SRA home page
Rackable MicroGC 19''

R Series

A solution dedicated to industry for use in workshops, pilot plants, process controls ...

The needs of industry are not those of the laboratory. To adapt to the environment of a control room or production unit, SRA Instruments proposes a MicroGC in the form of a 19"rack.

The analyzer can be equipped with 1 to 3 analytical modules (4 on request) and offers the same advantages in terms of modularity and speed of replacement as a conventional MicroGC. The rackable MicroGC can be remotely controlled up to several hundred meters.

Since it is a specific design, this device allows you to incorporate flow selection automatisms, filters and specific sampling systems that meet your process or analysis needs directly into the analyzer.

In its 19" rackmount / 4U height version, the rackable MicroGC can integrate up to 3 analytical modules and numerous communication options.

Several accessories can be fitted on the rear panel, such as filter elements or flow selection electro valves. Do not hesitate to contact us for any specific request.

The R series MicroGC is controlled by Soprane II software.


Applications


011_Solvents analysis with InnoWAX
Separation of Diethyl Ether, Diisopropyl Ether, Acetaldehyde, Methyl Cyclohexane, Propionaldehyde, Ethanol, Sec-Butanol, n-Propanol, Water, Acetone, Methyl Acetate, Ethyl Acetate, MEK + Methanol, Sec-Propanol

017_Analysis of fixed gases in transformer oil
helium, hydrogen, oxygen, nitrogen, methane, carbon monoxide, ethylene, ethane, acetylene separation

030_Fuel cell reformer gases analysis
Rapid and accurate determination of the composition of gases produced by a catalytic reformer is important for the development and optimization of new fuel cell designs. Gas chromatography, using a micro gas chromatograph and high-resolution columns, produces a complete analysis of fuel cell gases in less than 90 seconds. Connection of the gas chromatograph directly to the output of the reactor provides valuable information for evaluating performance of new catalyst formulations and reformer designs including optimization of reformer operation

035_Amines and ammonia analysis in air
NH3, methylamine and dimethylamine

043_Carbon dioxyde and light C2 hydrocarbons analysis
CO2, ethane, ethylene and acetylene separation in 60 seconds

061_Phosphine analysis in air
CO2, phosphine analysis in less than 60s

062_Very fast H2 and O2 analysis
H2 and O2 analysis with MicroGC in less than 30s (total cycle time)

067_Hydrogen and Helium at 5ppm in Argon
Traces analysis of H2 and He at 5ppm in argon matrix with a MicroGC

069_Toluene, MIBK, Vinyl acetate and Chloroform analysis
Analysis of Toluene, MIBK, Vinyl acetate and Chloroform with one MicroGC module in air matrix

070_Butane, methylacetylene, propadiene in propylene matrix with MicroGC
Analysis of impurities in a propylene matrix

071_Ammonia analysis in hydrocarbon matrix
Analysis of ammonia using special column in hydrocarbon matrix

072_Hydrogen, carbon dioxide, carbon monoxide and methane analysis with one column
H2, CO, CH4 and CO2 analysis with one MicroGC module

073_Analysis of fixed gases from underground water
Neon, Argon, Oxygen, Nitrogen, Methane, H2S, CO2 and N2O analysis with MicroGC

074_Formic acid analysis in CO2 matrix
Formic acid analysis in less than 60s with MicroGC