Catalytic Fabric Filtration For Simultaneous No Subscript X And Particulate Control Quarterly Technical Progress Report January 1 March 31 1993
Download Catalytic Fabric Filtration For Simultaneous No Subscript X And Particulate Control Quarterly Technical Progress Report January 1 March 31 1993 PDF/ePub or read online books in Mobi eBooks. Click Download or Read Online button to get Catalytic Fabric Filtration For Simultaneous No Subscript X And Particulate Control Quarterly Technical Progress Report January 1 March 31 1993 book now. This website allows unlimited access to, at the time of writing, more than 1.5 million titles, including hundreds of thousands of titles in various foreign languages.
Catalytic Fabric Filtration for Simultaneous NO(subscript X) and Particulate Control. Quarterly Technical Progress Report, January 1--March 31, 1993
The objective of this program is to develop advanced concepts for the removal of NO(subscript x) from flue gas emitted by coal-fired utility boilers, or for the control of NO(subscript x) formation by advanced combustion modification techniques. Funded projects are required to focus on the development of technology that significantly advances the state of the art using a process or a combination of processes capable of reducing NO(subscript x) emissions to 60 ppM or less. The concept must have successfully undergone sufficient laboratory-scale development to justify scaleup for further evaluation at the pilot scale (not to exceed 5 MWe in size). Other requirements include production of a nonhazardous waste or a salable by-product. The concept should have application to both new and retrofit coal-fired systems and show the potential for a 50% cost savings when compared to a commercial selective catalytic reduction (SCR) process capable of meeting the 60-ppM NO(subscript x) emission limit. The EERC approach to meeting the program objective involves the development of a catalytic fabric filter for simultaneous NO(subscript x) and particulate control. The NO(subscript x) is removed by catalytic reduction with ammonia to form nitrogen and water. The catalyst employed at this time is vanadium/titanium, but the exact catalyst composition and the unique method of applying the catalyst to high-temperature glass fabric are the property of OCF. Other catalyst options are being evaluated by OCF in order to improve catalyst performance and minimize catalyst cost.
Catalytic Fabric Filtration for Simultaneous NO(subscript X) and Particulate Control. Quarterly Technical Progress Report, January 1--March 31, 1992
The objective of this program is to develop advanced concepts for removal of NO(subscript x) from flue gas emitted by coalfired utility boilers, or for the control of NO(subscript x) formation by advanced combustion modification techniques. Funded projects are required to focus on the development of technology that significantly advances the state of the art using a process or a combination of processes capable of reducing NO(subscript x). emissions to 60 ppM or less. The concept must have successfully undergone sufficient laboratory-scale development to justify scaleup for further evaluation at the pilot scale (not to exceed 5 MWe in size). Other requirements include production of a nonhazardous waste or a salable byproduct. The concept should have application to both new and retrofit coal-fired systems. The concept should also show the potential for a 50% cost savings when compared to a commercial selective catalytic reduction (SCR) process capable of meeting the 60-ppM NO(subscript x) emission limit.
Catalytic Fabric Filtration for Simultaneous NO(subscript X) and Particulate Control. Quarterly Technical Progress Report, January 1, 1994--March 31, 1994
The North Dakota Energy & Environmental Research Center (EERC) approach to removing NO(subscript x) from flue gas emitted by coal-fired utility boilers or for the control of NO(subscript x) formation by advanced combustion techniques involves the development of a catalytic fabric filter (CFF) for simultaneous NO(subscript x) and particulate control. The NO(subscript x)is removed by catalytic reduction with ammonia to form nitrogen and water. Bench-scale experimental results have shown that over 90% NO(subscript x) removal can be achieved. This report details the strengths and areas for for development in this project.