Chemical Reaction Engineering (CRE)
5.0
(3)
22 learners
What you'll learn
This course includes
- 9.5 hours of video
- Certificate of completion
- Access on mobile and TV
Course content
1 modules • 60 lessons • 9.5 hours of video
Chemical Reaction Engineering (CRE)
60 lessons
• 9.5 hours
Chemical Reaction Engineering (CRE)
60 lessons
• 9.5 hours
- Chemical Reaction Engineering - Lecture # 1 - Introduction, Applications, Scope, Rate of Reaction16:28
- Chemical Reaction Engineering - Lecture # 2 - General Mole Balance, Derivation for Batch Reactor09:28
- Chemical Reaction Engineering - Lecture # 3 - Mole Balance Equations for CSTR, PFR & PBR12:58
- Chemical Reaction Engineering - Lecture # 4 - Design Equations for Batch Reactor, CSTR, PFR & PBR16:02
- Chemical Reaction Engineering - Lecture # 5 - Sizing Flow Reactors - Levenspiel Plot - Volume Calc.12:58
- Chemical Reaction Engineering - Lecture # 6 - PFR Volume Cal - Isothermal v/s Adiabatic System09:06
- Chemical Reaction Engineering - Lecture # 7 - Reactors in Series - CSTR and PFR Examples11:50
- Chemical Reaction Engineering - Lecture # 8: Reactors in Series & Space Time-Space Velocity Examples12:55
- Chemical Reaction Engineering - Lecture # 9: Relative Rate of Reaction, Power Law, Units of Rate13:57
- Chemical Reaction Engineering - Lecture # 10: Elementary & Non-Elementary Rate Law13:25
- Chemical Reaction Engineering - Lecture # 11: Reversible Reactions and Specific Rate Constant10:19
- Chemical Reaction Engineering - Lecture # 12: Arrhenius Plot, Derivations, Concluding Remarks10:31
- Chapter-4 from Chemical Reaction Engineering - Stochiometric Table & Concentration for Batch System17:15
- Chapter # 4 on Chemical Reaction Engineering - Stoichiometric Table & Concentration for Flow System08:44
- Chemical Reaction Engineering - Stoichiometric Table & Concentration for Flow System (Gas Phase)11:59
- Chemical Reaction Engineering - Building Block # 3 (Stoichiometry) - Example # 4.3 - Lecture 16 (b)08:49
- Chemical Reaction Engineering - Building Block # 3 (Stoichiometry) - Example # 4.5 - Lecture 1711:27
- Introduction to Isothermal Reactor Design - Chapter # 5 - Chemical Reaction Engineering - Lecture 1809:15
- Isothermal Batch Reactor Design - Chapter # 5 - Chemical Reaction Engineering - Lecture 1909:02
- Isothermal Batch Reactor Design Numerical - Chapter-5 on Chemical Reaction Engineering - Lecture-2012:07
- Isothermal CSTR Design - Derivations for 1st Order - Chemical Reaction Engineering - Lecture # 2111:34
- Isothermal CSTR Design - Example # 5.2 - Chemical Reaction Engineering Lectures - Lecture # 23(a)10:13
- Example # 5.2 - Isothermal CSTR Design - Chemical Reaction Engineering Lectures - Lecture # 23(b)06:34
- Tubular Reactor - Isothermal Design - Chemical Reaction Engineering Lectures - Lecture # 2409:53
- Building Blocks of Chemical Reaction Engineering #chemicalreactionengineering #science00:53
- Isothermal Plug Flow Reactor Design - Chemical Reaction Engineering Lectures - Lecture # 2511:20
- Algorithm for Isothermal Design - CRE #chemicalreactionengineering00:16
- Chemical Reaction Engineering - Isothermal Design - Introduction to Pressure Drop - Lecture # 2608:05
- Derivation of Pressure Drop Equation for Packed Bed Reactor - CRE Lectures - Lecture # 2711:58
- Which systems require consideration for pressure drop: liquid or gas phase systems?00:51
- Chemical Reaction Engineering Lecture Series - Example # 5.4 - Pressure Drop in Reactors11:15
- Derivations for 2nd order reaction (considering dP) in packed bed reactor - CRE Series - Lecture 2906:05
- Analyzing the Impact of Pressure Drop on Conversion | Example # 5.5 | CRE Lecture # 3009:38
- Isothermal Reactor Design - Moles and Molar Flowrates - Chapter # 6 - Lecture # 33 - CRE Series09:47
- Design of Microreactor| Chemical Reaction Engineering Lecture Series| Lecture # 3210:02
- Mole Balance for Liquid System using the concept of moles and molar flowrates #crelectures00:59
- Using Polymath to solve ODE Equation - Plug Flow Reactor - CRE Lecture Series - Lecture # 3310:10
- Chemical Reaction Engineering Lectures - Algorithm for Data Analysis Lecture # 34 #CRE09:38
- Chemical Reaction Engineering Lectures - Method of Excess & Integral Methods for Rate Data Analysis08:31
- "Method of Excess" to Analyze the Rate Data - Chemical Reaction Engineering Lecture Series #cre01:55
- "Integral Method" to analyze the rate data #chemicalreactionengineering #rateanalysis #ratedata03:05
- CRE Lecture - Combining method of excess & integral method - Rate constant and Order of reaction09:16
- Method of Initial Rate to determine the rate parameters - Lecture # 37 #chemicalreactionengineering08:02
- Chemical Reaction Engineering - Method of Half Life - Collection & Analysis of Rate Data #cre05:36
- Chemical Reaction Engineering Lectures - Polymath to Design a Micro-reactor - Lecture # 39 #polymath08:21
- Chemical Reaction Engineering Lectures - Lecture # 40(a) - Numerical Method for Data Analysis #cre09:37
- Chemical Reaction Engineering Lectures - Lecture # 40(b) - Numerical Method for Data Analysis #cre09:47
- Chemical Reaction Engineering Lecture Series - Lecture # 41 - Polynomial Fit using MS Excel #cre08:04
- Chemical Reaction Engineering Lecture Series - Multiple Reactions - Overview & Basic Terms #cre05:22
- Chemical Reaction Engineering Lectures - Selectivity, Yield, Conversion and their Importance #cre06:48
- Chemical Reaction Engineering Lectures - Lecture # 44: Numerical Method to Determine Rate Parameters18:20
- Chemical Reaction Engineering Lectures - Lecture 45 - Selectivity for Parallel Reactions #cre07:26
- Chemical Reaction Engineering Lecture Series - Lec 46 - Reactor Selection & Operating Conditions06:55
- Chemical Reaction Engineering Lectures - Lecture # 47 - Reactor Selection Case Studies #cre06:28
- Chemical Reaction Engineering Lecture Series | Lecture 48 | Introduction to Non-Isothermal Reactors07:30
- Chemical Reaction Engineering Lecture Series | Non-Isothermal CSTR Design | Boost Your CRE Concepts!10:23
- 🎓Chemical Reaction Engineering Lecture | Lecture # 50 | Design of Non-Isothermal Reactors EXPLAINED!13:02
- 🧠 Chemical Reaction Engineering Lecture | Learn CSTR Design & Equilibrium Temperature Calculations13:55
- CSTR Manual Calculations vs Aspen Plus Simulation | Chemical Engineering Reactor Design15:23
- 🔥AI in Chemical Engineering | Process Optimization, Digital Twins & Machine Learning11:21
