Zobrazeno 1 - 10
of 29
pro vyhledávání: '"James C. Schlatter"'
Autor:
Sarento G. Nickolas, James C. Schlatter, Toshiaki Tsuchiya, Vinod K. Pareek, Kristina D. Cairns, Kenneth W. Beebe
Publikováno v:
Catalysis Today. 59:95-115
Catalytic combustion has demonstrated potential for attaining the firing temperatures of current and next generation gas turbines with nitrogen oxides (NOx) production less than 3 parts-per-million by volume (ppmv), using natural gas fuel. The techno
Autor:
James C. Schlatter, Kenneth W. Beebe, Ralph A. Dalla Betta, Martin Bernard Cutrone, Sarento G. Nickolas, Toshiaki Tsuchiya
Publikováno v:
Catalysis Today. 47:391-398
Catalytic combustion is an attractive technology for gas turbine applications where ultra-low emission levels are required. Recent tests of a catalytic reactor in a full scale combustor have demonstrated emissions of 3.3 ppm NO x , 2.0 ppm CO, and 0.
Autor:
Sarento G. Nickolas, Ralph A. Dalla Betta, Toshiaki Tsuchiya, Kenneth W. Beebe, James C. Schlatter, Yutaka Furuse, Martin Bernard Cutrone
Publikováno v:
Journal of Engineering for Gas Turbines and Power. 119:844-851
The most effective technologies currently available for controlling NOx emissions from heavy-duty industrial gas turbines are either diluent injection in the combustor reaction zone, or lean premixed Dry Low NOx (DLN) combustion. For ultra low emissi
Publikováno v:
Catalysis Today. 26:329-335
A catalytic combustion system has been developed which feeds full fuel and air to the catalyst but avoids exposure of the catalyst to the high temperatures responsible for deactivation and thermal shock fracture of the supporting substrate. The combu
Autor:
F. J. Janssen, E. S. J. Lox, Leo E. Manzer, Mario J. Nappa, K. I. Zamaraev, B. H. Engler, R. A. Dalla Betta, Zarah Ainbinder, V. N. Parmon and, Robert L. Garten, James C. Schlatter
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_________::71e229d0982cf59e396824ded443eea8
https://doi.org/10.1002/9783527619474.ch12
https://doi.org/10.1002/9783527619474.ch12
Autor:
Martin Bernard Cutrone, Kenneth W. Beebe, James C. Schlatter, Ralph A. Dalla Betta, Sarento G. Nickolas, Toshiaki Tsuchiya
Publikováno v:
Volume 2: Coal, Biomass and Alternative Fuels; Combustion and Fuels; Oil and Gas Applications; Cycle Innovations.
Catalytic combustion offers the possibility of attaining the firing temperatures of current and next generation gas turbines [up to ∼1450°C (2640°F)] with nitrogen oxides (NOx) production as low as 1 part per million by volume (ppmv). Such cataly
Autor:
James C. Schlatter, Yutaka Furuse, R. N. Matthews, Toshiaki Tsuchiya, Kenneth W. Beebe, Martin Bernard Cutrone, R. A. Dalla Betta
Publikováno v:
Volume 3: Coal, Biomass and Alternative Fuels; Combustion and Fuels; Oil and Gas Applications; Cycle Innovations.
The most effective technologies currently available for controlling NOx emissions from heavy duty industrial gas turbines are either diluent injection in the combustor reaction zone, or dry low NOx (DLN) combustion, coupled with selective catalytic r
Autor:
James C. Schlatter, Duane A. Smith, Ralph A. Dalla Betta, Mohan K. Razdan, Sorento G. Nickolas
Publikováno v:
Volume 3: Coal, Biomass and Alternative Fuels; Combustion and Fuels; Oil and Gas Applications; Cycle Innovations.
An operating cycle had been developed for a catalytic combustion system applied to the Allison 501-KB7 engine. This cycle used overboard bleed of diffuser air to maintain a high fuel/air ratio at the catalyst and thus achieve a high combustor outlet
Publikováno v:
Volume 3: Coal, Biomass and Alternative Fuels; Combustion and Fuels; Oil and Gas Applications; Cycle Innovations.
A catalytic combustion system has been developed which feeds full fuel and air to the catalyst but avoids exposure of the catalyst to the high temperatures responsible for deactivation and thermal shock fracture of the supporting substrate. The combu
Autor:
James C. Schlatter, Kathleen C. Taylor
Publikováno v:
Journal of Catalysis. 63:53-71
Laboratory studies of the partitioning of CO between NO and O 2 under net lean conditions over the noble metals Ir, Rh, Pt, and Pd showed that over Ir alone is the CO + NO reaction favored over the CO + O 2 reaction. Furthermore, Ir exhibited a parti