Download Principles of Chemical Processes Mass & Energy Balance
Principles of Chemical Processes Mass & Energy Balance by udemy download for many Chemical Courses that Allow Students to Solve Material & Energy Balance and Pressure Calculations in chemical engineering.
What you’ll learn:
- Learn the common processes in Chemical Engineering industry and process variables and how to calculate them.
- Will Understand about Pressure (Fluid Pressure and Hydrostatic head) and types of pressure and way to measure Fluid Pressure Measurement by Monometer.
- Get the knowledge about Ideal Gas and the Laws of Gases.
- Able to understand Law of Conservation of mass and know how to apply it on Different Systems.
- Will Understand about Pressure and Pressure Scales and the Conversion Factor and the Measurement of Pressure.
- Learn what system energy is and perform energy balance calculation.
- Know how to Use Differential & Integral Balances for Material Balance.
- Learn how to perform material balance and energy balance on Reactive Processes.
- Know how to use Flow Chart Streams and Flow Chart Scaling for the Calculation of Material Balance.
- Extent of Reaction and the Calculation of Extent of Reaction for Multiple Reactions.
- Calculation of Balances on Molecular & Atomic Species.
- Understand about the Energy Balance on Open & Closed Systems
- On completion of the course, students will be able to apply mass balance equation for different systems and can solve numericals based on mass transfer.
- On completion of the course, students will be able to apply thermal energy balance equation for different systems and can solve numericals on Energy Transfer
- On completion of the course, students will be able to calculate fluid pressure.
Course content included:
Composition of Mixtures
- · Molecular Weight & Mole and the Conversion between Mass & Moles
- · Mass & Mole Fraction, Conversion from a Composition by Mass to Molar Composition
- · Concentration
Pressure
- · Introduction of Pressure and Pressure Scales (Atmospheric, Gauge, Vacuum, Absolute)
- · Conversion Factors of Pressure
- · Fluid Pressure Measurement
Ideal Gases & Gas Laws
- · Ideal Gases & Equation of State, Standard Temperature & Pressure, Problems
- · Ideal Gas Mixtures, Vapor-Liquid Equilibria for Multi-Component System
- · Henry’Law, Raoult’s Law, Antoine Equation, Dalton’s Law
Fundamentals of Material Balances
- · Introduction, Chemical Processes Classification, Steady & Unsteady State, Balance Equation
- · Differential and Integral Balances on Chemical Processes
- · Differential Process to Perform Material Balance
- · Flow Chart Streams and calculation of Flow Chart Stream Balance
- · Flow Chart Scaling and their Calculation
Balances on Reactive Systems
- · Balances on Reactive Systems, Limiting & Excess Reactants
- · Extent of Reaction and the Calculation of Extent of Reaction
- · Multiple Reactions, Yield & Selectivity2
- · Extent of Reaction for Multiple Reactions with Calculation
- · Balances on Molecular & Atomic Species
- · Degree of Freedom Analysis on Reactive Balances
Energy Balance
- · First Law of Thermodynamics, Forms of Energy (Kinetic, Molecular, Internal)
- · Energy Balances on Closed Systems
- · Specific Properties & Enthalpy
Course content
- Section 1: Composition of Mixtures
- Lecture 1 Molecular Weight & Mole Conversion between Mass & Moles
- Lecture 2 Mass & Mole Fraction
- Lecture 3 Conversion from a Composition by Mass to Molar Composition
- Lecture 4 Average Molecular Weight
- Lecture 5 Concentration
- Section 2: Pressure ,Scales of Pressure and Measurement of Pressure
- Lecture 6 Introduction of Pressure
- Lecture 7 Pressure Scales (Atmospheric, Gage, Vacuum, Absolute) and Conversion Factors
- Lecture 8 Conversion Factors of Pressure Problems.
- Lecture 9 Fluid Pressure Measurement (Monometers)
- Lecture 10 Fluid Pressure Measurement Problem
- Section 3: Ideal Gas and Laws of Gases
- Lecture 11 Ideal Gases & Equation of State, Standard Temperature & Pressure, Problems
- Lecture 12 Ideal Gas Mixtures, Vapor-Liquid Equilibira for Multi Component Systems
- Lecture 13 Henry’Law, Raoult’s Law, Antoine Equation
- Section 4: Fundamentals of Material Balances
- Lecture 14 Chemical Processes Classification, Steady & Unsteady State, Balance Equation
- Lecture 15 Differential Balances, Integral Balances, Problem
- Lecture 16 Integral Balance on Batch Process, Balances on a Bach Mixing Processes
- Lecture 17 Integral Balances on Semi Batch Process, Hexane Balance (Problems)
- Lecture 18 Differential Process to Perform Material Balance, Material Balance Calculation
- Lecture 19 Flow Chart Streams, Problem of Flow Chart Stream Balance
- Lecture 20 Flow Chart Scaling & Basis of Calculation
- Lecture 21 Problems of Flow Chart Scaling & Basis of Calculation
- Section 5: Balances on Reactive Systems
- Lecture 22 Balances on Reactive Systems
- Lecture 23 Limiting & Excess Reactants, Extent of Reaction
- Lecture 24 Calculation of Extent of Reaction
- Lecture 25 Extent of Reaction Problem
- Lecture 26 Multiple Reactions,Yield & Selectivity,Extent of Reaction for Multiple Reactions
- Lecture 27 Extent of Reaction for Multiple Reactions Problem
- Lecture 28 Balances on Molecular & Atomic Species
- Lecture 29 Degree of Freedom Analysis on Reactive Balances
- Section 6: Energy Balance
- Lecture 30 Forms of Energy (Kinetic, Molecular, Internal), First Law of Thermodynamics
- Lecture 31 Energy Balances on Closed Systems, Problem
- Lecture 32 Energy Balances on Open Systems at Steady State, Specific Properties & Enthalpy
- Lecture 33 Energy Balances on Open Systems Problem
Course details
- Video quality: MP4 | Video: h264, 1280 × 720
- Audio quality: Audio: AAC, 44.1 KHz, 2 Ch
- Video duration: 8h 19 m
- Number of lessons: 6 Section and 33 lectures
- Language of instruction: English
- Compressed file size: 1.74 GB
