 600 μm collection fibre/working distance 7.5 mm)
Summary
Process analysis technology (PAT) is established in many chemical industry plants. It enables the production of the required technical quality in compliance with safety standards.This is made possible with the best possible use of raw materials, systems, and energy.The chemical industry is the most energy-intensive manufacturing industry in Germany, with consumption of 1137.3 petajoules in 2018 [1]. Process analysis technology (PAT) is established in many chemical industry plants It enables the production of the required technical quality in compliance with safety standards. This is made possible with the best possible use of raw materials, systems, and energy. Optical processes are growing slowly because knowledge is obtained in-line and no extractions of the process have to be made, but accuracy is too low and the price too high. These systems must be flexible and quick to use to understand the process further. Simultaneous measurements of several indicators of the process stabilize the predicted status, and rapid intervention, if necessary, is ensured
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