全新的Clarus® 590气相色谱引入新技术，从而改进了灵敏度，降低残留效应，使得整个系统易于使用和维护。全新的Clarus 590采用和Clarus 690相同的创新设计，你可选择最通用的样品处理系统。
幸运8平台彩票如果您的实验室常规检测任务很多，同时也承担科研研究的工作，您需要一款易用皮实的仪器来满足不同的需求。全新的 Clarus 590气相色谱系统完全自动化，提供优异的分析效果和超强的适应性，并且运行稳定。基于Clarus色谱平台，Clarus 590气相色谱具有以下的特点：宽量程的氢火焰离子化检测器，防止化合物降解的毛细管进样口和提供多种进样选择（顶空、液体、固相微萃取）的进样系统。
目前的Clarus 590的解决方案众多，包括石化和气体分析全面解决方案。Clarus 590简单易用，日常运行稳定。人性化直观的界面通过彩色多语言的触摸屏将实时信号显示。The Clarus 590气相色谱由TotalChrom色谱软件控制，按照流程指示即可进行数据的获得、处理、报告、检查和批准等操作。
幸运8平台彩票In today’s budget-constrained, yet highly competitive laboratory environments, the samples you’re being asked to analyze - whether food, pharmaceutical, petrochemical, or environmental - are increasingly difficult. But for some labs, having a dedicated GC for every application isn’t an option. For them, a GC that can do it all isn’t just a nice-to have, it’s a necessity.
Oil refineries and natural gas producers around the world require their lab operations to perform large numbers of analyses before their products are used in industries and by consumers. Detection of even the slightest impurities, accurate process control and hydrocarbon distribution analysis is critical to the success of these operations.That’s how PerkinElmer can help. As a global scientific leader and solutions provider to refining and natural gas labs, PerkinElmer's proven technology and experience meets the ever-changing needs of the oil and gas industry. PerkinElmer is committed to the success of your oil and gas sample analysis by providing the instrumentation, software, consumables, and services you need for fast, easy and precise testing. The result: better control of your operations and improved product quality.
Headspace Gas Chromatography—for applications involving the solvent-free extraction of volatile compounds, it’s an unsurpassed technique, eliminating the time-consuming steps and risk of human error associated with other GC sample-preparation methods.
The analysis of C2 to C12 volatile organic ozone-precursor compounds can present a serious technical challenge to the analytical chemist. Low concentrations in the atmosphere coupled with the need to monitor frequently to assess diurnal variations means that a preconcentration step of the sample before analysis by thermal desorption is required. While the samples can be collected in the field and returned to the laboratory, remote, field-based analysis is desired which allows reduced data turnaround time, minimizes sample collection hardware and permits the presence or absence of VOCs to be correlated with meteorological data. In the field, low-molecular-weight C2 VOCs can be trapped on solid adsorbents if those adsorbents are cryogenically cooled.
幸运8平台彩票With the new TurboMatrix MultiPrep+ and TurboMatrix MultiPrep autosamplers, PerkinElmer offers more choices than ever before to help you optimize the workflow of your gas chromatography instrument and maximize the throughput of your lab.
幸运8平台彩票PerkinElmer offers fast, robust, easy-to-use, and proven lubricant testing solutions. By leveraging our industry experience and partnering with global organizations like ExxonMobil and Caterpillar, we offer customers a unique level of understanding.
Air pollution is a global concern. Ground-level ozone has become an increasingly important issue in developed nations, as the health effects of smog are more clearly understood. The monitoring of VOC ozone precursor compounds will continue to play a role in defining and reducing air pollution in developed and developing nations in the next decade. The data presented here shows the excellent results of improved separation via Elite-624Sil MS column with real world samples, simplified column connections to the Dean Switching device and trap with modernized triple bed trap with guard zone technologies.
Volatile Organic Compounds (VOCs) have been identified as a major source of air pollution, and as such, have been regulated as a cause of both primary and secondary pollution, such as photochemistry smog. The U.S. Environmental Protection Agency (U.S. EPA) regulates 189 hazardous air pollutants under the Clean Air Act (CAA) of 1990, 51% of which are VOCs. The CAA offers further regulation and guidance for the monitoring of VOCs and ozone pollution in ambient air with a list of 57 ozone-precursor target analytes monitored under U.S. EPA’s Technical Assistance Document for Sampling and Analysis of Ozone Precursors, EPA/600-R-98/161 (1998)1, as well as the requirement of states to establish Photochemical Assessment Monitoring Stations (PAMS). This paper details an application for VOC monitoring with an extended target compound list utilizing a PerkinElmer TurboMatrix™ 300 TD and PerkinElmer Clarus®幸运8平台彩票 580 GC. The application note demonstrates results with good repeatability, linearity and detection limits.
幸运8平台彩票EPA 8015C is a gas chromatographic method used to establish concentrations of a variety of non-halogenated volatile organic compounds, semivolatile organic compounds, and petroleum hydrocarbons. For the purpose of this application, a Clarus® 690 GC was used for the analysis of petroleum hydrocarbons, specifically Diesel Range Organics (DRO).
幸运8平台彩票Customer complaints of odors within a new car are rising with the increasing number of new car buyers. Although odors can be subjective, it is now well known that the new car smell is the result of chemicals emitted from the in-vehicle interior components such as the dashboard, interior panels, seat coverings, flooring materials, and so on. This application note describes a method for the automotive industry that provides a qualitative analysis and the olfactory character of each component using the TD-GC/MS-Olfactory Port.
幸运8平台彩票The use of Food Contact Materials (FCM) can potentially be detrimental to human health. In the PerkinElmer quantification of Phthalate Leaching from FCMs, using the Clarus GC/MS, we explore how to quantify FCMs.
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Poster summarizing solutions of thermal analysis, molecular spectroscopy, chromatography and hyphenated techniques for polymers focused on providing more insight into product performance and process optimization that make easier
This report shows an example of three general degradation processes. The analytical system consisted of a Clarus GC/MS interfaced with a Pyrolysis Autosampler. Samples are rapidly pyrolyzed, automatically introduced into the GC carrier stream
Extractables and leachables studies are critical for maintaining the quality of your drug product and complying with GMP regulations during drug development and final batch release. Exposure to extractables and leachables could have a detrimental impact on the safety and efficacy of a final drug product. Testing for these contaminants is critical in every part of pharmaceutical packaging including the packaging system used to store drug products.