Global ETD Search

81	Predicting the ultimate axial resistance of single driven piles Brown, Rollins Patrick 17 March 2011 (has links) Not available / text Soil mechanics--Mathematical models California--Dept. of Transportation
82	Evolutionary optimisation of industrial systems 梁慧敏, Leung, Wai-man, Wanthy. January 1999 (has links) published_or_final_version / abstract / Industrial and Manufacturing Systems Engineering / Doctoral / Doctor of Philosophy Genetic algorithms.
83	Internet inter-domain traffic engineering and optimizatioon Lam, Fung, 林峰 January 2001 (has links) published_or_final_version / Electrical and Electronic Engineering / Master / Master of Philosophy BGP (Computer network protocol) Traffic engineering - Data processing.
84	Dispatching vs. nondispatching of trucks at open-pit mines Ibarra Navarro, Miguel Angel January 1980 (has links) No description available. Strip mining -- Equipment and supplies. Trucks -- Cost of operation.
85	Electrical circuit simulation of traffic flow Furber, Conan Paul, 1936- January 1973 (has links) No description available. Traffic flow -- Mathematical models.
86	Reclamation of canal seepage affected land Millette, Denis January 1989 (has links) Deep interceptor drains are commonly used to control canal seepage in southern Alberta, Canada. Recently, shallow grid drainage was introduced. A study was initiated in 1987 to assess the effectiveness of grid drainage to intercept canal and natural groundwater seepage and reclaim the resulting saline affected land. / Using a groundwater flow model, MODFLOW, it was found that a single deep interceptor drain would have failed to intercept all canal seepage and maintain the water table downslope of the canal below the 1.0 m design water table depth. Conversely, simulations indicated that with a grid drainage system, all canal and natural groundwater seepage would be intercepted and the water table would remain below the design water table depth, with or without irrigation recharge that would maintain a steady state salt balance. / The benefits of fall irrigation were demonstrated using three test plots near the canal. Reclamation of land -- Alberta. Irrigation canals and flumes -- Alberta. Seepage.
87	Unsteady simulations of mixing and combustion in internal combustion engines Sone, Kazuo 08 1900 (has links) No description available. Internal combustion engines Eddies Simulation methods Spark ignition Fuel systems
88	Numerical modeling of waste incineration in dump combustors Arunajatesan, Srinivasan 12 1900 (has links) No description available. Incineration Environmental aspects
89	Partially restrained composite connections : design and analysis of a prototype structure Kahle, Matthew Gilbert 12 1900 (has links) No description available. Materials Dynamic testing Earthquake engineering Building, Iron and steel Joints
90	Numerical simulation of flow around vertical cylinders Ou, Zhiliang January 2007 (has links) Local scour around bridge piers can cause serious damages and structural failure to the bridge. Correct prediction of the scour is an important criterion for the engineering design. Though the subject has been investigated for many decades, the theoretical developments have been very limited due to the complicated interaction of three-dimensional flow and the sediment transport. This thesis concerns the flow around a vertical bottom mounted cylinder exposed to currents and is considered as the initial phase of a study towards modeling local scour around vertical bottom-mounted structures. The aim of the present study is to obtain a better understanding of the complex three-dimensional flow and the mechanisms related to the scouring. The study started with the development of a three-dimensional numerical model to simulate flow around cylindrical structures. After validation of the model, the model was applied to investigate flow around an isolated rectangular cylinder. Unsteady flows around cylinders of a square cross section (A/D = 1) and a rectangular cross section (A/D = 2) were simulated to understand the flow properties around a cylinder other than a circular cross section. Three-dimensional flow patterns, pressure distribution, forces on the cylinder and vortex-shedding frequencies were discussed. It was found that the present numerical results generally agree well with the experimental data. Flow around a vertical cylinder mounted on a rigid bed was then investigated by the numerical model. A circular and a square cross sections were considered respectively. Flow structures of horseshoe vortex and the wake vortex which are the major mechanisms leading to the scouring around the base of the vertical cylinder were explored. The bed shear stress distributions that directly affect the scour processes were discussed. Finally the numerical model was applied to study the flow around a submerged square cylinder mounted on a bed, which has significant engineering relevance to the local scour around structures, such as bridge pier foundation itself, or a caisson placed underwater around the pier bottom for scour protection. The numerical calculations were carried out at different cylinder heights to investigate the effect of the cylinder height on the flow properties. It was found that for submerged cylinders with the height of less than one and a half of the cylinder side width the maximum bed shear stress amplification is about 60% of the value of an infinite long cylinder. The quantification of the shear stress reduction is important for scour protection design. Fluid mechanics Cylinders -- Hydrodynamics Numerical simulation Flow cylinder

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