**E133: Fall 2023 Handouts, Notes, Code, and Other Info** |[home](index.md.html)|[assignments](assignments.md.html)|[final project](FinProj.md.html)|[notes and code](notecode.md.html)| # Supplementary Text - [Table of Sample Reactor Equations](notes/ReactTable.md.html) - [Levenspiel Problem 3-20](notes/LevenspielP3-20.pdf) - [Equilibrium Reactions](notes/E133_F2023_Equilibrium_Reactions.pdf) - [CSTR Volume Ratio vs. Conversion](nb/CSTRVratioOpt.nb) (If needed, right-click and choose "save link as...") - [Summary of Denbigh (Series-Parallel) Reaction Networks](notes/DenbighReactions.pdf) - [Figures 9.10 & 9.11 from Hill & Root](notes/Figures9_10_9_11.pdf) - [Summary of Thermal Effects](notes/ThermalEffectsSummary.pdf) - [Lecture Notes on Thermal and Start of Het. Kin.](notes/E133_Fall2023_Thermo_Het_Kin_Lecture_Notes.pdf) - [Heterogenous Kinetics Summary from Froment and Bischoff](notes/FromentBischoffKineticsHandout.pdf) - [Levenspiel Het. Kin. Problems](notes/LevenspielCatalystProbs.pdf) - [Fitting ODE Parameters to Data](ODEParameterFitting.md.html) - [Surface Reaction Modeling](notes/Surface_Reaction_Modeling.pdf) - [Pore Diffusion and $\eta$ Modeling](notes/E133_Fall2023_Last_Two_Lectures.pdf) # LabVIEW Virtual Instruments for the Class There are two sorts of virtual instruments that you can run, there are VI's that work if you have a relevant version of LabVIEW installed, and stand-alone applications that will work if you have the LabVIEW Runtime Engine installed. Since you don't need to develop LabVIEW VIs for the class (although you are welcome to), it's quicker and easier/cheaper to install the Runtime Engine and use the standalone applications. - The VIs will work on Windows, macOS, and Linux with the appropriate version of LabVIEW installed. - The standalone applications come in both Windows and macOS versions. You'll need to install both the LabVIEW Runtime and the version of the app that corresponds to your OS. ## LabVIEW VIs (Requires a version of [LabVIEW](https://www.ni.com/en-us/shop/labview.html) to use) These are both in LabVIEW Libraries (.llb files) to keep needed resources together - [Batch Simulator, CSTR Simulator, and PFR Simulator](VI/ReactorSims.llb) - [Final Project Batch Reactor Simulator](VI/FinalProject.llb) ## LabVIEW Runtime (Required for Standalone Applications) - [For Windows](https://www.ni.com/en-us/support/downloads/software-products/download.labview-runtime.html#484336) - [For macOS](https://www.ni.com/en-us/support/downloads/software-products/download.labview-runtime.html#485577) - [For Linux](https://www.ni.com/en-us/support/downloads/software-products/download.labview-runtime.html#485573) ## Standalone Applications (Requires LabVIEW Runtime to be installed) ### Windows The .exe files are from an unregistered developer (me). You will need to convince whatever version of Windows that you are running that it's OK to run the app. When you double-click the downloaded file, on Windows 11, you'll get a "Windows protected your PC" screen. Click on "More info", then "Run anyway". - [Batch Simulator](VI/BatchSIM.exe) - [CSTR Simulator](VI/CSTR.exe) - [PFR Simulator](VI/PFRSIM.exe) - [Final Project Batch Reactor Simulator](VI/FPBatchReactor.exe) ### macOS The macOS apps are from an unregistered developer (me). They have been zipped. You will need to download the file, uncompress (unzip) it, try to run it, go the System Settings/Privacy & Security, scroll to Security, and click on "Run Anyway", then try running the file again. - [Batch Simulator](VI/BatchSIM.zip) - [CSTR