Fluid mechanics Rewrite these paragraphs please with clear font LO ABSTRACT uati
ID: 1766834 • Letter: F
Question
Fluid mechanicsRewrite these paragraphs please with clear font
LO ABSTRACT uation when applied to This experiment is aimed at investigating the validity of Bernoulli's eq (Bernoulli's theorem, 2011) relates the pressure, steady, or laminar a steady flow of water in tapered duct and to measure the flow rate of steady flow rates. Based on velocity, and elevation in a moving fluid the ibility and viscosity (internal friction) of which are negligible and the flow of which is For this experiment, by using the FM 24 Bernoul li's Apparatus Test Equipment is to demonstrate the Bernoulli's theorem. The experiment was conducted in order to find the time taken to collect 3L of water, the volumetric flow rates of the water, the pressure difference at all manometer tube at different cross section. The time to collect 0.003 m water is recorded based on the different flow rate for each experiment. The combination of venture meter complete with manometer tube and hydraulic bench were used. During the experiment, water is fed through a hose connector and the flow rate can be adjusted at the flow regulator valve at the outlet of the test section. The venture can be demonstrated as a means of flow measurement and the discharge coefficient can be determined the results show the reading of each manometer tubes increase when the pressure difference increases. From the reading of height can be calculated the data by applied the Bernoulli equation to fin the velocity of the fluid moving. The pressure level and velocity reading for part A to E of the tube is recorded. From Bernoulli theory, the relation between the increase and decrease in the pressure value is inversely proportional to its velocity. Bernoulli's Principle tells that as the fluid flows more quickly through the narrow sections, the pressure actually decreases rather than increases. Thus, it proves the validity of Bernoulli's theorem
Explanation / Answer
1.0 ABSTRACT
This experiment is aimed at investigating the validity of Bernoulli’s equation when applied to a steady flow water in tapered duct and to measure the flow rate of steady flow rates. Based on (Bernoulli’s theorem, 2011) relates the pressure, velocity and elevation in a moving fluid the compressibility and viscosity (internal friction) of which are negligible and flow of which is steady, or laminar.
For this experiment,by using the FM 24 Bernoulli’s Apparatus Test Equipment is to demonstrate the Bernoulli’s theorem .The experiment was conducted in order to find the time taken to collect 3L of water ,the volumetric flow rates of the water, the pressure difference at all manometer tube at different cross section .The time to collect 0.003 m3 water is recorded based on the different flow rate for each experiment.
The combination of venture meter complete with manometer tube and hydraulic bench mark used. During the experiment, water is fed through a house connector and the flow rate can be adjusted at the flow regulator valve at the outlet of the test section .The venture can be demonstrated as a mean of flow measurement and the discharge coefficient can be determined the results show the reading of each manometer tubes increase when the pressure difference increases. From the reading of height can be calculated the data by applied the Bernoulli equation to fin the velocity of the fluid moving.
The pressure level and velocity reading for part A to E of tube is recorded. From Bernoulli theory, the relation between the increase and decrease in the pressure value is inversely proportional to its velocity. Bernoulli’s Principle tells that as the fluid flows more quickly through the narrow section, the pressure actually decreases rather than increases .Thus,it proves the validity of Bernoulli’s theorem.
3.0 Objective /Aims
The objectives of the experiment are :-
Objectives
1.To investigate the validity of the Bernoulli equation when applied to the steady flow of water in a tapered duet.
2.To measure the flow rates with venture meter and to demonstrate Bernoulli.
3.To find the time taken to collect 3L of water, the volumetric flow rates of the water, the pressure difference at all manometer tube, velocity, dynamic head and also the total head.
4.To determine a steady, continuous, incompressible, non-viscous fluid flow, the total energy or total head remains constant at all the section along the fluid flow provided there is no loss or addition of energy.