Determine Kinetic Parameters for Data from Isothermal Plug Flow Reactor Part 1: Overview
Organized by textbook: https://learncheme.com/ Determine kinetic parameters using nonlinear regression on data obtained from a plug-flow catalytic reactor. The reactant exit concentration was measured as a function of inlet volumetric flow rate for a gas-phase reaction A to B. The Excel spreadsheet used for the calculations is available at https://learncheme.com/student-resources/excel-files/ Made by faculty at the University of Colorado Boulder, Department of Chemical & Biological Engineering.
See Part 2: Excel Calculations -- https://www.youtube.com/watch?v=vjC_DEkv-NY
Part 3: Excel Spreadsheet -- https://www.youtube.com/watch?v=v3WEs0LVnjQ
Part 4: Confidence Limits -- https://youtu.be/J3P6eJ-aWNA
Видео Determine Kinetic Parameters for Data from Isothermal Plug Flow Reactor Part 1: Overview канала LearnChemE
See Part 2: Excel Calculations -- https://www.youtube.com/watch?v=vjC_DEkv-NY
Part 3: Excel Spreadsheet -- https://www.youtube.com/watch?v=v3WEs0LVnjQ
Part 4: Confidence Limits -- https://youtu.be/J3P6eJ-aWNA
Видео Determine Kinetic Parameters for Data from Isothermal Plug Flow Reactor Part 1: Overview канала LearnChemE
Показать
Комментарии отсутствуют
Информация о видео
Другие видео канала
Isothermal Batch Reactor Part 2 (POLYMATH Solution)
Mass Balances Batch Distillation
RTD for CSTRs in Series Part 2
Michaelis-Menten Parameters from Differential Reactor Data
Central Limit Theorem
VLE for Non-Ideal Mixture (Interactive Simulation)
Hypothesis Tests on the Mean Using Confidence Intervals
Nonlinear Regression to Determine Michaelis-Menten Kinetics Parameters Using POLYMATH
Calculate Fugacity of a Fluid
Solving Mass Balance Differential Equations for an Isothermal Plug Flow Reactor in Excel
Excel Case Study: Cantilever Beam Part 1 - Spreadsheet Setup
Nonlinear Regression to Determine Michaelis-Menten Kinetics Parameters Using Excel Solver
Pressure Comparisons Under Flow (Interactive)
Hunter-Nash Method for Liquid-Liquid Extraction (Interactive Simulation)
Controller Synthesis: First-Order Plus Dead Time
Ideal Gas - Pressure and Volume Dependence on Temperature
Multi-stage Batch Distillation (Interactive Simulation)
Introduction to Hypothesis Testing, Part 1
Single-stage distillation virtual laboratory overview
Osmotic Pressure for Nonideal Solutions