Principles of Chemical Processes - Mass & Energy Balance from Udemy

In the field of chemical engineering, a solid understanding of core principles is essential. This course has been carefully developed to provide both new and experienced engineers with a comprehensive grasp of these fundamentals.

Through this course, participants will delve into key areas of chemical engineering, ensuring they're well-prepared to tackle real-world challenges. Beyond just theory, the curriculum provides practical insights that are directly applicable in professional settings.

With the industry constantly evolving, staying updated with core concepts like material balances, pressure calculations, and gas laws is crucial. This course ensures that engineers, whether starting out or experienced, have the knowledge and tools to excel.

In short, if you're aiming to strengthen your foundation in chemical engineering, this course is a valuable resource.

Composition of Mixtures:

Understanding Molecular Weight & Mole: Conversion Techniques between Mass & Moles
Delineating Mass & Mole Fraction: Transition from Composition by Mass to Molar Composition
Fundamentals of Concentration

2. Pressure:

An Overview of Pressure: Grasping Pressure Scales including Atmospheric, Gauge, Vacuum, and Absolute
Essential Conversion Factors related to Pressure
Techniques and Tools for Fluid Pressure Measurement

3. Ideal Gases & Gas Laws:

Comprehension of Ideal Gases: Equation of State, Standard Temperature & Pressure, and Associated Challenges
Analysis of Ideal Gas Mixtures and Vapor-Liquid Equilibria in Multi-Component Systems
Application and Understanding of Henry’s Law, Raoult’s Law, Antoine Equation, and Dalton’s Law

4. Fundamentals of Material Balances:

Introduction to Chemical Processes: Categorization, Dynamics of Steady & Unsteady States, and the Fundamental Balance Equation
Exploring Differential and Integral Balances within Chemical Processes
Techniques for Material Balance in Differential Processes
Analyzing Flow Chart Streams and Computing Flow Chart Stream Balances
Methods for Flow Chart Scaling and Associated Calculations

5. Balances on Reactive Systems:

Insights into Balances on Reactive Systems: Handling Limiting & Excess Reactants
Delving into the Extent of Reaction and its Quantitative Calculation
Unpacking Multiple Reactions: Understanding Yield & Selectivity
Calculating the Extent of Reaction in Scenarios with Multiple Reactions
Balances on both Molecular & Atomic Species
Comprehensive Degree of Freedom Analysis for Reactive Systems

6. Energy Balance:

Introduction to the First Law of Thermodynamics and Various Energy Forms: Kinetic, Molecular, and Internal
Techniques for Conducting Energy Balances on Closed Systems
A Deep Dive into Specific Properties and Enthalpy

This course seamlessly blends theory, practical exercises, and intricate numerical problems, ensuring a comprehensive grasp on the subject. Tailored for engineers, it dives deep into real-world applications that are pivotal for current and future industry challenges. Enroll now to sharpen your analytical skills and stay ahead in your engineering journey."

What's inside

Learning objectives

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.
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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.
Show more
Show less

Syllabus

Composition of Mixtures

Molecular Weight & Mole Conversion between Mass & Moles

Mass & Mole Fraction

Conversion from a Composition by Mass to Molar Composition

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Read about what's good

what should give you pause

and possible dealbreakers

Provides a solid understanding of core chemical engineering principles, which is essential for both new and experienced engineers in the field

Covers material balances, pressure calculations, and gas laws, which are crucial for staying updated with core concepts in the constantly evolving chemical engineering industry

Explores differential and integral balances within chemical processes, which are fundamental techniques for analyzing and optimizing chemical reactions and systems

Delves into the extent of reaction and its quantitative calculation, which is essential for understanding and controlling chemical reactions in various industrial applications

Examines balances on reactive systems, including handling limiting and excess reactants, which are critical for optimizing reactor design and performance in chemical plants

Introduces the First Law of Thermodynamics and various energy forms, which are foundational concepts for conducting energy balances on both closed and open systems

Reviews summary

Principles of chemical processes fundamentals

According to learners, this course offers a positive experience for those seeking a solid grounding in fundamental chemical engineering principles, specifically mass and energy balances. Many students found the lectures clear and easy to follow, appreciating the systematic approach to complex topics. The inclusion of numerous practice problems is frequently highlighted as a major strength, helping to solidify understanding and build problem-solving skills crucial for the field. While the course is widely seen as providing a strong foundation, some learners noted that having prior knowledge in basic chemistry and mathematics is beneficial to navigate the material effectively. Overall, it is regarded as a valuable resource for both students and professionals.

Some sections notably more challenging.

"Most of the course is manageable, but there were a couple of sections, especially on reactive systems, that jumped in difficulty."

"I found the material balance sections relatively straightforward, but the energy balance part was quite a step up."

"The problems towards the end of the course were significantly harder than those at the beginning."

Beneficial to have some background.

