Gas Analyzer OXYBABY® M+
O2- and O2/CO2- gas analyzer for MAP-packages, standard version
Gas Analyzer OXYBABY® M+
O2- and O2/CO2- gas analyzer for MAP-packages, standard version
Gas Analyzer OXYBABY® 6.0
O2- and O2/CO2-gas analyzer for MAP-packages, premium version
Gas Analyzer OXYBABY® M+ P
O2-, CO2- or O2/CO2-gas analyzer for pressure lines, standard version
Gas Analyzer OXYBABY® 6.0 P
O2-, CO2 or O2/CO2-gas analyzer for pressure lines, premium version
Gas Analyzer OXYBABY® Med
O2- and O2/CO2-gas analyzer for medical applications
Gas Analyzer OXYBEAM
Laser gas analyzer (O2 or CO2) for non-destructive sample testing of packages
Gas Analyzer PA 7.0
Compact gas analyzer for O2, CO2 or O2/CO2, various applications
Gas Analyzer MAPY 4.0
Premium gas analyzer for O2, CO2 or O2/CO2, various applications
Inline Gas Analyzer MAPY LE
Gas analyzer for O2, CO2 or O2/CO2, e.g. for flow packs
Inline Gas Analyzer MAPY VAC
for traysealers and thermoformers, O2 or O2/CO2
Gas analyzers from Witt determine gas concentrations in gas mixtures quickly and precisely and are highly versatile. State-of-the-art sensors and intuitive controls allow easy handling of the gas analyzers, guarantee exact analysis results and ensure the quality of your processes. Depending on the type of application, the gas analyzers can be supplied separately or integrated into gas mixing systems.
As stationary or portable gas analyzers for sampling or continuous gas analysis, they are available for a wide range of technical gases and applications. Witt offers gas analyzers for example for oxygen, carbon dioxide, helium, hydrogen or methane. The gas analyzers are used, for example, in food and pharmaceutical industries, in hospitals and medical applications, to control gas supply lines in thermal processing plants and numerous other industrial applications.
As special versions of the gas analyzers, Witt also offers devices for indoor air monitoring as well as for humidity measurement or dew point analysis of gases.
Gas analyzers are essential for quality control when a process involves packaging under protective atmosphere. The quality control can be done either as continuous gas analysis directly during the packaging process or downstream to the packaging process by means of sample analysis.
In continuous gas analysis, an analysis module is integrated into the gas mixing system. The gas analyser then continuously monitors the composition of the gas mixture.
Sample analysis is carried out as quality control in almost all companies packaging with modified atmospheres. A needle is used to remove a gas sample from the packaging. Probably the world's best-known model from the Witt product range is the handheld gas analyser OXYBABY®. This reliable assistant for checking protective atmospheres is one of the best-selling gas analyzers in the food industry.
Witt gas analyzers are reliable and require only a very small quantity of gas. Thus, they are also suitable for packaging with a very small gas-containing headspace, i.e. a small amount of inert gas in the packaging. Because of this, Witt gas analyzers are also used for checking packaging of medical products in the pharmaceutical industry, such as vials, ampoules or blister packs.
The nondestructive control of MAP packaging is also possible with Witt gas analyzers. Using state-of-the-art and safe laser technology, the oxygen content can be reliably determined in transparent packaging.
Protective and surface finishing demands highly accurate gas mixtures. But these highest quality steel finishing processes also requires the necessary control and safety. So for these processes Witt offers integrated gas analysis systems in the gas mixers, which continuously monitor and optimize the composition of the forming gases.
The combination of Witt gas analyzers with gas mixers assures safety when handling flammable gases.
The technical heart of the Witt gas analyzers is the actual measuring cell. For the measurement of oxygen and carbon dioxide, the following measurement principles are applied:
Zirconia measuring cells are characterized by their high response speed and a relatively long service life. Their sensitivity also allows measurements in the ppm range. On the other hand, the ceramic sensor is very sensitive to pressure surges and has a high power consumption due to the necessary heating. Zirconia gas analyzers measuring cells are often used in stationary analyzers.
Electrochemical measuring cells are relatively inexpensive and require no supply voltage. Disadvantages are the relatively short lifetime at too high oxygen concentrations, and a relatively long response time or measurement time. In addition, a frequent calibration of the gas analyzer is necessary.
With paramagnetic measuring cells, a long-term stable measuring signal with long calibration intervals can be achieved. Since it is a physical measurement principle, the cells have a long service life. On the other hand, these relatively expensive measuring cells do not allow analysis in the ppm range and are susceptible to errors at high gas pressures. They are preferably used at high oxygen concentrations.
For the analysis of carbon dioxide gas, analyzers with infrared sensors are usually used. These are relatively inexpensive and low-wear.
Depending on the application, Witt also relies on other technologies for gas analysis, such as the principle of thermal conductivity for the determination of binary gas mixtures or the separation process in gas chromatographs.
Give us a call!
Headquarters: +49 (0)2302-8901-0
WITT USA: +1 770-664-4447
Give us a call!
Headquarters: +49 (0)2302-8901-0
WITT USA: +1 770-664-4447