AUTOCAL with ambient air (dependent on the measured component)
Highly cost effective because calibration gases are not required
High selectivity thanks to multi-layer detectors, e.g. low cross-sensitivity to water vapor
Sample chambers can be cleaned as required on site
Cost savings due to reuse after contamination
Menu-assisted operation in plaintext
Operator control without manual, high level of operator safety
Service information and logbook
Preventive maintenance; help for service and maintenance personnel, cost savings
Coded operator level against unauthorized access
Increased safety
Open interface architecture (RS 485, RS 232, PROFIBUS, SIPROM GA)
Simplified process integration; remote operation and control
Special benefits when used in biogas plants
Continuous measurement of all four important components, including H2S
Long service life of the H2S sensor even at increased concentrations; no diluting or backflushing necessary
Introduction and measurement of flammable gases as occurring in biogas plants (e.g. 70% CH4), is permissible (TÜV certificate)
Application
Areas of application
Optimization of small firing systems
Monitoring of exhaust gas concentration from firing systems with all types of fuel (oil, gas and coal) as well as operational measurements with thermal incineration plants
Room air monitoring
Monitoring of air in fruit stores, greenhouses, fermenting cellars and warehouses
Monitoring of process control functions
Atmosphere monitoring during heat treatment of steel
For use in non-potentially-explosive atmospheres
Application areas in biogas plants
Monitoring of fermenters for generating biogas (input and pure sides)
Monitoring of gas-driven motors (power generation)
Monitoring of feeding of biogas into the commercial gas network
Application area of paramagnetic oxygen sensor
Flue gas analysis
Inerting plants
Room air monitoring
Medical engineering
Further applications
Environmental protection
Chemical plants
Cement industry
Special versions
Separate gas paths
The ULTRAMAT 23 with 2 IR components without pump is also available with two separate gas paths.. This allows the measurement of two measuring points as used e.g. for the NOx measurement before and after the NOx converter.
The ULTRAMAT 23 gas analyzer can be used in emission measuring systems and for process and safety monitoring.
TÜV version/QAL/MCERTS
TÜV-approved versions of the ULTRAMAT 23 are available for measurement of CO, NO, SO2 and O2 according to 13th BlmSchV/27th BlmSchV/30th BImSchV (N2O) and TA Luft.
Smallest TÜV-approved and permitted measuring ranges:
1- and 2-component analyzer
CO: 0 to 150 mg/m3
NO: 0 to 100 mg/m3
SO2: 0 to 400 mg/m3
3-component analyzer
CO: 0 to 250 mg/m3
NO: 0 to 400 mg/m3
SO2: 0 to 400 mg/m3
All larger measuring ranges are also approved.
Furthermore, the TÜV-approved versions of the ULTRAMAT 23 comply with the requirements of EN 14956 and QAL 1 according to EN 14181. Conformity of the analyzers with both standards is TÜV-certified.
Determination of the analyzer drift according to EN 14181 (QAL 3) can be carried out manually or with a PC using the SIPROM GA maintenance and servicing software. In addition, selected manufacturers of emission evaluation computers offer the possibility for downloading the drift data via the analyzer’s serial interface and to automatically record and process it in the evaluation computer.
Version with reduced response time
The connection between the two condensation traps is equipped with a stopper to lead the complete flow through the measuring cell (otherwise only 1/3 of the flow), i.e. the response time is 2/3 faster. The functions of all other components remain unchanged
AUTOCAL with ambient air (dependent on the measured component)
Highly cost effective because calibration gases are not required
High selectivity thanks to multi-layer detectors, e.g. low cross-sensitivity to water vapor
Sample chambers can be cleaned as required on site
Cost savings due to reuse after contamination
Menu-assisted operation in plaintext
Operator control without manual, high level of operator safety
Service information and logbook
Preventive maintenance; help for service and maintenance personnel, cost savings
Coded operator level against unauthorized access
Increased safety
Open interface architecture (RS 485, RS 232, PROFIBUS, SIPROM GA)
Simplified process integration; remote operation and control
Special benefits when used in biogas plants
Continuous measurement of all four important components, including H2S
Long service life of the H2S sensor even at increased concentrations; no diluting or backflushing necessary
Introduction and measurement of flammable gases as occurring in biogas plants (e.g. 70% CH4), is permissible (TÜV certificate)
Application
Areas of application
Optimization of small firing systems
Monitoring of exhaust gas concentration from firing systems with all types of fuel (oil, gas and coal) as well as operational measurements with thermal incineration plants
Room air monitoring
Monitoring of air in fruit stores, greenhouses, fermenting cellars and warehouses
Monitoring of process control functions
Atmosphere monitoring during heat treatment of steel
For use in non-potentially-explosive atmospheres
Application areas in biogas plants
Monitoring of fermenters for generating biogas (input and pure sides)
Monitoring of gas-driven motors (power generation)
Monitoring of feeding of biogas into the commercial gas network
Application area of paramagnetic oxygen sensor
Flue gas analysis
Inerting plants
Room air monitoring
Medical engineering
Further applications
Environmental protection
Chemical plants
Cement industry
Special versions
Separate gas paths
The ULTRAMAT 23 with 2 IR components without pump is also available with two separate gas paths.. This allows the measurement of two measuring points as used e.g. for the NOx measurement before and after the NOx converter.
The ULTRAMAT 23 gas analyzer can be used in emission measuring systems and for process and safety monitoring.
TÜV version/QAL/MCERTS
TÜV-approved versions of the ULTRAMAT 23 are available for measurement of CO, NO, SO2 and O2 according to 13th BlmSchV/27th BlmSchV/30th BImSchV (N2O) and TA Luft.
Smallest TÜV-approved and permitted measuring ranges:
1- and 2-component analyzer
CO: 0 to 150 mg/m3
NO: 0 to 100 mg/m3
SO2: 0 to 400 mg/m3
3-component analyzer
CO: 0 to 250 mg/m3
NO: 0 to 400 mg/m3
SO2: 0 to 400 mg/m3
All larger measuring ranges are also approved.
Furthermore, the TÜV-approved versions of the ULTRAMAT 23 comply with the requirements of EN 14956 and QAL 1 according to EN 14181. Conformity of the analyzers with both standards is TÜV-certified.
Determination of the analyzer drift according to EN 14181 (QAL 3) can be carried out manually or with a PC using the SIPROM GA maintenance and servicing software. In addition, selected manufacturers of emission evaluation computers offer the possibility for downloading the drift data via the analyzer’s serial interface and to automatically record and process it in the evaluation computer.
Version with reduced response time
The connection between the two condensation traps is equipped with a stopper to lead the complete flow through the measuring cell (otherwise only 1/3 of the flow), i.e. the response time is 2/3 faster. The functions of all other components remain unchanged