"While the course covers fundamentals, I felt that having a background in basic chemistry and calculus was really helpful."

"Prospective students should be aware that some prior exposure to basic science or math would make this course easier."

"I struggled a bit initially because I didn't have a strong chemistry background, so some review beforehand would be good."

Lectures are well-explained and structured.

"The instructor explains the topics clearly and systematically, making complex ideas easy to grasp."

"I found the lecture videos to be very well-produced and the explanations were always easy to understand."

"The way the material was presented in the lectures made it much less intimidating than I expected."

Numerical problems aid concept mastery.

"The practice problems were invaluable; working through them was essential to mastering the concepts."

"I appreciated the numerous numerical examples and homework assignments provided; they were very helpful."

"Solving the problems after each section really helped reinforce the lecture material for me."

Provides a solid base in core principles.

"The course really solidified my understanding of the core principles of mass and energy balance in chemical processes."

"I gained a strong foundation that I can build upon for more advanced topics in chemical engineering."

"This course is an excellent starting point for anyone new to the field or needing a refresh on fundamentals."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Principles of Chemical Processes - Mass & Energy Balance with these activities:

Review Stoichiometry

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Reinforce your understanding of stoichiometry to better grasp reactive system balances.

Browse courses on Stoichiometry

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Review the definitions of mole, molar mass, and Avogadro's number.
Practice balancing chemical equations.
Solve stoichiometry problems involving limiting reactants and percent yield.

Review Ideal Gas Law

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Solidify your understanding of the ideal gas law to prepare for gas law applications in chemical processes.

Browse courses on Ideal Gas Law

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Practice solving problems using the ideal gas law.
Review the ideal gas law equation and its variables.
Understand the conditions under which the ideal gas law is applicable.

Read 'Basic Principles and Calculations in Chemical Engineering'

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Supplement your learning with a comprehensive textbook on chemical engineering principles.

View Basic Principles and Calculations in Chemical... on Amazon

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Read the chapters on material and energy balances.
Work through the example problems in the book.
Attempt the end-of-chapter problems for practice.

Four other activities

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Solve Material Balance Problems

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Reinforce your understanding of material balances by solving a variety of practice problems.

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Find practice problems in textbooks or online resources.
Solve problems involving different types of chemical processes.
Check your answers and review the solutions.

Create a Material Balance Flowchart

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Solidify your understanding of material balances by creating a visual representation of a chemical process.

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Choose a chemical process from a textbook or online resource.
Draw a flowchart of the process, labeling all streams and components.
Write the material balance equations for each component.
Solve the equations to determine the flow rates of each stream.

Study 'Chemical Engineering Thermodynamics'

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Expand your knowledge of thermodynamics to better understand energy balance calculations.

View Melania on Amazon

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Read the chapters on thermodynamics and energy balances.
Work through the example problems in the book.
Attempt the end-of-chapter problems for practice.

Design a Chemical Process Simulation

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Apply your knowledge of material and energy balances to design a chemical process simulation.

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Choose a chemical process to simulate.
Use a process simulation software to model the process.
Perform material and energy balance calculations to validate the simulation.
Analyze the results and optimize the process.

Career center

Learners who complete Principles of Chemical Processes - Mass & Energy Balance will develop knowledge and skills that may be useful to these careers:

Process Engineer

A process engineer develops, designs, and optimizes chemical processes. This course helps prepare you for this role by providing a strong foundation in core chemical engineering principles. In particular, the sections on material and energy balances, including reactive systems, are directly applicable to designing and troubleshooting chemical processes. You'll also learn about key concepts such as pressure scales and gas laws, both of which are critical when evaluating process parameters. With its focus on practical application, this course provides the necessary tools to excel as a process engineer.

See salaries and explore the career path for Process Engineer

Chemical Engineer

Chemical engineers research, design, and develop chemical processes and equipment. This course provides a solid grounding in the fundamental principles that underpin chemical engineering. The course's coverage of material balances, energy balances, and reactive systems is particularly valuable for chemical engineers who need to understand the quantitative aspects of chemical reactions and separations. You may also find the units on ideal gases and pressure calculations to be useful. The practical exercises in this course will help chemical engineers strengthen their quantitative skills.

See salaries and explore the career path for Chemical Engineer

Food Process Engineer

Food process engineers design and optimize processes for food manufacturing. This course helps provide a solid grasp of chemical engineering principles, essential for any engineer in this role. The sections on material and energy balances may be particularly applicable to food processing operations, where understanding mass and energy flow is crucial. With its focus on practical applications, this course provides tools to excel as a food process engineer.

See salaries and explore the career path for Food Process Engineer

Biochemical Engineer

Biochemical engineers adapt chemical engineering principles to biological systems. This course helps them solidify their grounding in core chemical engineering principles. The material and energy balance sections provide tools to understand and analyze bioprocesses. The knowledge of ideal gases and pressure calculations are also valuable in designing bioreactors and optimizing fermentation processes. With its focus on practical application, this course can help biochemical engineers handle real-world challenges.

