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Master Fluid Mechanics for Incompressible Flow

Master Fluid Mechanics for Incompressible Flow

Applications of Mechanical Energy Equation, Piping & Fittings, Pumps & More!

50.000 VND

25 VND

Đầy Đủ Bài Giảng

Học Online Tiện Lợi

Kích Hoạt Nhanh 2-5 Phút

Thanh toán tự động

Được phép tải xuống

Mô tả

Overview:

This course provides students with a fundamental understanding of Fluid Mechanics in Incompressible Flow, its equations, and applications in various fields, including chemical engineering, environmental science, and process control.

Students will learn how to analyze, model, and solve problems related to Liquid Flow in Pipes, Equipment and More. It will also cover a wide range of systems, from simple piping systems, to complex industrial processes.

The course combines theoretical concepts with practical applications to equip students with valuable skills in problem-solving and decision-making.

What You Will Learn:

By the end of this course, you will be able to:

Basic Understanding of Fluid Mechanics
Fundamentals of Incompressible Flow
Fluid Properties and Behavior
Fluid Statics and Dynamics
Mechanical Energy as well as Mechanical Energy Equation Applications
Mechanical Energy types: Kinetic, Potential, Pressure, friction loss, Inlet/Outlet Work
Torricelli's Law, Continuity Equation and Bernoulli's Principle
Pipe Flow and Basic Pumping Systems
Type I Problems: Solving for a single variable
Type II Problems: Solving for a volumetric flow rate given a system
Type III Problems: Solving for piping dimensions, i.e. pipe diameter
Series Flow Systems
Parallel Flow Systems
Complex System: Branched Flow & More

Recommended Audience:

This course is suitable for both: Students & Professionals. From Undergraduate and Graduate engineering students, environmental science majors, all the way to Professionals in engineering, environmental, and technical fields.

Prerequisites:

Basic Knowledge of Mathemathics & Physics

Bạn sẽ học được gì

Fundamentals of Mechanical Energy and the Mechanical Energy Equation

Mechanical Energy: Kinetic, Potential, Pressure and Work

Applications of the M.E.E. to Engineering Cases

Bernoulli's Law

Torricelli's Law

Operations involving liquid flow through pipes and equipment

Fluid Mechanics applied to Incompressible Flow (Liquids)

Friction Loss in Piping Systems & Other Fluid Applications

Yêu cầu

Basic Science (Physics & Math)

Nội dung khoá học

5 sections

Introduction

5 lectures

Welcome

04:37

Before you Start - Course Overview

04:16

About this Course

03:43

Note: Updated Course

04:09

Basic Review of Topics

34:15

Introduction to the Mechanical Energy Equation (M.E.E.)

17 lectures

What is Mechanical Energy?

01:37

The Mechanical Energy Equation - Applications to Piping Systems, Pumps & More!

05:31

More on the Mechanical Energy Equation: Systems, Surroundings, etc...

14:24

Important Notes Regarding the Mechanical Energy Equation

20:58

Kinetic Energy in MEE

02:55

More on the Kinetic Energy

07:50

Potential Energy & The M.E.E.

03:31

More on Potential Energy in the MEE

04:29

Pressure Head, Pressure Loss & Work & The M.E.E.

01:16

More on Pressure, Pressure Head and Relating to Energy

05:21

Introduction to Inlet & Outlet Work

03:18

Inlet and Outlet Work (Input vs. Output)

