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Warezcrackfull.com » Tutorial » Thermodynamics and Energy Balance for Engineers

Thermodynamics and Energy Balance for Engineers

Author: warezcrackfull on 24-08-2024, 00:16, Views: 0

Thermodynamics and Energy Balance for Engineers
Free Download Thermodynamics and Energy Balance for Engineers
Published 8/2024
Created by Amr Mohyeldin
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch
Genre: eLearning | Language: English | Duration: 35 Lectures ( 5h 25m ) | Size: 6.11 GB


Apply energy balance equations, analyze open/closed systems, and calculate work and power requirements.
What you'll learn:
Master Energy Balance Equations for Both Open and Closed Systems
Apply Energy Balance Equations on Examples Such As Adiabatic, or Isothermal, or Isobaric, Reversible or Non-Reversible Conditions and Phase Transitions
Explain and Differentiate Between Expansion/Contraction Work, Shaft Work and Flow Work
Calculate Work and Heat Flow for Ideal Gas Along Various Pathways (Isothermal, Isochoric, Adiabatic)
Calculate Internal Energy and Enthalpy in Engineering Calculations
Perform Energy Calculations using Various Reference States and Correlations
Understand the Importance of Assuming Reversibility in Engineering Calculations and Recognize Lost Work
Requirements:
Some basic understanding of math and physics will help but no prior experience needed. Everything will be explained in this course.
Description:
Chapter 1: Introduction to EnergyFundamentals of Energy: Define energy and its various classifications.Energy Forms: Understand kinetic, potential, and internal energy at microscopic and macroscopic levels.Internal Energy: Learn its significance in engineering calculations.Entropy: Grasp the concept of entropy.Reversibility and Lost Work: Understand these concepts and their engineering implications.Reversibility in Calculations: Explain its importance in engineering.Basic Definitions:System Types: Open, Closed, and Isolated systems.Equilibrium: Thermal, Chemical, Mechanical, and Phase Equilibrium.Key Terms: Heat Sinks, Density, Steady State, Transient State.Variables: State Variables (e.g., Temperature, Pressure, Volume) and Path Variables (Work, Heat).Properties of Matter: Differentiate between intensive and extensive properties.Gibbs Phase Rule: Understand the concept of degrees of freedom and apply the rule through examples.Chapter 2: Work and Heat TermsEnergy Transfer: Understand heat flow and work as forms of energy transfer across system boundaries.Sign Conventions: Learn conventions for work and heat in relation to system interactions.Expansion and Contraction Work: Explain and apply these concepts in various scenarios, including reversible and non-reversible isothermal processes.Shaft and Flow Work: Understand and explain these types of work in open and closed systems.Heat Flow: Understand heat flow in different system contexts.Chapter 3: Energy BalanceClosed System Energy Balance: Derive and explain the energy balance equation for closed systems.Energy Units: Understand the units involved in energy balance equations.Practical Applications: Apply the closed system energy balance equation through examples.Open System Energy Balance: Derive and apply the steady-state energy balance equation for open systems.Complete Energy Balance: Master the derivation and application of the comprehensive energy balance equation.Internal Energy, Enthalpy, and Heat Capacity: Understand their relationships and relevant equations.Enthalpy Calculations: Apply these equations to find enthalpy changes in ideal gases.Adiabatic Compression: Solve examples involving adiabatic compression of ideal gases.Phase Transitions: Understand and calculate enthalpy and internal energy changes during phase transitions.Reference State Importance: Learn the importance of reference states in energy calculations.Kinetic and Potential Energy Impact: Assess their relative impacts on energy balance equations.Advanced Calculations:Adiabatic reversible expansion and compression of ideal gases.Continuous isothermal reversible compression of ideal gases.Why This Course?Comprehensive Coverage: Detailed exploration of energy systems in engineering.Practical Examples: Numerous examples to solidify understanding.Fundamental to Advanced Concepts: Progress from basic definitions to complex calculations.Real-World Applications: Techniques and knowledge directly applicable to engineering problems.Instructor Experience: Benefit from 7 years of practical experience in engineering consulting.Enroll now to gain a deep understanding of energy systems and enhance your engineering skills!
Who this course is for:
Engineers In-Training, Recent College graduates, Engineering Students
Chemical, Process, Petroleum, Environmental and Materials Engineers
Mechanical and Civil Engineers
Piping, Plant Engineers
Maintenance Technicians
Plant Operators and Safety Engineers
Homepage
https://www.udemy.com/course/thermodynamics-and-energy-balance-for-engineers/







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