See salaries and explore the career path for Biochemical Engineer

Simulation Engineer

Simulation engineers develop and use computer models to simulate chemical processes. This course builds a strong foundation in the underlying principles that govern these processes. The course's coverage of material balances, energy balances, and reactive systems is particularly relevant for creating accurate and reliable simulations. The understanding of ideal gases and gas laws also helps in building realistic models. This course can equip simulation engineers with the knowledge to develop better and more accurate models.

See salaries and explore the career path for Simulation Engineer

Project Engineer

Project engineers manage engineering projects from start to finish. This course provides a foundation in chemical engineering principles that can be helpful for managing projects involving chemical processes. The sections on material and energy balances may be particularly useful for project engineers who need to understand the quantitative aspects of chemical reactions and separations. The course's coverage of flow chart streams and flow chart scaling may be valuable for engineers working on process design projects.

See salaries and explore the career path for Project Engineer

Consultant

Consultants provide expert advice to organizations on a variety of issues, including chemical processes. This course provides a foundation in chemical engineering principles that may be helpful for consultants working with chemical companies. The sections on material and energy balances likely strengthens a consultant's ability to analyze and improve chemical processes. The course's discussion of ideal gases and pressure calculations may be valuable for consultants working on process optimization.

See salaries and explore the career path for Consultant

Research and Development Scientist

Research and development scientists plan and conduct experiments to develop new products or improve existing ones. This course provides a foundation in chemical engineering principles that may be useful for scientists working with chemical processes. The sections on material and energy balances may aid in understanding the fundamentals of chemical reactions and separations. The course's coverage of ideal gases and gas laws may also be beneficial for scientists working with gas-phase reactions. Through this course, you can develop skills to aid experimental design and analysis.

See salaries and explore the career path for Research and Development Scientist

Environmental Engineer

Environmental engineers develop solutions to environmental problems using engineering principles. This course may be helpful for environmental engineers needing a refresher in core chemical engineering concepts. The material balance sections, especially on reactive systems, will be applicable for engineers working on pollution control or remediation projects. The course's coverage of mass and mole fractions, along with material balances, may be particularly useful in environmental engineering.

See salaries and explore the career path for Environmental Engineer

Manufacturing Engineer

Manufacturing engineers improve efficiency and reduce costs in manufacturing processes. This course may be useful for manufacturing engineers needing a better grasp of the underlying chemical processes. The sections on material balances and energy balances provide a framework for analyzing and optimizing these processes. The course's discussion of flow chart streams and flow chart scaling may be valuable for engineers working on process optimization. Through this course, you can develop a deeper understanding of chemical manufacturing processes.

See salaries and explore the career path for Manufacturing Engineer

Sustainability Manager

Sustainability managers develop and implement programs to reduce an organization's environmental impact. This course may be helpful for sustainability managers seeking to understand the chemical processes within their organization. The sections on material and energy balances, especially for reactive systems, can be valuable for analyzing the environmental impact of chemical processes. The knowledge you gain may improve your approach to sustainability.

See salaries and explore the career path for Sustainability Manager

Safety Engineer

Safety engineers develop and implement safety programs to prevent accidents and injuries in the workplace. This course may be useful for safety engineers who need to understand the underlying chemical processes and potential hazards. The sections on pressure and gas laws, as well as energy balances, could be particularly relevant for evaluating potential safety risks. Knowledge of ideal gases and gas mixtures may also be useful in hazard analysis. A safety engineer may be able to use this course to improve risk assessments.

See salaries and explore the career path for Safety Engineer

Quality Control Manager

Quality control managers ensure that products meet certain standards and specifications. This course may be helpful for those in quality control roles, as it provides a basis for understanding the underlying chemical processes being monitored. The sections on material balances and composition of mixtures can be relevant in assessing product consistency. The course also presents insights into pressure scales and gas laws, which may be relevant for quality control testing. The knowledge you gain may help you improve your approach to quality control.

See salaries and explore the career path for Quality Control Manager

Plant Manager

Plant managers oversee the daily operations of a manufacturing plant. This course may be useful for plant managers needing a better understanding of the core chemical processes. The sections on material and energy balances could provide a valuable framework for understanding and optimizing plant operations. The knowledge you gain may help you improve your approach to plant management.

See salaries and explore the career path for Plant Manager

Data Scientist

Data scientists analyze large datasets to identify trends and insights. This course may be useful for data scientists working with data from chemical processes. The understanding of chemical engineering principles, particularly material and energy balances, can help guide the data analysis process. The data scientist may use the material to build better models of chemical processes.

See salaries and explore the career path for Data Scientist

Principles of Chemical Processes - Mass & Energy Balance

What's inside

Learning objectives

Syllabus

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Reviews summary

Principles of chemical processes fundamentals

Activities

Career center

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