Catalyctic Reduction of Nitric Oxide by Copper Catalyzed Granular Activated Carbon in the Presence of Oxygen PDF Download
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Author: Shan Xio
Publisher:
ISBN:
Category : Air
Languages : en
Pages : 106
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Book Description
The catalytic reduction of nitric oxides by solid carbonaceous material consisting primarily of granular activated carbon or (GAC) was studied in a fix bed catalytic reactor in order to develop the technology for removing NO and soot simultaneously from diesel engine exhaust. The catalytic activity and conversion of NO as a function of reaction temperature was evaluated as a function of space velocity. The results show that at lean condition and high gaseous hourly space velocity, vis., 50,000 ~ 80,000, Cu-ZSM-5 does not perform as well with CO and GAC as it does with gaseous hydrocarbons(HC). Plain GAC has low activity for NO reduction at high temperature above 550°C under lean condition. However, copper-impregnated GAC has good activity for both NO reduction and carbon oxidation under lean conditions. Actually in presence of 1 to 10% oxygen, the activity and conversion of NO to N2 due to reaction with carbon is enhanced at a lower light off temperature of 350°C. Over 60% conversion was obtained at gaseous hourly space velocity of 50,000 ~ 80,000. Almost 100% conversion was obtained when GHSV was lowered to 20,000. In order to get insight on the mechanism of this reaction, the reduction of NO with CO was studied over various catalysts at the same condition. It was determined that the results are consistent with CO being an intermediate for the reduction of NO with carbon. We also investigated the deactivation of these catalysts. The results show that the presence of SO2 and water poison copper catalysts. For this reason, it is necessary to develop other catalysts for controlling both NOx and soot. This research is part of a NSF project for developing a novel technique to remove NOx soot simultaneously from diesel engines.
Author: Shan Xio
Publisher:
ISBN:
Category : Air
Languages : en
Pages : 106
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Book Description
The catalytic reduction of nitric oxides by solid carbonaceous material consisting primarily of granular activated carbon or (GAC) was studied in a fix bed catalytic reactor in order to develop the technology for removing NO and soot simultaneously from diesel engine exhaust. The catalytic activity and conversion of NO as a function of reaction temperature was evaluated as a function of space velocity. The results show that at lean condition and high gaseous hourly space velocity, vis., 50,000 ~ 80,000, Cu-ZSM-5 does not perform as well with CO and GAC as it does with gaseous hydrocarbons(HC). Plain GAC has low activity for NO reduction at high temperature above 550°C under lean condition. However, copper-impregnated GAC has good activity for both NO reduction and carbon oxidation under lean conditions. Actually in presence of 1 to 10% oxygen, the activity and conversion of NO to N2 due to reaction with carbon is enhanced at a lower light off temperature of 350°C. Over 60% conversion was obtained at gaseous hourly space velocity of 50,000 ~ 80,000. Almost 100% conversion was obtained when GHSV was lowered to 20,000. In order to get insight on the mechanism of this reaction, the reduction of NO with CO was studied over various catalysts at the same condition. It was determined that the results are consistent with CO being an intermediate for the reduction of NO with carbon. We also investigated the deactivation of these catalysts. The results show that the presence of SO2 and water poison copper catalysts. For this reason, it is necessary to develop other catalysts for controlling both NOx and soot. This research is part of a NSF project for developing a novel technique to remove NOx soot simultaneously from diesel engines.
Author: Sayed Naveed Ahmed
Publisher:
ISBN:
Category : Carbon, Activated
Languages : en
Pages : 422
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Book Description
Author: Akitoshi Shiotari
Publisher: Springer
ISBN: 9811045828
Category : Science
Languages : en
Pages : 135
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Book Description
This book provides microscopic insights into chemical properties of NO on metal surfaces. NO/metal systems have been studied intensively to understand heterogeneous catalysis to detox exhaust NOx gas. The identification and componential analysis of various and mixed chemical species of NO adsorbed onto the surfaces have been significant challenges faced by conventional experimental techniques, such as vibrational spectroscopies. The author investigated "individual" NO molecules on Cu surfaces using low-temperature scanning tunneling microscopy (STM). STM not only provides information on the geometric, electronic, and vibrational properties at the single-molecule level; it is also able to manipulate molecules on surfaces to induce chemical reaction. Exploiting those techniques, the author chemically identified individual NO-related species on the surfaces and discovered new reaction processes for NO reduction, which provides microscopic insights into the catalytic mechanisms. The author also visualized wave functions of electrons in a valence orbital of NO and demonstrated that the wave functions are modified by the formation of covalent bonding or hydrogen bonding. This is, namely, "the visualization of quantum mechanics in real space," which is certainly worth reading. Furthermore, the book demonstrates that direct observation of valence orbitals helps to elucidate the reactivity of molecules adsorbed onto surfaces. This innovative approach to studying molecular properties will contribute to further development of STM and its related methods.
Author: Yu Sim Ng
Publisher:
ISBN:
Category :
Languages : en
Pages : 162
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Book Description
Author: Karen Ann Gruber
Publisher:
ISBN:
Category : Nitric oxide
Languages : en
Pages : 164
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Author: Joseph William Ault
Publisher:
ISBN:
Category :
Languages : en
Pages : 180
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Author: Annaprabha Athappan
Publisher:
ISBN:
Category : Carbon, Activated
Languages : en
Pages :
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Book Description
Selective catalytic reduction (SCR) with ammonia for diesel engine NOx reduction using activated carbon (AC) was studied. Comparisons of unmodified and cerium-doped Granular Activated Carbon (GAC), Activated Carbon Fiber (ACF), and Multiwall Carbon Nanotubes (MWCNTs) were conducted. Physical and chemical properties and durability of the catalysts were examined using Scanning Electron Microscope (SEM), Energy Dispersive Spectroscopy (EDS), carbon hydrogen and nitrogen (CHN) analysis, X-ray Diffraction (XRD) analysis, Raman spectroscopy, X-ray Photoelectron spectroscopy (XPS), Thermo gravimetric analysis (TGA), Brunauer-Emmett-Teller (BET) surface area analysis and density analysis. Experiments were carried in a fixed bed column at various temperatures from 100° to 400° C for low concentration NOx (150 ppm) and high concentration NOx (500ppm) at a total flow rate of 200ml/min, NOx/NH3 ratio of 1:1 and oxygen concentration of 5.6%. The stability of the cerium-doped GAC (CeGAC) was studied by conducting a 12-hour steady-state run. It was found that CeGAC has a high reduction efficiency of about 80% at 300°C for low concentration NOx. CeMWCNTs have a high reduction of 85% at 300°C for high concentration NOx. However, the NO oxidation and ammonia slip emission in the exhaust is higher for CeMWCNTs than for other types of catalyst. CeGAC with high space velocity of 30,000 h-1 shows a stable reduction percentage for various temperatures. The 12 hour stability test for CeGAC shows steady-state reduction percentage throughout the test. Reducing the NOx/NH3 ratio to 1:0.9 maintains the reduction percentage and lowers NO oxidation and ammonia slip significantly. This study indicates that CeGAC could be applicable in onboard engines with computerized ammonia injection control systems.
Author: George R. Lester
Publisher:
ISBN:
Category : Automobiles
Languages : en
Pages : 5
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Author: Voravit Pinijpornsawat
Publisher:
ISBN:
Category : Ammonia
Languages : en
Pages : 58
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Book Description
Author: Sang-Eon Park
Publisher: Elsevier Inc. Chapters
ISBN: 0128082356
Category : Science
Languages : en
Pages : 35
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