Purge and Trap for Autosamplers and Gas Chromatography3043619

Материал из megapuper
Версия от 22:49, 2 апреля 2016; MerlebdyhlksgvdAusten (обсуждение | вклад) (Новая страница: «Gas Chromatography (GC) is used to research compounds that could be vaporized without decomposing. To analyze these compounds, a gas chromatograph requires an aut…»)
(разн.) ← Предыдущая | Текущая версия (разн.) | Следующая → (разн.)
Перейти к: навигация, поиск

Gas Chromatography (GC) is used to research compounds that could be vaporized without decomposing. To analyze these compounds, a gas chromatograph requires an autosampler whose injection mechanism meets the stress of the analysis. When low levels of Volatile Organic Compounds (VOCs) or aroma compounds must be analyzed, a purge and trap autosampler is the optimal choice.


The Purge and Trap Process Purge and trap autosamplers are designed for detecting compounds at the lowest parts per billion (ppb) levels, hence their value for detecting dangerous compounds including volatile organic, or aroma compounds that could modify the taste or scent of your product. To get ready an example for chromatographic analysis, a purge and trap autosampler performs the following process: Bubbles carry gas from the sample release a the compounds Sequesters the compounds from the concentrator Vaporizes the compounds by heating the concentrator The vaporized compounds pass from the concentrator to the column-a number of cylindrical tubing housed inside the column oven of the chromatograph-then they get through to the detector, where they're analyzed. In the event the analysis is done, the final results are shown on a data interface, and could be printed utilizing a chart recorder. Deciding on the best automatic liquid sampler and trap for Gas Chromatography is a vital component to the analysis of low-level compounds. Due to essential nature with the application, choosing an autosampler with the right capabilities is a concern. When looking for autosamplers which have a purge and trap concentrator, researchers look at the following criteria before you make an investment: Mechanical robustness- When laboratories process large volume samples, they want an autosampler whose technology can withstand the rigors of the sample injection process. Analytical ability- When choosing an autosampler to the detection of low-level compounds, the key is to decide on the one which reduces the probability of carryover between samples wherever possible. Productivity- In purge and trap autosamplers, high productivity is determined by the dual concentrator mode that accommodates liquid and soil samples, and positioning for any great number of liquid and soil samples. Ease of use- A user-friendly interface, intelligent software, and handheld remote control typify an autosampler that's an easy task to operate. Easy maintenance- On-board diagnostic checks, on-board real-time flow diagrams, as well as an error tracking and sample log make an autosampler low maintenance. When an autosampler receives high marks in every of such categories, it can be considered better than the competition. Conclusion Gas Chromatography accounts for the security and excellence of various substances, from commercial carbonated drinks to natural pond water. To detect 'abnormal' amounts of volatile organic compounds or any other compounds during these substances, a gas chromatograph needs an autosampler that has a purge and trap concentrator. Generally, researchers choose the autosampler depending on the criteria above, and frequently consider purchasing it utilized to cut costs.