An Experimental Study of NO[subscript X] Formation in Monodisperse Fuel Spray Combustion PDF Download
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Author: Ahtisham Ahmad Nizami
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Category :
Languages : en
Pages : 228
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![An Experimental Study of NO[subscript X] Formation in Monodisperse Fuel Spray Combustion PDF](https://books.google.com/books/content/images/frontcover/Kol9GwAACAAJ?fife=w80-h100)
Author: Ahtisham Ahmad Nizami
Publisher:
ISBN:
Category :
Languages : en
Pages : 228
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Book Description
Author: Ahtisham Ahmad Nizami
Publisher:
ISBN:
Category : Combustion
Languages : en
Pages : 228
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Category :
Languages : en
Pages : 2
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Languages : en
Pages : 12
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Batch combustion experiments were performed in a small bubbling fluidized-bed reactor with the objective of establishing the cause of reduced NO(subscript x) emissions from pressurized fluidized bed combustion (PFBC). All variables except for pressure were kept constant in the experiments: fuel batch size, for example, was the same in experiments performed at three pressure levels (0.2, 1 and 2 MPa). Two different types of experiments were conducted: one using air diluted with nitrogen (4.5% O2) for the purpose of determining the conversion of fuel N to NO(subscript x), and the other with NO-doped diluted air (800 ppM NO, 4.5% O2) for the purpose of determining the reduction of bulk-gas NO(subscript x) by the burning fuel. A large excess of combustion air was used in all experiments so as to keep the bulk-gas composition relatively unchanged by combustion products. Six different fuels were studied: a bituminous coal, coke prepared from the same coal, three specialty cokes (one of which contained 10 wt % N) and graphite (0%N). The straight-air combustion experiments showed that the conversion of fuel-N to NO(subscript x) dropped with increasing pressure (at constant fuel concentration in the bed). The NO-doped combustion experiments showed significantly increased NO(subscript x) reduction with increased pressure. This effect was particularly strong between 0.2 and 1 MPa, and was found to continue between 1 and 2 MPa for some of the fuels but too saturate for others. These results imply that an important phenomenon for low PFBC NO(subscript x) emission is the reaction of NO(subscript x) with reducing N-containing species at the burning fuel surfaces. A simple kinetic model involving parallel paths for the fuel-N is suggested as an interpretation of the results. The NO-doped experiments showed increased N2O formation relative to the straight-air experiments implying that N2O was a byproduct of the NO(subscript x) reduction reaction where N2 was the main product.
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Languages : en
Pages : 20
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NO(subscript x) recycle is one part of the NOXSO process. In this process, 90% of the acid pollutants (NO(subscript x) and SO2) can be removed simultaneously by adsorption on the surface of a PO sorbent material. The sorbent is subsequently regenerated by heating and contacting the hot sorbent with a reducing gas followed by steam. The NO(subscript x) is removed in the heating process, and the SO2 is removed by the chemical reaction of the reducing gas and steam. The NO (subscript x) stream produced is returned to the combustion process with combustion air, which is called the NO(subscript x) recycle. The NO(subscript x) is reduced in the flame to N2, H20, and CO2. NO(subscript x) recycle will be implemented at the full-scale commercial demonstration plant at Niles. The concept of NO(subscript x) recycle has been tested previously at DOE-Pittsburgh Energy Technology Center (PETC) using a 500 lb/hr coal combustor used for the 3/4 MW tests and also using a tunnel furnace capable of being fired with a variety of fuels including gas, fuel oil, coal, and coal-water mixtures. The results were very promising and demonstrated the destruction of NO(subscript x) compounds when fed to the combustion system. The data also indicate that the extent of NO(subscript x) reduction is determined by the location of the NO(subscript x) injection and the combustor design. This current project is pilot-scale testing of NO(subscript x) destruction mechanisms and to help with the implementation at the Niles station.
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ISBN:
Category :
Languages : en
Pages : 20
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NO(subscript x) recycle is one part of the NOXSO process. In this process, 90% of the acid pollutants (NO(subscript x) and SO2) can be removed simultaneously by adsorption on the surface of a PO sorbent material. The sorbent is subsequently regenerated by heating and contacting the hot sorbent with a reducing gas followed by steam. The NO(subscript x) is removed in the heating process, and the SO2 is removed by the chemical reaction of the reducing gas and steam. The NO (subscript x) stream produced is returned to the combustion process with combustion air, which is called the NO(subscript x) recycle. The NO(subscript x) is reduced in the flame to N2, H20, and CO2. NO(subscript x) recycle will be implemented at the full-scale commercial demonstration plant at Niles. The concept of NO(subscript x) recycle has been tested previously at DOE-Pittsburgh Energy Technology Center (PETC) using a 500 lb/hr coal combustor used for the 3/4 MW tests and also using a tunnel furnace capable of being fired with a variety of fuels including gas, fuel oil, coal, and coal-water mixtures. The results were very promising and demonstrated the destruction of NO(subscript x) compounds when fed to the combustion system. The data also indicate that the extent of NO(subscript x) reduction is determined by the location of the NO(subscript x) injection and the combustor design. This current project is pilot-scale testing of NO(subscript x) destruction mechanisms and to help with the implementation at the Niles station.
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Category :
Languages : en
Pages :
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Author:
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Category :
Languages : en
Pages : 21
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NO(subscript x) recycle is one part of the NOXSO process. In this process, 90% of the acid pollutants (NO(subscript x) and SO2) can be removed simultaneously by adsorption on the surface of a sorbent material. The sorbent is subsequently regenerated by heating and contacting the hot sorbent with a reducing gas followed by steam. The NO(subscript x) is removed in the heating process, and the SO2 is removed by the chemical reaction of the reducing gas and steam. The NO(subscript x) stream produced is returned to the combustion process with combustion air, which is called the NO(subscript x) recycle. The NO(subscript x) is reduced in the flame to N2, H2O, and CO2. The tests of NO injection with combustion have demonstrated very promising results. The test data showed quite consistent NO(subscript x) reduction efficiencies, which is similar to the previous test results on the pulverized coal combustor at DOE-PETC. An average of about 70 % NO. destruction efficiency was achieved for the NO injection into the primary air duct independent of injected NO flow rates and exit 02 concentrations. About 58%, 50%, and 46% average destruction efficiencies were obtained for the NO injection into the secondary air duct corresponding to the exit O2concentrations of 2%, 3%, and 4% respectively.
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Category :
Languages : en
Pages : 6
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With the enactment of the Clean Air Act Amendments of 1990, there is now additional incentive for the development of gas turbine systems with very low NO(subscript x) emissions characteristics. Further, the development of low NO(subscript x) burners that are capable of utilizing low-heating-value gases derived from coal based systems is an essential component for a number of fossil energy technologies including IGCC and second-generation PFBC. However, the chemistry associated with NO(subscript x) formation is complicated, and attempts to reduce these emissions often result in increases in other undesirable species such as CO or N2O. In view of these complexities, it is useful to study NO(subscript x) formation and NO(subscript x) control strategies in a well-controlled, lab-scale burner system. In this way, detailed knowledge about the intricate interrelationships between the various chemical pathways can be obtained and subsequently applied to bench-scale and larger systems. The current project involves both chemical kinetic modeling as well as experimental studies performed in a premixed burner system to generate these data.
Author: Fredrik Ree Westlye
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Category :
Languages : en
Pages :
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