FT5000 Continuous Emissions Monitoring
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PRODUCT DESCRIPTIONThe FT5000 Continuous Emission Monitoring from Cerex Monitoring Solutions, LLC. utilises a DOAS beam of infrared light to detect and quantify the gases of interest. The system represents a real-time gas monitoring system that can provide detections for many common gaseous compounds found in stacks. The Cerex FT5000 analyzer is based on the widely acclaimed full spectrum Bomem MB3000 interferometer. The MB3000 has compliance with CE and TUV. The FT5000 is a full spectrum FTIR based on the widely acclaimed Bomem MB3000. This system represents the most reliable FTIR with the lowest cost of ownership and is provided with a library of over 400 compounds from which to choose from. The FT5000 Analyser has the analyser, control unit, and communications all built into one enclosure. An optical, automatic verification/calibration module is offered and installation is simplified with all the electronics and power located on one side of the stack. Also with the FT5000 Analyser the data collection rate is user selectable as the spectrometer interface allows rapid acquisition and the ability to control the averaging to any desired reporting interval. |
SOFTWARE HIGHLIGHTS
- Full multi‐gas capability. Analysis is rapidly performed and results presented in real‐time.
- Outputs are available in a variety of formats, ranging from analog (voltage, 4‐20mA) to digital (RS232, ethernet, MODBUS, wireless, internet connectivity.
- Data collection rate is user selectable. The spectrometer interface allows rapid acquisition, and the ability to control the averaging to any desired reporting interval.
- The raw “single beam” (intensity vs. wavelength) transmission spectra are saved for each scan.
- Raw spectra are saved in .csv text format. Easily manipulated in Excel.
- Post‐processing module is included to allow any archived data set to be reprocessed using an alternate background file, or selection of chemical species.
- Spectral absorbance features can be characterized and saved as a “library reference” Then, each transmission spectra can be analyzed against that library reference using a quantitative classical least squares regression analysis routine.
