Flame Ionization Detector

Description: Gas analyzers with an FID (flame ionization detector) are well suited for the continuous total hydrocarbon measurement. In the first approach, the measuring result is proportional to the number of C-atoms in the relevant molecule. The FIDAMAT versions cover a wide range of

• Application: Continuous Emissions Monitoring
• Display: Digital
• Electrical Outputs: Analog Current, Switch
• Features: Audible or Visual Alarms, Self Calibration

Description: For parts-per-million or mg/NM3 measurement of VOC's from oxidizer exhausts, stacks, adsorption beds, and process vents. Direct mount design eliminates heat-traced lines Heated to 200C to prevent sample condensation Stand-alone design with built-in alarms and relays Reliable air-aspirated

• Application: Continuous Emissions Monitoring, Ambient Air Monitoring, Process Gas
• Electrical Outputs: Analog Current, Switch
• Features: Audible or Visual Alarms, Controller, Self Calibration
• Instrument Type: Detector, Monitor, Analyzer

Description: STANDARD RECOMMENDED PRACTICE FOR TESTING FLAME IONIZATION DETECTORS USED IN GAS CHROMATOGRAPHY

Description: 1.1 This practice serves as a guide for the testing of the performance of a flame ionization detector (FID) used as the detection component of a gas or supercritical fluid (SF) chromatographic system. 1.2 This recommended practice is directly applicable to an FID that employs a

Description: 1.1 This practice covers the testing of the performance of a flame ionization detector (FID) used as the detection component of a gas or supercritical fluid (SF) chromatographic system. 1.2 This recommended practice is directly applicable to an FID that employs a hydrogen-air or

Description: 1.1 This practice covers the testing of the performance of a flame ionization detector (FID) used as the detection component of a gas or supercritical fluid (SF) chromatographic system. 1.2 This recommended practice is directly applicable to an FID that employs a hydrogen-air or

Description: Automotive fuel ? Measurement of methanol content in diesel fuel ? Water extraction ? Method using gas chromatograph with flame ionization detector

Description: Automotive fuel ?Measurement of methanol content in diesel fuel ? Method using gas chromatograph with head space flame ionization detector

Description: STANDARD PRACTICE FOR TESTING FLAME IONIZATION DETECTORS USED IN GAS OR SUPERCRITICAL FLUID CHROMATOGRAPHY - INCLUDES STANDARD + REDLINE (PDF)

Description: 1.1 This practice covers the testing of the performance of a flame ionization detector (FID) used as the detection component of a gas or supercritical fluid (SF) chromatographic system. 1.2 This recommended practice is directly applicable to an FID that employs a hydrogen-air or

Description: Patented tandem detector design uses only one GC detector port.

• Detection Limit or Sensitivity: 0.0400 ng
• Detection Method: Flame Ionization Detector, Photoionization Detector
• Display Options: None
• Dynamic Range: 1.00E6

Description: The GCxGC offers you the resolving power of a GCxGC system combined with advanced ChromaTOF® software for an increase in efficiency and productivity for samples that are too complex for a single-channel detector system. Ideal for everyday quality control and production needs

• Detection Method: Flame Ionization Detector
• Display Options: None
• Instrument Type: Fixtured or Permanent

Description: ABB process gas chromatographs perform real-time analysis of the chemical composition of a process sample or stream -- crucial for on-spec processes and productivity. PGC5000C Smart Ovens target complex applications requiring multiple detectors for maximum application densification. The ABB

• Applications: Energy
• Detection Method: Thermal Conductivity Detector, Flame Ionization Detector, Flame Photometric Detector
• Inlet Pressure Range: 150 psi
• Instrument Type: Fixtured or Permanent

Description: Designed for mission critical measurements Standard detector configuration – sTCD, mTCD, FID and FPD capability Smaller footprint allows for shelter size and utility reduction

• Applications: Energy
• Detection Method: Thermal Conductivity Detector, Flame Ionization Detector, Flame Photometric Detector
• Inlet Pressure Range: 150 psi
• Instrument Type: Fixtured or Permanent

Description: ISO/TR 17881-3:2018 describes a method for determining short-chain chlorinated paraffins (C10-C13) (SCCPs) in textiles using carbon skeleton reaction gas chromatography with a flame ionization detector (GC-FID). ISO/TR 17881-3:2018 is applicable to all kinds of textile products.

