964 resultados para Water-power.
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The lithograph, "General view of lands, tunnel and docks of Niagara River Hydraulic Tunnel, Power and Sewer Company," called for p. [4] in the Index, has been removed and encapsulated, and is shelved separately.
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UANL
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Explica las formas tradicionales de utilizar el viento y la fuerza hidráulica como fuente de energía. Se presentan soluciones y alternativas, y se hace énfasis en hacer conscientes a los jóvenes de las medidas que deben tomarse para asegurar que el mundo sigue siendo para las generaciones futuras.
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Mode of access: Internet.
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Title from cover.
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"Report of the Board of engineers for rivers and harbors": p. 7-19.
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Mode of access: Internet.
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Merged two separate scans, as original sheet has split...
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Mode of access: Internet.
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Mode of access: Internet.
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Mode of access: Internet.
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D Liang from Cambridge University explains the shallow water equations and their applications to the dam-break and other steep-fronted flow modeling. They assume that the horizontal scale of the flow is much greater than the vertical scale, which means the flow is restricted within a thin layer, thus the vertical momentum is insignificant and the pressure distribution is hydrostatic. The left hand sides of the two momentum equations represent the acceleration of the fluid particle in the horizontal plane. If the fluid acceleration is ignored, then the two momentum equations are simplified into the so-called diffusion wave equations. In contrast to the SWEs approach, it is much less convenient to model floods with the Navier-Stokes equations. In conventional computational fluid dynamics (CFD), cumbersome treatments are needed to accurately capture the shape of the free surface. The SWEs are derived using the assumptions of small vertical velocity component, smooth water surface, gradual variation and hydrostatic pressure distribution.