Compact Portable Syngas Analyzer Built In Battery High Accuracy

Portable Syngas Analyzer for H2 Heating Value biomass gasifications steel making process applications

A portable syngas analyzer for hydrogen (H2) is a compact and handheld instrument specifically designed for on-site or field measurements of H2 concentrations in syngas. It allows users to quickly and conveniently analyze the H2 content in syngas at various locations.

Here are some important features and considerations of a portable syngas analyzer for H2:

1. Measurement Principle: The analyzer utilizes a specific measurement principle to detect and quantify the concentration of H2 in syngas. Common techniques used in portable H2 analyzers include thermal conductivity and electrochemical sensors.

- Thermal Conductivity: Thermal conductivity-based analyzers measure the difference in thermal conductivity between the target gas (H2) and a reference gas (usually a non-reactive gas). The change in thermal conductivity is used to determine the H2 concentration in the syngas.

- Electrochemical Sensors: H2 electrochemical sensors operate through a chemical reaction that generates an electrical signal proportional to the H2 concentration. They provide fast response times and are commonly used for H2 analysis.

2. Measurement Range and Sensitivity: The portable syngas analyzer for H2 should cover a suitable measurement range to accommodate the expected H2 concentrations in syngas. The measurement range should be selected based on the specific application requirements, ensuring accurate measurements across both high and low H2 concentrations.

3. Portability and Ergonomics: The portable analyzer should be lightweight, compact, and designed for easy handling in the field. It should feature a rechargeable battery or extended operating time to facilitate continuous operation during measurements. Additionally, the instrument should have a user-friendly interface for intuitive operation and data interpretation.

4. Sample Conditioning: To ensure accurate H2 measurements, the analyzer may include a sample conditioning system to remove any moisture, particulate matter, or other contaminants that could interfere with the analysis. Sample conditioning ensures that the gas sample is appropriately prepared and conditioned before the H2 concentration is determined.

5. Data Storage and Connectivity: The portable analyzer may have built-in data storage capabilities to store measurement results for later retrieval and analysis. It may also offer connectivity options such as USB data transfer to a computer or other devices for further analysis or reporting purposes.

6. Calibration and Maintenance: Regular calibration is crucial to maintain the accuracy and reliability of H2 measurements. The analyzer should provide calibration features that allow users to calibrate the instrument using calibration gases or certified standards. Consideration should also be given to ease of maintenance and availability of replacement parts or consumables for long-term operation.

7. Durability and Portability: It should be built to withstand industrial environments and be easily transportable.

8. Calibration and Maintenance: Check if the analyzer has a straightforward calibration process and inquire about maintenance requirements.

Portable syngas analyzers for H2 are valuable tools for applications such as field inspections, process monitoring, safety assessments, and hydrogen production and utilization processes. They provide real-time information, enabling quick decision-making and efficient monitoring of H2 levels in syngas.

O2%+CO%+CO2%+CH4%+CnHm%+H2% All measurement in one unit

Applications

• coal chemical process
• steel making process as blast furnace, converter, coking, direct iron
• ore smelting reduction
• syngas production from Biomass and coal gas gasification processes