Process Raman Spectroscopy offers numerous benefits for the downstream sector and is gaining interest as an important analytical tool for the energy industry. The Thermo Scientific™ MarqMetrix™ All-In-One Process Raman Analyzer is one notable example of such analytical technology that is helping to shorten analysis time.
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This device has the flexibility to measure liquids and gases while reducing wear and tear on the laboratory equipment required by ASTM standards.
High-resolution compositional data supplied by process Raman spectroscopy allows downstream companies to optimize manufacturing processes with a comprehensive understanding of their product quality. Process Raman’s linear response to concentration also allows for the precise measurement of complex samples, which can be difficult to analyze with traditional techniques.
Process Raman spectroscopy can measure samples in real-time, improving the efficiency of monitoring manufacturing processes. This assists downstream companies in reducing costs and increasing productivity by rapidly identifying and resolving issues.
Process Raman spectroscopy can be used as a complementary method. The energy industry has relied on conventional analytical tools like vapor pressure analyzers, knock engines, and gas chromatography to guarantee product quality. For example, combining process Raman spectroscopy with gas chromatography provides a thorough understanding of the composition of a company’s products.
This case study will discuss the reasons why process Raman spectroscopy is an excellent addition to the industry’s traditional analytical technologies.
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This information has been sourced, reviewed and adapted from materials provided by Thermo Fisher Scientific – Materials & Structural Analysis.
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