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The analytical method most frequently employed to ascertain the composition of the natural gas and compute its energy content is gas chromatography (GC). BTUs are the unit of measurement for energy in North America.
The fuel is more valuable and commands a greater price the higher its BTU rating. An analytical technique known as gas chromatography (GC) is used to identify, separate, and quantify the chemical components of a sample mixture. Typically, these chemical components are gases or organic compounds.
Gas chromatography (GC) is a sort of automated chromatography (a method for separating mixtures of materials) in which the substance mixture to be examined is vaporised and transported by an inert gas via a unique column and then to a detection equipment.
For producers, distributors, utilities, gas engine and appliance manufacturers, and of course customers, analysis of the composition of natural gas is essential.
The global Gas Chromatography market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
A number of brand-new gas chromatography (GC) and GC-mass spectrometry (GC-MS) equipment with cutting-edge hardware and software improvements have been introduced by Thermo Fisher Scientific Inc.
The GC/GC-MS instrument portfolio now includes technological advancements that boost productivity and usability, such as the new Thermo Scientific TRACE 1600 Series Gas Chromatograph, Thermo Scientific AI/AS 1610 Liquid Autosampler, Thermo Scientific ISQ 7610 Single Quadrupole GC-MS, and Thermo Scientific TSQ 9610 Triple Quadrupole GC-MS/MS.
According to the vice president and general manager, “They designed this array of GC/GC-MS instruments with the customer experience in mind, collecting feedback from customers throughout the development process.” Thermo Fisher Scientific specialises in applied analytical technologies including mass spectrometry and chromatography.
“Their portfolio is always changing to assist our customers in overcoming new obstacles, streamlining operations, making compliance simple, and cutting waste. These new instruments enable laboratories minimise unforeseen downtime and have simple adoption with intuitive technology, which makes these efforts successful.
The Korean National Agricultural Products Quality Management Service (NAQS) has bought Bruker triple-quadrupole GC-MS equipment for pesticide residue analysis and general monitoring of agricultural products, according to a report from the Korean Society for Mass Spectrometry (KSMS) in Busan, Korea, and Bruker (USA).
NAQS has chosen Bruker to install the triple-quadrupole GC-MS systems in each of its regional laboratories for the identification and monitoring of additional pesticide residues in agricultural goods. NAQS has an Experimental Research Institute in Seoul and numerous branch offices around South Korea.
Through the gathering of useful statistical data for agricultural business, policy making, and academic study, NAQS seeks to produce superior food testing analytical methodologies for Korean agriculture.
To ensure that the highest quality standards can be applied, NAQS is currently updating its array of analytical instrumentation and certification methods.
The accurate and consistent detection of pesticides in food presents a significant analytical problem. With several hundred distinct pesticides needing identification and quantitation, the growing pesticide population presents unique analytical challenges.
For lower detection limits, improved specificity, and increased dependability in gas chromatography mass spectrometry (GC-MS) food analysis, Bruker has invented high-performance triple-quadrupole GC-MS systems.
In order to hasten the adoption of simple, cost-effective, and reliable triple-quadrupole technology as the new analytical gold standard for GC-MS, Bruker has unveiled the new SCION triple-quadrupole GC-MS as the new performance leader.
