1 / 29

Lecture 11 Thursday 2/7/08

Lecture 11 Thursday 2/7/08. Determining the Rate Law from Experimental Data Integral Method Graphical Method Nonlinear Least Regression Multiple Reactions The Four Types What’s New to Our Algorithm Reactions in Series. Levenspiel Plot.

yvonne
Download Presentation

Lecture 11 Thursday 2/7/08

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Lecture 11 Thursday 2/7/08 Determining the Rate Law from Experimental Data Integral Method Graphical Method Nonlinear Least Regression Multiple Reactions The Four Types What’s New to Our Algorithm Reactions in Series

  2. Levenspiel Plot

  3. Two steps to get                    Step 1: Rate Law Step 2: Stoichiometry Step 3: Combine to get

  4. Finding Rate Laws, Multiple Reactions ln Slope = α dCA/dt ln CA Areas equal for both sides of the histogram .3 .2 .1 t Find the f(t) of using equal area differentiation 1 2 3 ln dCA/dt Slope = α Plot –dCA/dt as a function of CA α = slope CA

  5. Regression Method Guess values for α and k and solve for measured data points then sum squared differences for α = 2, k = 1 → S2 = 0.079 for α = 2, k = 2 → S2 = 0.27 etc. until S2 is a minimum

  6. 4 Types of Multiple Reactions • Series: A → B → C • Parallel: A → D, A → U • Independent: A → B, C → D • Complex: A + B →C + D, A + C → E • With multiple reactors, either molar flow or number of moles must be used (no conversion!) • FlowBatch • Rates: rate law for each reaction • net rates: • the sum of rates for each reaction given

  7. example: 1) A + B → C + D -r1A= k1ACACB-r2A= k1ACACC 2) A + B → E etc…. relative rates: only applied to a given reaction Stoich: example: A → B → C (1) A → B k1 (2) B → C k2 1) mole balance: 2) rates: laws net rates V=V0 (constant batch)

More Related