LSS2004 is a laser-based backscatter particulate monitor that is designed to measure dust loading of combustion exhaust gas stream, It can be used in the emission gas monitoring system .
| Principle | Optical backscatter of light from a red Laser |
| Measuring object | Particles in the gas steam |
| Physical Characteristics | Material : Mental |
| Optical head Dimensions : 185×160×160mm (L×W×H) | |
| Flange : inner dia. Ø 65mm | |
| Purge blower pipe : Ø 40mm | |
| Physical Weights : 2kg | |
| Degree of Protection : IP66 | |
| Optical Characteristics | Laser Diode, (650 ±20)nm, 10mW |
| Measuring Characteristics | Range : (0~100, 500, 1000, 2000, 10000)mg/m3, Selectable |
| Zero Drift : ±2%FS/24hr | |
| Span Drift : ±2%FS/24hr | |
| Repeatability : ±2%FS | |
| Response Time : ≤ 10S | |
| Measuring Length :(0.5~20)M | |
| Power Requirements | DC 9~24V/ |
| Ambient Condition | -20ºC~+50ºC |
| Output | Analog output : (4~20)mA |
| Digital output : RS485 |
LSS2004 is a laser-based backscatter particulate monitor that is designed to measure dust loading of combustion exhaust gas stream. The electrical output from the LSS2004 is proportional to the light scatted back from the particles in the gas stream .The high stable laser signal source projected into the gas flue and those particles can reflect the light whose intensity is proportional to the dust content of the gas stream. The LSS2004 receives the weak laser signal which is reflected by particles, then calculates the concentration of dust by specific algorithm.
Applications
Specifications
| Principle | Optical backscatter of light from a red Laser |
| Measuring object | Particles in the gas steam |
| Physical Characteristics | Material : Mental |
| Optical head Dimensions : 185×160×160mm (L×W×H) | |
| Flange : inner dia. Ø 65mm | |
| Purge blower pipe : Ø 40mm | |
| Physical Weights : 2kg | |
| Degree of Protection : IP66 | |
| Optical Characteristics | Laser Diode, (650 ±20)nm, 10mW |
| Measuring
Characteristics |
Range : (0~100, 500, 1000, 2000, 10000)mg/m3, Selectable |
| Zero Drift : ±2%FS/24hr | |
| Span Drift : ±2%FS/24hr | |
| Repeatability : ±2%FS | |
| Response Time : ≤ 10S | |
| Measuring Length :(0.5~20)M | |
| Power Requirements | DC 9~24V/ |
| Ambient Condition | -20ºC~+50ºC |
| Output | Analog output : (4~20)mA |
| Digital output : RS485 |
Measuring carbon dioxide (CO2) is important for understanding the role it plays in the environment and its effect on climate change. CO2 is a major component of Earth’s atmosphere, and it traps heat like a blanket, causing global temperatures to rise. Too m uch CO2 can lead to drastic changes in our weather patterns and ecosystems, so monitoring its levels is essential for predicting future climate conditions. Additionally, measuring CO2 can help us better understand our impact on the environment and make informed decisions about how to reduce emissions and slow down down down down down global warming. By analyzing CO2 data over time, we can develop strategies to mitigate the effects of climate change and ensure a sustainable future.
Before industrialization, the global average annual atmospheric carbon dioxide concentration was 278ppm (1ppm is one part per million). In 2012, the global annual average atmospheric carbon dioxide concentration was 393.1ppm. By April 2014 , the monthly average carbon dioxide concentration in the northern hemisphere atmosphere exceeded 400ppm for the first time. . 2. Global climate warming, the continuous aggravation of the atmospheric greenhouse effect leads to global climate warming, resulting in a series of global climate problems that cannot be predicted by today’s science. According to the International Climate Change Economics Report, if human beings maintain the current way of life, by 2100, there will be a 50% chance that the global average temperature will rise by 4°C.
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