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Greenhouse Gas Analyzer CO2 NDIR Technology CO N2O Methane Gas Analyzer
A greenhouse gas analyzer for carbon dioxide (CO2) is a specialized instrument used to measure the concentration of CO2 gas in the atmosphere or other gas samples. Carbon dioxide is a major greenhouse gas responsible for climate change. Here's an overview of a greenhouse gas analyzer for CO2:
1. Measurement technique: The most common technique used for
measuring CO2 concentration is Non-Dispersive Infrared (NDIR)
spectroscopy. NDIR analyzers emit infrared light at specific
wavelengths that correspond to the absorption bands of CO2. The
analyzer measures the intensity of the transmitted or reflected
light to determine the concentration of CO2 in the sample.
2. Calibration: Greenhouse gas analyzers for CO2 require periodic
calibration using certified reference gases with known
concentrations of CO2. Calibration ensures accurate and reliable
measurements. The analyzer's calibration curve or algorithm is used
to convert the measured light intensity into CO2 concentration
readings.
3. Sample preparation: In most cases, the gas sample does not
require extensive preparation. However, it may be necessary to
remove moisture or other interfering gases to ensure accurate
measurements. Some analyzers have built-in sample conditioning
systems or require external gas handling equipment for sample
preparation.
4. Measurement range and sensitivity: CO2 analyzers typically have
a wide dynamic range to accommodate different concentration levels,
from ambient air levels to high concentrations in industrial or
combustion processes. The sensitivity of the analyzer determines
the lowest detectable concentration of CO2.
5. Output and data analysis: The analyzer provides concentration
readings for CO2, usually reported in parts per million (ppm) or
parts per billion (ppb). The data can be displayed on the
instrument's screen, recorded in internal memory, and/or
transmitted to a data acquisition system for further analysis. Some
analyzers may offer real-time data analysis, data logging, and
remote monitoring capabilities.
6. Maintenance and troubleshooting: Regular maintenance is
important to ensure the accuracy and proper functioning of the CO2
analyzer. This may include sensor cleaning, replacing consumables
(e.g., filters), and verifying calibration. Troubleshooting
procedures for issues such as drift, signal noise, or instrument
errors can typically be found in the instrument's user manual or
provided by the manufacturer's support.
Greenhouse gas analyzers for CO2 are used in various applications,
including atmospheric research, climate change studies,
environmental monitoring, emissions monitoring, indoor air quality
assessment, and agricultural applications. These analyzers play a
critical role in understanding and mitigating the impact of CO2 on
climate change and supporting efforts to reduce greenhouse gas
emissions.
The Greenhouse Gas Analyzer is a tool that enables users to accurately measure and analyze the levels of Carbon Dioxide (CO2), Methane (CH4) and Water Vapor (H2O) in the atmosphere. This device can be utilized for various applications, such as industrial or agricultural research, environmental monitoring, climate change studies and energy efficiency evaluation. The Greenhouse Gas Analyzer is a highly precise and reliable instrument that provides quick, accurate and repeatable results for users. It also has the capability to store data for long-term analysis. With this device, users can easily track greenhouse gas levels in their environment and make informed decisions on how to reduce their carbon footprint.
We mainly use NDIR technology to detect CH4, CO2, CO, N2O gases,due to CO2, CO and CH4 all have obvious characteristic absorption lines in the (3000-5000) nm range, so these gases can be measured simultaneously by infrared spectroscopy
Item | Specifications |
CO Range | (0~100)mg/m3 |
CO2 Range | (0~25)% |
CH4 Range | (0~500)mg/m3 |
N2O Range | (0~100)mg/m3 |
O2 Range | (0~25)% |
Stability | Less than 2% |
Max Flow Rate | 2L/min |
Zero Drift | ±2%F.S.(24 hour) |
Span Drift | ±2%F.S.(24 hour) |