PerkinElmer offers a selection of Trace Gas Analyzers for the detection of hydrogen, carbon dioxide, ethylene, ethane, acetylene, oxygen/argon, nitrogen, carbon monoxide, and total hydrocarbons. Our engineered solutions for trace gas analysis include FID, DID and PID detectors to ensure flexibility and increased instrument productivity. To ensure efficient setup within your laboratory, operation parameters are set and tested at the factory prior to shipment, with instrumental methods pre-loaded. Once installed, samples can be processed immediately, allowing you to optimize instrument up-time and productivity from day one.
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For users analyzing bulk gases such as beverage grade CO2, Model 4040 utilizes a capillary column and discharge ionization detector (DID) for the detection of hydrogen, argon, oxygen, nitrogen, methane and carbon monoxide, and allows for the addition of a second channel for multiple applications such as trace sulfur detection. Meeting the specifications set forth by ISBT for trace impurities in CO2, bulk gas and polymer grade ethylene, propylene, Model 4040 offers minimum detection levels of 100 ppb for carbon monoxide and methane, and 50 ppb for all other reportable compounds. This model can be combined with other applications, such as Model 4044, and is also compatible with additional PerkinElmer products for online and/or multi-stream sampling, or push-button plant operation software, providing the flexibility and customization you need for all your bulk gas sampling requirements.
The needs for polymer, pharmaceutical, chemicals, food and beverage, and environmental analyses are constantly changing due to innovation demands and regulation changes.
Evolved Gas Analysis (EGA) solutions combine multiple analytical technologies to empower speed and advanced information acquisition. Coupling Thermogravimetric Analyzer (TGA) systems with other analytical systems such as Gas Chromatography Mass Spectrometry (GC/MS) and Fourier Transform Infrared (FT-IR) Spectroscopy represents the most complete and advanced EGA solutions for gaining insights beyond decomposition of materials, by carrying out in-depth characterization of the evolved gases.
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