Description: , chromatographic column load airflow, detector gas flow, complete EPC control Micro-channel Air Circuit Integrated Board All-imported miniature proportional valves and flow/pressure sensors Automatic temperature compensation ensures accurate flow and pressure control to 0.01Psi

• Applications: Other
• Detection Method: Thermal Conductivity Detector, Flame Ionization Detector, Electron Capture Detector, Flame Photometric Detector, Nitrogen Phosphorous Detector
• Flow Control: Yes
• Instrument Type: Fixtured or Permanent

Description: This chromatograph has dual-detector capabilities in one application. Benefits include shorter analysis time and improved sensitivity. This instrument also supports TCD (thermal conductivity detectors), FID (flame ionization detectors) and FPD (flame

• Additional Output Options: Analog Current
• Application Software Included: Yes
• Applications: Environmental, Industrial Gases, Other
• Column Oven: Yes

Description: ABB process gas chromatographs perform real-time analysis of the chemical composition of a process sample or stream -- crucial for on-spec processes and productivity. The ABB PGC5000 Series process gas chromatograph is based on over 50 years of innovation in on-line process gas chromatographs. It

• Applications: Energy
• Column Oven: Yes
• Detection Method: Thermal Conductivity Detector, Flame Ionization Detector
• Inlet Pressure Range: 150 psi

Description: Optional discrete purging multisampler available for automated analyses

• Additional Output Options: Analog Voltage
• Also Accepts Liquid Samples: Yes
• Application Software Included: Yes
• Applications: Industrial Gases, Petroleum

Description: air and energy Numerous oven configurations permit and optimum solution for almost every application Wide range of detectors including FID, TCD, FPD, PDD (HID, PID, or ECD mode) Single or multi-detector configurations make this the most versatile Process Gas Chromatograph

• Additional Output Options: Analog Voltage, Analog Current
• Application Software Included: Yes
• Applications: Industrial Gases
• Computer Interface: Yes

Description: ). With a redesigned, single-cast enclosure, the 700XA offers an efficient use of oven space to accommodate both micropacked and capillary columns, as many as four 6-port or 10-port valves, a rotary valve for liquid injections, up to two thermal conductivity detectors, and an optional micro

• Additional Output Options: Analog Current
• Application Software Included: Yes
• Applications: Environmental, Industrial Gases, Other
• Column Oven: Yes

Description: The reliable and compact GC-8A is Shimadzu's basic gas chromatograph model for dedicated applications. Economical and simple to use, the GC-8A supports a single detector, manual pressure or flow control, on column injection port(s), and analog output. Isothermal or single temperature ramp

• Additional Output Options: Analog Voltage
• Applications: Other
• Column Oven: Yes
• Detection Method: Thermal Conductivity Detector, Flame Ionization Detector, Electron Capture Detector, Flame Photometric Detector

Description: column analysis. The large GC oven will accommodate up to 4 detectors and 2 injection ports. With 7 heated zones and sixteen 24 volt relays, this GC can be configured to perform the most demanding analyses, and the all-metal construction makes this workhorse GC rugged enough for use in the

• Applications: Industrial Gases, Petroleum
• Built in Chromatogram: Yes
• Column Injection: Split / Splitless Column Injection, Packed Column Injection
• Column Oven: Yes

Description: ratios of 9999:1. With fast data collection, rapid cooling, and world-class sensitivity limits, the ultimate in fast, sensitivite GC capabilities has arrived. The GC-2010 Plus features: • Best-in-class detectors - addresses increasing sensitivity demands for trace-level analysis • Rapid oven

• Application Software Included: Yes
• Applications: Cosmetics / Fragrances, Industrial Gases, Organic Chemicals, Other
• Built in Chromatogram: Yes
• Column Injection: Split / Splitless Column Injection

Description: torque and measure in-cylinder and exhaust CO, CO 2 and unburned hydrocarbons under various fueling and spark conditions during crank and startup phases. Fast Flame Ionization Detectors (FFID) and Non-Dispersive Infra-Red (NDIR) fast CO and CO 2 detectors are used as the

Description: The challenge A relatively small shift in the cut point for any refinery product can cost refiners millions in profits. In the absence of fast, accurate and reproducible boiling point data, refinery product yields are not optimized and more importantly, profits are lost. The solution The PGC5009

• Applications: Energy, Petroleum, Other
• Built in Chromatogram: Yes
• Column Oven: Yes
• Computer Interface Options: Serial Interface, Parallel Interface

Description: The MDGC/GCMS-2010 is a MDGC system which gives you a excellent separation performance and high reproducibility with the multi-deans switching technology, and supports analyses of complex matrixes like petroleum products, aromas, and optical isomers, with intuitive operation, and ease of

