Enviro - Model IR-GAS-600P - Syngas and Gasification Analyzers
Our Syngas Analyzers and Gasification Analyzers high-stability infrared detector for the simultaneous measurement of CO, CO2, and CH4. These gases are suitable for challenging applications such as syngas and gasification atmospheres. In addition, analyzers may use a compensated thermal conductivity cell for H2. Electrochemical O2 sensors may also measure percent levels of oxygen in the sample gas stream.
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Products Details
- IR-GAS-600P Portable Syngas Analyzers
- IR-GAS-600 Online Syngas Analyzer
O2%+CO%+CO2%+CH4%+CnHm%+H2% All measurement in one unit
What is Syngas and Gasification ?
Syngas is a fuel gas created by the conversion of various combustible feedstock, such as coal, wood chips and agricultural waste. It is typically made through a thermal process known as gasification in which biomass or other carbon-containing materials are heated in an oxygen-free environment to produce flammable gases that can be used to generate energy. Gasification is a clean, efficient way to turn biomass into energy, reducing the amount of air pollution caused by burning fossil fuels and creating fewer greenhouse gas emissions. Furthermore, it provides an inexpensive and reliable source of renewable power that can be used to supplement existing electricity generation capabilities. In addition, syngas can be converted into liquid fuels such as methanol and diesel, providing a potential transportation fuel that is less carbon-intensive than gasoline.
Syngas is composed of carbon monoxide (CO), hydrogen (H2), and methane (CH4) gases. It can be used to generate electricity through combustion in a gas turbine or engine, or it can be converted into liquid fuels such as methanol and diesel. Syngas can also be used to produce chemicals, fertilizers and other industrial products. Gasification is an efficient process that can use a variety of feedstock including coal, biomass, construction waste and other materials, making it a versatile technology that can help reduce reliance on fossil fuels while providing clean energy.
Syngas is a valuable resource in the production of energy and chemicals. The most common application is as a source of heat or electricity through combustion, but it can also be used to produce liquid fuels such as methanol or ethanol, as well as fertilizers, plastics, and other synthetic materials.
The process of producing syngas is known as gasification, and it can be done using a variety of feedstocks, including coal, biomass, and waste. Gasification is a thermal process that breaks down the molecules of the feedstock into carbon monoxide (CO) and hydrogen (H2).
There are several benefits to using syngas as a fuel source. It’s more efficient than traditional fossil fuel sources, produces fewer emissions and pollutants, and is more cost-effective over time. Additionally, gasification can help to reduce the amount of waste that needs to be disposed of, as it can convert both solid and liquid organic materials into useful energy.
Syngas can be used in a number of different ways, depending on its composition. If it’s mostly CO, it can be used in a process called synthesis to produce methanol, which can then be turned into gasoline or other fuels. If the syngas is mostly H2, it can be combusted to produce electricity, or used in a fuel cell to create a power source with no emissions.
There are many potential applications for syngas, and it’s an important part of the future of energy production. As we move away from traditional fossil fuels, gasification will play a key role in providing the world with clean, renewable energy.
IR-GAS-600 Continuous Industrial Syngas Analyzers and Gasification Analyzers
This model high-stability infrared detectors for simultaneously measuring CO, CO2, and CH4. H2 always reads correctly, independent of the background gas composition. An optional non-depleting paramagnetic sensor can be used to conduct O2 analysis. All sensors/detectors are temperature-controlled or temperature-compensated for maximum analytical stability.
Both types of analyzers are available with analysis of:
- Carbon Monoxide (CO) via infrared detector
- Carbon Dioxide (CO2) via infrared detector
- Oxygen (O2) via electrochemical sensor or optional paramagnetic
- Methane (CH4) via infrared detector
- Hydrogen (H2) via thermal-conductivity detector
the hydrogen reading is actively compensated for analytical interferences from CO / CO2 / CH4. This enables us to combine the durability of a thermal-conductivity detector while retaining the functional accuracy of a multi-gas instrument.
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