Simulator](VI/CSTR.zip) - [PFR Simulator](VI/PFRSIM.zip) - [Final Project Batch Reactor Simulator](VI/FPBatchReactor.zip) # Sample Mathematica for the Class - Multiple Methods for HBR Kinetics [.nb](notes/HBr_kinetics.nb), [PDF](notes/HBr_kinetics.pdf) # Sample Spreadsheets - [Numerical Integration and Root Finder Example](notes/ExampleNumIntRootFind.xlsx) - [Non-linear Least-Squares Parameter Fitter Example](notes/ExampleLSQFit.xlsx) - [Levenspiel Prob. 3-20 Solution](notes/ExampleKineticAnal3-20.xlsx) - [LSQ Rate Fitting Example](notes/RateLSSQExample.xlsx) - [CSTR Energy Balance Examples](notes/ExampleCSTR_Eng_Bal.xlsx) - [Levenspiel Het. Kin. Problem Solutions](notes/LevenspielSolutions.xlsx) # Exam Solutions - [Exam 1 Histogram](Exams/E133_F2023_Exam_1_Histogram.pdf) - [Exam 1 PDF of solution](Exams/E133_F2023_Exam_1_Solution.pdf) - [Exam 1 Spreadsheet of P1 and P2 solutions](Exams/Exam1Solution.xlsx) - [Exam 1 Mathematica of PS2 solution](Exams/Prob_2_Solution.nb) - [Exam 1 Mathematica of PS3 solution](Exams/Prob_3_solution.nb) - [Exam 2 Histogram](Exams/E133_F2023_Exam_2_Histogram.pdf) - [Exam 2 PDF of solution](Exams/E133_F2023_Exam_2_Solution.pdf) - [Exam 2 Spreadsheet of solution](Exams/Exam2Soln.xlsx) # Assumed Material from E82 E82 is assumed as a prerequisite for this course. The material may have been learned in other chemistry, chemical engineering, or physics courses. The [Video Lecture Page](https://pages.hmc.edu/spjut/E82/vid.md.html) on the [E82 website](https://pages.hmc.edu/spjut/E82/index.md.html) contains video and PDF links to the relevant material. Feel free to use the PDFs and videos to review and/or learn the expected material from the prerequisites. Be aware that the nomenclature in E82 and E133 differ, and you may need to do some translating. The [Video Lecture playlist on YouTube](https://www.youtube.com/playlist?list=PL1lnrwjgo31gb1NFBQy03i7ZXaccVD4xk) is also available. Here are the relevant days from the [Video Lecture Page](https://pages.hmc.edu/spjut/E82/vid.md.html) on the [E82 website](https://pages.hmc.edu/spjut/E82/index.md.html). - [Tuesday, 30 August 2022](https://pages.hmc.edu/spjut/E82/vid.md.html#schedule1_2022-8-30) starting with Process Data through the end of the list - [Thursday, 1 September 2022](https://pages.hmc.edu/spjut/E82/vid.md.html#schedule1_2022-9-1) all videos - [Tuesday, 6 September 2022](https://pages.hmc.edu/spjut/E82/vid.md.html#schedule1_2022-9-6) all videos - [Tuesday, 13 September 2022](https://pages.hmc.edu/spjut/E82/vid.md.html#schedule1_2022-9-13) all videos - [Thursday, 15 September 2022](https://pages.hmc.edu/spjut/E82/vid.md.html#schedule1_2022-9-15) all videos - [Tuesday, 27 September 2022](https://pages.hmc.edu/spjut/E82/vid.md.html#schedule1_2022-9-27) Ideal Gases, Real Gases - [Thursday, 29 September 2022](https://pages.hmc.edu/spjut/E82/vid.md.html#schedule1_2022-9-29) Solving Nonlinear Equations with a Spreadsheet - [Thursday, 6 October 2022](https://pages.hmc.edu/spjut/E82/vid.md.html#schedule1_2022-10-6) An Introduction to The First Law of Thermodynamics - [Thursday, 20 October 2022](https://pages.hmc.edu/spjut/E82/vid.md.html#schedule1_2022-10-20) $\Delta U$ and $\Delta H$ as Functions of Temperature and Pressure - [Tuesday, 1 November 2022](https://pages.hmc.edu/spjut/E82/vid.md.html#schedule1_2022-11-1) both videos - [Thursday, 3 November 2022](https://pages.hmc.edu/spjut/E82/vid.md.html#schedule1_2022-11-3) both videos As always, feel free to ask me any questions you want about the review material.