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Portable infrared smoke analyzer Photon
Portable infrared smoke analyzer Photon
Product details
Portable infrared smoke analyzer Photon
Photon is a state-of-the-art flue gas analyzer. It can be equipped with up to 6 infrared sensors and 3 electrochemical sensors. The large color VGA display screen is used to display data, and the system hard drive is used to store results in a database format. An industrial grade computer equipped with the Windows 10 operating system manages the entire analyzer. Photon is equipped with the most effective flue gas pre processor PGD-100, which can create a fully professional gas analysis system that meets the strictest requirements and standards.
Dimensions (W x H x D) |
500mm x 395mm x 173mm |
| weight | 8-12kg |
Box material |
Aluminum clad wood |
| Operating conditions | Temperature: 10 ° C ÷ 50 ° C, relative humidity: 5% ÷ 90% (non condensing) |
| Storage temperature | -20°C ÷ +55°C |
| Power Supply: Input | Maximum Power Consumption | 115 or 230VAC | 150W |
| operating system | Windows 10 |
| display | 6.4” VGA (640x480) |
| Data storage: Type | Capacity | 64GB hard drive |
| External instrument interfaces (USB drive, mouse, keyboard) | 2x USB |
| PC computer communication interface | RS485, RJ45 (Ethernet), WIFI |
| Preheating time | ≤ 30 minutes or so |
| Preheating temperature | Approximately 18 ° C or above in the external air temperature of the unit |
| The maximum external temperature drift will not affect the preheating temperature | ±5°C |
| Protection level |
IP20 |
Measurement of smoke composition, the table below shows the combination of sensors/ranges.
Please note that the maximum allowable number of smoke sensors in an instrument is 6 infrared sensors and 3 electrochemical sensors
| component | mode | Range | Resolution | accuracy |
time (T90) |
accord with |
| O2- Oxygen | Electrochemical sensor | 20.95% | 0.01% | ± 0.1% absolute or 5% of measured value | 45 seconds | ISO 12039,CTM-030 |
| O2- Oxygen | Electrochemistry, partial pressure | 20.95% | 0.01% | ± 0.1% absolute or 5% of measured value | 45 seconds | ISO 12039,CTM-030 |
| O2- Oxygen | Electrochemistry, partial pressure | 25% | 0.01% | ± 0.1% absolute or 5% of measured value | 45 seconds | ISO 12039,CTM-030 |
| O2- Oxygen | Electrochemistry, partial pressure | 100% | 0.1% | ± 0.1% absolute or 5% of measured value | 45 seconds | ISO 12039,CTM-030 |
| O2- Oxygen | Paramagnetic sensor | 25% | 0.01% | ± 0.1% absolute or 5% of measured value | 45 seconds | EN 14789, OTM-13 |
| O2- Oxygen | Paramagnetic sensor | 100% | 0.1% | ± 0.1% absolute or 5% of measured value | 45 seconds | EN 14789, OTM-13 |
| CO - Carbon monoxide | infrared sensor | 20000ppm|1ppm | ± 2ppm absolute or 2% of measured value | 45 seconds | EN 15058, Method 10 |
| CO - Carbon monoxide | infrared sensor | 10% | 0.01% | ± 0.2% absolute or 2% of measured value | 45 seconds | EN 15058, Method 10 |
| CO - Carbon monoxide | infrared sensor | 100% | 0.1% | ± 0.2% absolute or 2% of measured value | 45 seconds | EN 15058, Method 10 |
| CO2- Carbon dioxide | infrared sensor | 5% | 0.01% | ± 0.2% absolute or 2% of measured value | 45 seconds | ISO 12039, OTM-13 |
| CO2- Carbon dioxide | infrared sensor | 25% | 0.01% | ± 0.2% absolute or 2% of measured value | 45 seconds | ISO 12039, OTM-13 |
| CO2- Carbon dioxide | infrared sensor | 100% | 0.1% | ± 0.2% absolute or 2% of measured value | 45 seconds | ISO 12039, OTM-13 |
| CH4- Methane | infrared sensor | 5% | 0.01% | ± 0.2% absolute or 2% of measured value | 45 seconds |
|
| CH4- Methane | infrared sensor | 25% | 0.01% | ± 0.2% absolute or 2% of measured value | 45 seconds |
|
| CH4- Methane | infrared sensor | 100% | 0.1% | ± 0.2% absolute or 2% of measured value | 45 seconds |
|
| NO - Nitric oxide | infrared sensor | 200ppm|0.1ppm |
± 2ppm absolute or 2% of measured value | 45 seconds | ISO 10849, Method 7E |
| NO - Nitric oxide | infrared sensor | 1000ppm|0.1ppm | ± 2ppm absolute or 2% of measured value | 45 seconds | ISO 10849, Method 7E |
| NO - Nitric oxide | infrared sensor | 5000ppm|1ppm | ± 2ppm absolute or 2% of measured value | 45 seconds | ISO 10849, Method 7E |
| NO2- Nitrogen dioxide | infrared sensor | 200ppm|1ppm |
± 2ppm absolute or 2% of measured value | 45 seconds | ISO 10849, Method 7E |
| NO2- Nitrogen dioxide | Electrochemical sensor | 1000ppm|1ppm | ± 5ppm absolute or 5% of measured value | 60 seconds | CTM-022 |
