Global reactor effects on homogenized parameters for nodal diffusion theory analyses of light water reactors

Malo, James Walter

05 1900

No description available.

Diffusion

Light water reactors

Investigation of heat transfer in the core of the Oak Ridge homogeneous reactor

Oliver, Calvin Cleek

08 1900

No description available.

Heat Transmission

Nuclear reactors

Variational estimates of point kinetics parameters

Favorite, Jeffrey Alan

08 1900

No description available.

Nuclear reactors

Neutrons

Very intense continuous high flux pulsed reactor

Narain, Rajendra

12 1900

No description available.

Pulsed reactors

Neutron flux

Feasibility and determination of a binary uranium-zirconium system foruse in pressurized light water reactors

Erwin, Charles S.

12 1900

No description available.

Nuclear reactors

Nuclear fuels

An economic optimization of pressurized light water reactor cores

Pfeifer, Holger

12 1900

No description available.

Pressurized water reactors Cores

Improved rehomogenization techniques for nodal methods

Beal, Craig Rubidge

05 1900

No description available.

Eigenvalues

Nuclear reactors

Exopolysachharide production by submerged culture of the fungus Sclerotium glucanicum

Taurhesia, Shelly

January 1992

No description available.

610.28

Fermentation; Reactors

Catalytic fixed bed membrane reactor operation for hydrocarbon conversion processes

Althenayan, Faisal M., School of Chemical Engineering & Industrial Chemistry, UNSW

January 2006

Dry/CO2 reforming is one the hydrocarbon processes that recently has been interesting due to it is ability of producing a lower synthesis gas ratio (H2/CO). This synthesis gas is a highly significant product since it costs more than 50% of the total capital cost of gas to liquid (GTL) process. However, since this reaction is thermodynamically limited, higher temperature or lower pressure is required to achieve higher conversion. Typically, reaction temperatures between 1073 and 1173 K are used for catalytic dry reforming reactions. Consequently, these extreme temperatures lead to a severe carbon deposition causing a catalyst deactivation which is the major difficulty related to CO2 reforming reaction. This has pushed the efforts to be focused mainly on the development of new catalysts. In fact, dry reforming of propane is an equilibrium-limited reaction which can be shifted to the product side by removing one of the products out of the system which can be achieved using a selective membrane reactor. This research is dedicated to investigate and study the catalytic performance of dry reforming of propane over cobalt-nickel catalyst under the temperature range of 773-973 K. This bimetallic catalyst supported on ??-Al2O3 has been utilized in this research since it exhibits better activity, selectivity, and deactivation resistance than monometallic catalysts. Based on this, the primary aims of this thesis are to examine this catalyst and to study the impact of using membrane reactor. In addition, the reaction mechanism and kinetic are investigated using a fixed-bed reactor. Experimental observations have exposed that the catalyst is offering good results under this reaction. The catalysts analysis has confirmed the presence of metal oxides in the catalyst. However, only at a lower carbon dioxide to propane ratio, i.e. lower than 3.5, a carbon signal has been reported. The activation energy study indicates that the process is unlimited by diffusion. The reaction order for propane and carbon dioxide has been found to be zero and 1.17 respectively. This in turn has indicated that C3H8 activation reaction is taking place rapidly and carbon dioxide is suggested to be involved in the rate determining step. In membrane reactor operation, the production rates for H2 and CO have been reported to increase as the sweep gas flow rate increases. The co-current mode offers higher production rate and more stability than counter-current mode over the range of feed ratio. On the other hand, fixed bed reactor shows stable performance and produces more CO and H2 for both modes.

Membrane reactors

Catalysts

Hydrocarbons

Devolatilisation and volatile matter combustion during fluidised-bed gasification of low-rank coal / by Davide Ross.

Ross, David

January 2000

Bibliography: leaves 234-252. / xxiv, 254 leaves : ill. (some col.) ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / The devolution times of seven coals were determined by measuring the centre temperature response for single particles held stationary in a bench scale atmospheric fluidised-bed reactor. / Thesis (Ph.D.)--University of Adelaide, Dept. of Chemical Engineering, 2000

Coal gasification.

Fluidized reactors