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Gravity waves and wave drag in flow past three-dimensional isolated mountainsMiranda, Pedro Manuel Alberto de January 1990 (has links)
No description available.
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A study of the transport of discrete solids in building drainage systemsCrerar, Scott A. January 1989 (has links)
No description available.
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Adaptive optimization of intelligent flow controlChiu, Kuan-Shiu January 1999 (has links)
No description available.
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Thermal Drainage Flow of a Viscous Gas From a Semi-Sealed Narrow ChannelJanuary 2020 (has links)
abstract: Drainage flow of a viscous compressible gas from a semi-sealed narrow conduit is a pore-scale model for studying the fundamental flow physics of fluid recovery from a porous reservoir without using fluid injection. Thermal effect has been routinely neglected for these flows in the traditional petroleum engineering literature. Since the motion is entirely driven by volumetric expansion, temperature change always accompanies the density change. This thesis examines such thermal effects on the drainage flow.
Thermal drainage flow is first studied by simultaneously solving the linearized continuity, momentum and energy equations for adiabatic walls. It is shown that even in the absence of an imposed temperature drop, gas expansion induces a transient temperature decrease inside the channel, which slows down the drainage process compared to the isothermal model and Lighthill’s model. For a given density drop, gas drains out faster as the initial-to-final temperature ratio increases; and the transient density can undershoot the final equilibrium value. A parametric study is then carried out to explore the influence of various thermal boundary conditions on drainage flow. It is found that as the wall transitions from adiabatic to isothermal condition, the excess density changes from a plane wave solution to a non-plane wave solution and the drainage rate increases. It is shown that when the exit is also cooled and the wall is non-adiabatic, the total recovered fluid mass exceeds the amount based on the isothermal theory which is determined by the initial and final density difference alone. Finally, a full numerical simulation is conducted to mimic the channel-reservoir system using the finite volume method. The Ghost-Cell Navier-Stokes Characteristic Boundary Condition technique is applied at the far end of the truncated reservoir, which is an open boundary. The results confirm the conclusions of the linear theory. / Dissertation/Thesis / Doctoral Dissertation Mechanical Engineering 2020
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Inspection, durability, and risk assessment of highway culvertsAL Tarawneh, Bashar K. January 2005 (has links)
No description available.
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Zpracování studie revitalizace krajiny ve vybraném povodí / Processing a landscape revitalization study in a selected catchmentLEXOVÁ, Veronika January 2018 (has links)
This work deals with the revitalization of the Jenínský stream, the revitalization is mainly focused on the separation of pipes from some parts of the stream. The new track of the stream including a vegetation is proposed at its spring. The revitalization also concerns the drainage system, where a new drainage trail and a retention tank are proposed. For the appropriate design of the flow capacity, drainage of water from the river catchment was calculated and the flow and concentration of the substances in the stream were analyzed. Water, its composition and hydrological cycle are generally described in the literary research. It also explains the collision-draining process and the factors that affect it. Theoretic part deals with the revitalization of watercourses and, lastly, drainage systems are described.
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Zdravotně technické instalace a plynovod v poliklinice / Sanitary technical installations and gas pipeline in the health centerKrálová, Kateřina January 2020 (has links)
The diploma thesis is focused on sanitary installations. Theoretical part is focused on description of flow meters and their categorization and flow measurement. Calculation and project part is about water suplly, sewerage and pipeline in health care center. Building is located in Brno and it is a reconstruction, which is divided into stages. The part of the building, which is solved in this thesis is 5. stage.
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