What does FGR mean in RESEARCH
Flue Gas Recirculation (FGR) is a type of technology that is used to reduce NOx emissions in combustion sources such as boilers. FGR works by recirculating flue gases from the boiler stack, and then mixing them with fresh air and burning them at a lower temperature. This reduces the formation of nitrogen oxide (NOx), which is an atmospheric pollutant. FGR can be used in both new and existing boilers, and can often reduce their emissions by up to 60%.
FGR meaning in Research in Academic & Science
FGR mostly used in an acronym Research in Category Academic & Science that means Flue Gas Recirculation
Shorthand: FGR,
Full Form: Flue Gas Recirculation
For more information of "Flue Gas Recirculation", see the section below.
Essential Questions and Answers on Flue Gas Recirculation in "SCIENCE»RESEARCH"
What is Flue Gas Recirculation?
Flue Gas Recirculation (FGR) is a type of technology that is used to reduce NOx emissions in combustion sources such as boilers. FGR works by recirculating flue gases from the boiler stack, and then mixing them with fresh air and burning them at a lower temperature. This reduces the formation of nitrogen oxide (NOx), which is an atmospheric pollutant.
What types of emissions does FGR reduce?
FGR reduces NOx emissions, which are nitrogen oxide pollutants that are released into the atmosphere from burning fossil fuels or other combustion sources.
In what ways can FGR be used?
FGR can be used in both new and existing boilers, and can often reduce their emissions by up to 60%. Additionally, it can also be used in industrial furnaces or ovens to control air pollution levels.
What are some benefits of using FGR?
Some benefits of using FGR include reducing air pollution levels, increased fuel efficiency, savings on operating costs due to reduced energy consumption, improved reliability of equipment since temperatures are regulated better, and extended lifecycle for equipment since condensation corrosion on heat exchanging surfaces is avoided due to cooler temperatures.
Are there any drawbacks associated with using FGR?
The main drawback associated with using FGR is the increased cost of installation as well as maintenance when compared to other NOx control technologies. Additionally, there may also be a need for additional monitoring systems if combustible materials are present in the flue gas stream being recirculated back into the boiler system.
Final Words:
Flue Gas Recirculation (FGR) technology has been shown to significantly reduce NOx emissions from various combustion sources such as boilers or furnaces, while also providing potential benefits such as improved efficiency and reliability of equipment. However, it should be noted that there may be increased costs associated with its installation and maintenance compared to other emission-reducing technologies.
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