| SO2- Sulfur dioxide | infrared sensor | 200ppm|0.1ppm | ± 2ppm sensor or 2% of measured value | 45 seconds | ISO 7935, Method 6C |
| SO2- Sulfur dioxide | infrared sensor | 1000ppm|0.1ppm | ± 2ppm sensor or 2% of measured value | 45 seconds | ISO 7935, Method 6C |
| SO2- Sulfur dioxide | infrared sensor | 5000ppm|0.1ppm | ± 2ppm sensor or 2% of measured value | 45 seconds | ISO 7935, Method 6C |
| H2S - Hydrogen sulfide | Electrochemical sensor | 1000ppm|1ppm | ± 5ppm absolute or 5% of measured value | 70 seconds |
|
| H2- Hydrogen gas | Electrochemical sensor | 2000ppm|1ppm | ± 10ppm absolute or 5% of measured value | 50 seconds |
|
| H2- Hydrogen gas | Electrochemical sensor | 20000ppm|1ppm | ± 10ppm absolute or 5% of measured value | 70 seconds |
|
| H2- Hydrogen gas | Thermal conductivity sensor | 10% | 0.1% | ± 0.5% absolute or 5% of measured value | 45 seconds |
|
| H2- Hydrogen gas | Thermal conductivity sensor | 25% | 0.1% | ± 0.5% absolute or 5% of measured value | 45 seconds |
|
| H2- Hydrogen gas | Thermal conductivity sensor | 50% | 0.1% | ± 0.5% absolute or 5% of measured value | 45 seconds |
|
| H2- Hydrogen gas | Thermal conductivity sensor | 100% | 0.1% | ± 0.5% absolute or 5% of measured value | 45 seconds |
|
| N2O - Laughing gas | infrared sensor | 2000ppm|1ppm | ± 1ppm absolute or 2% of measured value | 45 seconds | ISO 21258 |
CHF3- Fluoroform |
infrared sensor | 2.5% | 0.01% | ± 0.2% absolute or 2% of measured value | 45 seconds | (Coolant R23) |
|
VOC Volatile Organic Compounds |
PID photoelectric sensor | 100ppm|1ppm | ± 5ppm absolute or 5% of measured value | 120 seconds | Method 21 |
|
VOC Volatile Organic Compounds |
PID photoelectric sensor | 1000ppm|1ppm |
± 5ppm absolute or 5% of measured value | 120 seconds | Method 21 |
Other measurement results:
| variable | mode | Range | Resolution | accuracy | Time (T90) |
| Tgas- Smoke temperature | K-type thermocouple | -10 ÷ 1000°C | 0.1°C | ± 2°C | 10 seconds |
| Tgas- Smoke temperature | S-type thermocouple | -10 ÷ 1500°C | 0.1°C | ± 2°C | 10 seconds |
Tamb–Boiler input air temperature |
PT500 Resistance Sensor | -10 ÷ 100°C | 0.1°C | ± 2°C | 10 seconds |
| partial pressure | Silicon piezoresistive pressure sensor | -25hPa÷+25hPa|1Pa(0.01hPa) |
± 2Pa absolute or 5% of the measured value | 10 seconds |
| Smoke velocity | With the help of PitoTube and pressure sensor |
1 ÷ 50m/s | 0.1m/s | 5% of absolute or measured value at 0.3m/s | 10 seconds |
L λ - excess air quantity |
Calculated | 1 ÷ 10 | 0.01 | ± 5% of the measured value | 10 seconds |
| QA - Chimney loss | Calculated | 0 ÷ 100% | 0.1% | ± 5% of the measured value | 10 seconds |
| Eta η - combustion efficiency | Calculated | 0 ÷ 120% | 0.1% | ± 5% of the measured value | 10 seconds |
| IL - Incomplete combustion | Calculated | 0 ÷ 100% | 0.01% | ± 5% of the measured value | 10 seconds |
Product Features
●Up to 6 infrared sensors and 3 electrochemical sensors.
●Used in conjunction with the professional flue gas pre processor - PGD-100.
●Industrial grade computer with Windows 10 operating system.
●Large size, high-resolution VGA (640x480), color display with touchpad.
●Calculate all combustion parameters such as chimney loss, combustion efficiency, excess air coefficient, dew point temperature, and more.
●Communicate with the computer through RS485 and Ethernet/WIFI interfaces.
●Two USB ports are used to connect commercial external devices (mouse, keyboard) and Photon accessories (analog output/input).
●Optional additional components: Analog output (8 channels), Analog input (8 channels) module.
●Optional portable printer, database for customer and object information.
●The results stored in the database - can be viewed in chart format for the entire measurement period, create measurement reports, export data to CSV files, and more.
●Advanced algorithm controls the operation of the analyzer, including preheating, cross sensitivity value compensation, response time, and all other parameters that affect quality and performance.
●Measurement of various additional parameters: temperature (environment, smoke), pressure (atmosphere, pressure difference), flow rate (with the help of pitot tubes), flow control through equipment, and so on.
●Dual thermal stability: The stability of the entire shell and each individual infrared sensor provides the best thermal stability (accuracy of 0.01 ° C), short preheating time (≤ 30 minutes), and the best infrared sensor accuracy.
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