• Additional Output Options: Switch or Relay Contact
• Application Software Included: Yes
• Applications: Agricultural Chemicals / Pesticides, Industrial Gases, Inorganic Chemicals, Organic Chemicals, Petroleum
• Built in Chromatogram: Yes

Description: Analysis of natural gas - Biomethane - Determination of VOCs by thermal desorption gas chromatography with flame ionization and/or mass spectrometry detectors (ISO 2620:2024)

Description: Automotive fuels - Determination of content of butoxy-benzene in middle distillates - Gas chromatographic method using a flame ionization detector (GC-FID)

Description: Automotive fuels - Determination of content of butoxy-benzene in middle distillates - Gas chromatographic method using a flame ionization detector (GC-FID)

Description: The method presented is the current recommendation for the use of flame ionization detectors to determine the hydrocarbon content of diesel engine exhaust, or exhaust of vehicles using diesel engines, when operating at steady-state. The requirements of the associated sampling

Description: FID Grade Purity of 99.9996% Faster and more sensitive than helium Run time savings of 25% to 35% without a decline in resolution No caustic solutions or cell maintenance Ideal for: Flame ionization detector (FID) and small fuel-cell cylinder refills

• Generator Type: Hydrogen
• Output Flow Rate: 0.5000 SLM

Description: Carrier Grade Purity of +99.99996% (7.0)Designed to replace helium or nitrogen as a carrier gas Economical Alternative to high-pressure gas cylinders No caustic solutions or cell maintenance Ideal for: New design, Flame ionization detector (FID), Carrier gas for GC and GC-MS,

• Generator Type: Hydrogen
• Output Flow Rate: 0.1600 SLM

Description: Gives general guidance for the application of gas-liquid chromatography to determine the qualitative and quantitative composition of a micxture of fatty acid methyl esters obtained according to ISO 5509. The method is not applicable to polymerized fatty acids. The apparatur to be used are packed

Description: (pO2/eO2), trace oxygen and moisture detectors, as well as combinations with chemiluminescence (CLD) and flame ionization (FID) detector technologies. With the ability to measure up to five gas components, the MLT is the analyzer of choice for measurements requiring high

• Analyzer Technology: Electrochemical, Infrared, Photoionization Detector, Other
• Application: Process Gas
• Display: Digital
• Electrical Outputs: Analog Current, Analog Voltage

Description: (pO2/eO2), trace oxygen and moisture detectors, as well as combinations with chemiluminescence (CLD) and flame ionization (FID) detector technologies. With the ability to measure up to five gas components, the MLT is the analyzer of choice for measurements requiring high

• Analyzer Technology: Electrochemical, Infrared, Photoionization Detector, Other
• Application: Process Gas
• Display: Digital
• Electrical Outputs: Analog Current, Analog Voltage

Description: The method presented is the current recommendation for the use of flame ionization detectors to determine the hydrocarbon content of diesel engine exhaust, or exhaust of vehicles using diesel engines, when operating at steady-state. The requirements of the associated sampling

Description: The method comprises the passage of a gaseous test portion through water to absorb acetone, acetonitrile, propan-2-ol and methanol, and subsequent gas chromatographic analysis of the aqueous solution, using a flame ionization detector, and comparison of the peaks obtained with

Description: adducts, polyethers and polyglycol esters by headspace gas chromatography (HS-GC) with a flame ionization detector (FID) based on external procedure. Gas chromatography-mass spectrometry (GC-MS) is used for the confirmatory purposes.

Description: The method comprises the passage of a gaseous test portion through water to absorb acetone, acetonitrile, propan-2-ol and methanol, and subsequent gas chromatographic analysis of the aqueous solution, using a flame ionization detector, and comparison of the peaks obtained with

Description: The principle of the method specified is dissolving a test portion in dimethylformamide and injecting a small volume of the solution into a gas chromatograph equipped with flame ionization detector to separate and detect the volatile components. The solvent contains a known

Description: method uses Tenax TAÒ sorbent with subsequent thermal desorption and gas chromatographic analysis employing a capillary column or columns and a flame ionization detector and/or a mass spectrometric detector. The method is applicable to the measurement of non-polar and

Description: The principle of the method specified is dissolving a test portion in dimethylformamide and injecting a small volume of the solution into a gas chromatograph equipped with flame ionization detector to separate and detect the volatile components. The solvent contains a known