09:17

A Brief Introduction to Friction Losses

02:30

Friction Loss - It's Nature, Type of frictions, Theoretical Concept

09:17

Friction Loss Exercise

07:07

Application of M.E.E. to Gases... Foot for thought

02:40

Closure to Section 1

01:29

Applications of M.E.E to Incompressible Flow

24 lectures

Introduction of Applications of the MEE to Incompressible Flow

02:17

Applying the Mechanical Energy Equation - Important Notes

04:22

Bernoulli's Law: Theory + Exercises

09:42

Torricelli's Law - Theory & Exercises

07:20

Ex. 0 - Emptying a Tank - Torricelli's Law

08:35

Ex.1 Time Calculations for Tank Depletion - Torricelli's Law

07:09

Ex.2 Velocity of a Jet Stream while Emptying a Tank - Torricelli's Law

04:48

Ex.3 Maximum Height for a Jet Stream - Torricelli's Law

02:57

Ex.4 Height Calculation for a Pressurized Stream - Torricelli's Law

05:17

Notes on Torricell's Law

00:40

Ex.5 Pipe Reduction Effecst - Bernoulli's Law

10:27

Ex.6 Applying Bernoulli's Principle to a Cone - Bernoulli's Law

04:36

Ex.7 Pressure Drop in Pipeline Expansion - Bernoulli's Law

05:09

Ex.8 Emptying a Pressurized Tank - Bernoulli's Law

04:12

Ex.9 Emptying a Depressurized (Vacuum) Tank - Bernoulli's Law

04:40

Ex.10 Changes in Pressure and Velocity in a Pipeline - Bernoulli's Law

04:27

Ex.11 Pressure Drop due to changes in Velocity - Bernoulli's Law

03:59

Notes on Bernoulli's Law

00:48

A Brief Introduction to the "General Case" of the M.E.E.

00:53

The "General" Application of the Mechanical Energy Equation

16:38

Ex.12 Pumping Requirements for a given System (MEE Application - No Friction)

18:11

Ex.13 Minimum Height Requirement for a Pump (MEE Application - No Friction)

11:03

Ex.14 Pump Requirements vs. Turbine Production (MEE Application - No Friction)

11:58

Closure to Section 2

01:01

Advanced Applications of Incompressible Flow

38 lectures

Introduction to Advanced Applications of the MEE to Engineering

00:53

IMPORTANT NOTE! About Friction Loss Calculations

02:19

About Series Flow (Piping Systems)

01:53

Series Flow: Common Type of Problems

06:26

Type I Problems - Theory & Solved Example

07:05

Ex.15 Power Requirements for a Fan Blower (Type I)

08:59

Ex. 16 Effects of Pressure vs Diameter Changes (Type I + Friction Loss)

11:06

Ex.17 Pumping Cost Calculations (Type I + Friction Loss)

12:34

Ex.18 Pump Requirements for a Non-Cylindrical Duct (Type I + Deq + Friction Loss

04:16

Ex.19 Pumping Costs from Reservoir A to B (Type I + Friction Loss)

20:46

Ex.20 Piping Investment vs. Pumping Costs (Type I + Friction Loss)

33:09

Ex.21 Flow through Non-Cylindrical Channel (Type I + Friction Loss)

14:05

Ex.22 Pressure Changes due to Petroleum Production Drilling (Type I + Friction L

13:07

Ex.23 Friction Loss in a Long Pipe (Type I + Friction Loss)

07:25

Ex.24 Pump Requirements for Fluid Transport (Type I + Friction Loss)

15:14

Ex.25 Pressure Reading in a Manometer (Type I + Friction Loss)

07:27

Ex.26 Pressure Drop in an Inclined Pipe (Type I + Friction Loss)

08:20

Type II Problems - Theory & Solved Example

11:22

Ex.27 Finding Volumetric Flow Rate for a Given System (Type II + Friction Loss)

17:50

Ex.28 Calculating Volumetric Flow of a Tank losing Liquid (Type II + Friction Lo

13:01

Ex.29 Maximum Volumetric Flow Rate given a Discharge Pressure (Type II + Fricti

11:45

Ex.30 Max. Flow Rate given Friction Loss of a System (Type II + Friction Loss)

15:25

Type III Problems - Theory & Solved Example

15:34

Ex.31 Proposal of Internal Diameter for a System (Type III + Friction Loss)

20:09

Ex.32 Proposing the Nominal Diameter given a Pressure Drop (Type III + Friction

21:01

Ex.33 Optimal Nominal Diameter given Pressure Drops (Type III + Friction Loss)

14:33

Ex.34 More Advanced Diameter Proposal (Type III + Friction Loss)

19:40

About Parallel & Branched Flow Problems (Piping Systems)

00:32

Parallel Flow - An Introduction

09:04

Parallel Flow: Case 1 vs Case 2

10:33

Ex.35 Parallel Flow and Pressure Drop (Parallel Flow)

27:21

Ex.36 Flow through Frictious and Free Paths (Parallel Flow)

21:00

Ex.37 Flow Patterns: Low Velocity vs High Velocity (Parallel Flow)

25:25

Ex.38A Parallel Pipes Systems: Defining the System

13:30

Ex.38B Parallel Pipes Systems Solved in Excel (Parallel Flow)

22:03

Branch Flow: Case Study

04:11

Complex Piping: Solving with Software

05:06

Closure to Section 3

00:57

Closure

3 lectures

Course Content Review & Closure

07:06

What's Next?

05:38

BONUS - Continue Your Training!

00:18

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