Continuous, reliable, and real-time measurement of the current CO2 and N2O load: The gas analyzer GHG-Control from SICK is the only in-situ solution that provides companies with an overview of the amount greenhouse gases emitted at any time. GHG-Control records the CO2-/N2O gas concentrations and their volume flow and determines the total quantity very precisely. GHG-Control does not involve the expensive process of recording the calculation basis, sampling and measurement of substance flows, and intermittent lab analyses, especially in the event of changing fuel qualities or fuel carbon content. The greenhouse gas loads are released directly to the SCU control unit. By dispensing with the expensive calculation method of the CO2 and N2O load, the safety supplements for the calculation method no longer apply and only the actual emitted loads are reported and paid for.
At a glance
In-situ solution for measuring CO2 and N2O emissions |
Direct measurement even with changing fuels and mixed fuels |
Measurement without converting from the dry to damp status |
Transfer of the greenhouse gas loads directly to the control unit |
Your benefits
Cost savings thanks to reduced effort recording greenhouse gases |
Lower costs for determining substance flows and fuel qualities |
Safety supplements for the calculation method are no longer an issue |
Only greenhouse gas loads that are actually emitted are reported and paid for |
Low operating costs thanks to minimal maintenance work |
Advice, development, and implementation provided by a single source |
Fields of application
Simple data collection for companies that are required to report greenhouse gases |
Precise calculation of greenhouse gas loads within the framework of an emission trading or pollution tax system |
Technical data | |||
Measurement principles: | Gas filter correlation, Interference filter correlation, Ultrasonic transit time difference measurement | ||
Measured values: | CO2, Gas velocity, N2O | ||
Max. number of measurands: | 3 | ||
Measuring ranges: | CO2: 0 ... 22.5 Vol.-% / 0 ... 100 Vol.-% Gas velocity: -40 ... 0 m/s / 0 ... 40 m/s N2O: 0 ... 60 ppm / 0 ... 2,500 ppm |
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Comment: | Measuring ranges depend on device version, Measuring ranges refer to 1 m measuring path | ||
Length of measuring path: | 2 ... 7.5 m | ||
Температура процесса: | 0 ... +180 °C | ||
Давление процесса: |
depending on purge air supply |
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Process gas humidity: | 0 ... 100 % relative humidity |
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Dust load: | ≤2 g/m3 depending on dust properties |
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Ambient temperature: | -40 ... +55 °C | ||
Ambient humidity: | 0 ... 96 % relative humidity; bedewing of optical surfaces not permitted |
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Electrical safety: | CE | ||
Enclosure rating: | IP 65 | ||
Analog outputs: | 2 outputs: 0/4 ... 22 mA, 500 Ω electrically isolated; max. number of outputs depends on application |
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Analog inputs: | 2 inputs: 0/4 ... 22 mA, 100 Ω electrically isolated; max. number of inputs depends on application |
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Digital outputs: | 5 outputs 2 power relays, electrically isolated; 3 outputs, potential-free; max. number of outputs depends on application |
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Digital inputs: | 4 inputs open contacts, potential-free; max. number of inputs depends on application |
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Interfaces: | Ethernet | ||
Bus protocol: | Modbus TCP OPC |
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Operation: | Menu-driven operation via SCU control unit | ||
System components: | GM35 analyzer FLSE100 sender/receiver units SCU control unit |
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Test functions: | Automatic check cycle for zero and span point Extended device diagnosis via SOPAS ET software |