HYDROLOGY & HYDRAULIC ENGINEERING I LABORATORY REPORT 3 TITLE : BERNOULLI’S THEOREM APPARATUS NAME : ID. NO. : SECTION : 02 EXPERIMENT DATE : 10th December 2009 SUBMISSION DATE : 17th December 2009 GROUP NO. : 2 GROUP MEMBERS : LECTURER : LAB INSTRUCTOR : TABLE OF CONTENT Content | Page | Summary | 2 | Objective | 2 | Theory | 3 - 5 | Equipment/ description of experimental apparatus | 6 | Procedure | 6 | Data and observation | 6a | Analysis | 7‚8
Premium Fluid dynamics Pressure
Numerical Simulation of Marangoni-Driven Boundary Layer Flow Over a Flat Plate with an Imposed Temperature Distribution Abstract: A numerical algorithm is presented for studying Marangoni convection flow over a flat plate with an imposed temperature distribution. Plate temperature varies with x in the following prescribed manner: where A and k are constants. By means of similarity transformation‚ the original nonlinear partial differential equations of flow are transformed to a pair of nonlinear
Premium Temperature Thermodynamics Heat
Jet Dyeing Machine Table of contain. |No. |Topic |Page no. | |01 |Jet Dyeing Machine |03 | |02 |Advantages Jet Dyeing Machine |05 | | |Disadvantages Jet
Premium Fluid dynamics Ratio Machine
properties‚ such as buoyancy‚ drag resistance and propulsion. We swimmers are at a constant battle to stay afloat‚ while fighting through the water and propelling ourselves forward‚ and we do so using technique. Buoyancy is the power to float or rise in a fluid. This relates to swimming because when you’re in the water‚ you have to be able stay afloat. Buoyancy is the net upward force acting on the swimmer‚ as the depth of the water increases‚ so does the pressure. The pressure bellow the swimmer is greater
Premium Swimming Force Drag
and separated flows. Disperse flows : those consisting of finite particles‚ drops or bubbles (the disperse phase) distributed in a connected volume of the continuous phase. Separated flows consist of two or more continuous streams of different fluids separated by interfaces. Multiphase modeling There are three ways in which such models are explored: (1) experimentally‚ through laboratory-sized models equipped with appropriate Instrumentation. (2) Theoretically‚ using mathematical equations
Premium Fluid dynamics Viscosity Chemical engineering
ASSIGNMENT 1 Textbook Assignment: “Introduction to the Machinist’s Mate (Surface) Rate” and “Steam Turbines‚” chapters 1 and 2‚ pages 1-1 through 2-32. 1-1. If you are assigned to the M division‚ which of the following terms best describes your rating? 1. General 1-2. A Machinist’s Mate (MM) (Surface) in the M division will most likely maintain which of the following equipment? 4. Propulsion machinery 1-3. As you move up the promotion ladder to MM3 and then to MM2‚ your technical
Premium Pumps Gear Suction
pressure distribution with incidence. Apparatus: This experiment uses a pressure tapped aerofoil mounted inside a low speed open return wind tunnel. The pressure tapings are connected to a multi-tube manometer‚ which is also used to measure the dynamic pressure. Students should check and record all the connections on the multitube manometer. Procedure: 1. Level and adjust the multitube manometer in the vertical position with the indicator registering 90 ‚ then incline it to approximately 40
Premium Aerodynamics Fluid dynamics Angle of attack
Handbuch der chemisch-technischen Apparate‚ SpringerVerlag‚ Berlin‚ 1934-1939. 6. W.J. Mead‚ Encyclopedia of Chemical Process Equipment‚ Reinhold‚ New York‚ 1964. 7. S. Nagata‚ Mixing Principles and Applications‚ Wiley‚ New York‚ 1975. 8. J.Y. Oldshue‚ Fluid Miring Technology‚ McGraw-Hill‚ New York‚ 1983. 9. E.R. Riegel‚ Chemical Process Machinery‚ Reinhold‚ New York‚ 1953. 10. Z. Sterbacek and P. Tausk‚ Miring in the Chemical Industry‚ Pergamon‚ New York‚ 1965. 11. J.J. Ulbrecht and G.K. Patterson‚ Mixing
Premium Viscosity Velocity Fluid dynamics
PRODUCTION OF POTASSIUM CARBONATE FROM COCOA HUSK ASH A Process Engineering Project Report Presented to the Department of Chemical Engineering Faculty of Chemical and Materials Engineering College of Engineering Kwame Nkrumah University of Science and Technology‚ Kumasi By AMANING OSEI EMMANUEL ATTIPOE EDEM KODZO BOAKYE KWAME JUWAH CHUKWUJINDU AWELE OMENOGOR ANWULI ROSEMARY in Partial Fulfillment of the Requirements for the course Process Engineering Project April 2013. TABLE
Premium Fluid dynamics Volumetric flow rate Mass flow rate
American Society of Civil Engineers‚ New York. Bakhmeteff‚ B.A.‚ Matzke‚ A.E.‚ 1936. The hydraulic jump in terms of dynamic similarity. Transactions‚ ASCE 101‚ 630–647. Balachandar‚ R.‚ Kells‚ J.A.‚ Thiessen‚ R.J.‚ 2000. The effect of tailwater depth on the dynamics of local scour. Canadian Journal of Civil Engineering 27 (1)‚ 138–150. Bellin‚ A.‚ Fiorotto‚ V.‚ 1995. Direct dynamic force measurement on slabs in spillway stilling basins. Journal of Hydraulic Engineering‚ ASCE 121 (10)‚ 686–693. Bennett
Premium Hydraulics Fluid dynamics Hydraulic engineering