is also known as fluid statics (fluid at rest) within the fluid mechanics field of study. This condition explains that in a stable condition‚ the fluid is at rest. The use of fluid in doing work is known as hydraulics‚ and the science of fluid in motion is known as fluid dynamics. INTRODUCTION The natural nature of fluids are they cannot remain stationary under the application of shear stress. However‚ fluid can apply force normal to any surface contacting it. If the fluid is considered as
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Turbine group member’s duties Team MLP (Tesla turbine) Caleb Fonner * Head of stress analysis * Head of materials analysis Norman Hilliard * Head of fluid system analysis * Helped with stress analysis Jake Schirber * Power * Helped with stress analysis Brian Tiefenthaler * Pro E/CAD designer * Helped with fluid analysis * Helped with stress analysis * Project Discussion The Tesla turbine for MARE 451 Senior Design Capstone Project 1 has been broken up
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• A typical surfer starts at a spot in the water where waves begin to form. They then turn towards the shore. When the surfer sees a wave‚ they paddle towards the beach along with the wave. • When water catches the surfboard‚ the surfer then stands up on the board and soars along the waves crest. • Surfing was discovered first in Hawaii • In 1821‚ surfing was banned by missionaries because they thought it was immoral to surf. • A famous Hawaain swimmer by the name of Duke Kahanamoku Waves
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equations commonly used in fluid mechanics: the Bernoulli equation and the energy equation. The Bernoulli equation is concerned with the conservation of kinetic‚ potential‚ and flow energies of a fluid stream‚ and their conversion to each other in regions of flow where net viscous forces are negligible‚ and where other restrictive conditions apply. The energy equation is a statement of the conservation of energy principle and is applicable under all conditions. In fluid mechanics‚ it is found to
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INTRODUCTION TO AERONAUTICS: A DESIGN PERSPECTIVE CHAPTER 3: AERODYNAMICS AND AIRFOILS “Isn’t it astonishing that all these secrets have been preserved for so many years just so that we could discover them!!” Orville Wright 3.1 DESIGN MOTIVATION The Physics of Aerodynamic Forces Figure 3.1 shows a cross section view of an aircraft wing. A wing cross section like this is called an airfoil. Lines drawn above and below the airfoil indicate how the air flows around it. The
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CEE 320 Fluid Mechanics Lab Head Loss Through a Valve April 24‚ 2012 Abstract This experiment determined the relationship between the head loss through a gate valve and the degree of opening of that valve with varying flow rates. The objective of this experiment was to determine the valve loss coefficient‚ K‚ for a specific gate valve as a function of both the pipe Reynolds Number‚ and the degree of opening. The relationship between the Reynolds Number and the friction factor was
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Properties of Fluids‚ GFC Rogers and YR Mayhew. Only School approved calculators are allowed. Use a separate answer book for each section. If you submit answers to more questions than specified‚ final marks for the examination will be determined using the best marks which satisfy the rubric. - 1 ___________________________________________________________________________ SECTION A A1. (a) Explain the meaning of the terms: One-Dimensional Fluid Flow‚ Steady Fluid Flow‚ and Incompressible Fluid Flow. [15%]
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small horizontal tubes. Int. J. Multiph. Flow 27‚ 1293–1299‚ 2001. Chisholm‚ D.A. Theoretical basis for the Lockhart–Martinelli correlation for two-phase flow. Int. J. Heat Mass Transfer 10‚ 1767–1778‚ 1967. Chisholm‚ D. Pressure gradients due to friction during the flow of evaporating two-phase mixtures in smooth tubes and channels. Int. J. Heat Mass Transfer 16‚ 347–348‚ 1973. Choi‚ B.‚ Fujii‚ T.‚ Asano‚ H.‚ Sugimoto‚ K. A study of gas-liquid twophase flow in a horizontal tube under microgravity.
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Centrifugal pump A centrifugal pump is a rotodynamic pump that uses a rotating impeller to increase the pressure of a fluid. Centrifugal pumps are commonly used to move liquids through a piping system. The fluid enters the pump impeller along or near to the rotating axis and is accelerated by the impeller‚ flowing radially outward into a diffuser or volute chamber (casing)‚ from where it exits into the downstream piping system.[1][2] Centrifugal pumps are used for large discharge through smaller
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Interim report Contents 1. Abstract page 2 2. Introduction page 2 3. How the Process Currently Works page 3 4. Two Phase Flow page 4- 6 5. Flow Patterns page 7- 8 6. Interfacial Mass and Energy Exchange page 9 7. Two Phase Flow in Horizontal Pipes page 10 8. Pressure Drop page 11 9. Future Work page 11 10. Timetable page 12 11. References page 13 1
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