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Chemkin 4.1.1 Chapter 2: Combustion in Gas-phase Processes Figure 2-44 PaSR Methane/Air—Temperature Variance Comparison Figure 2-45 PaSR Methane/Air—CO Comparison Since we requested the temperature pdf to be saved to a data file, we can view the pdf profile by importing it into the Post-Processor. To import the pdf profile generated by the PaSR, we use the Import command in the File menu of the CHEMKIN Post- Processor. After we select the data file, pdf_T_0.1.plt, we should instruct the Post- Processor to skip the first two lines of the text and to read the third line as column titles as shown in Figure 2-46. We also need to set the column delimiter to “space”. We can repeat the same procedures for the second file containing the temperature pdf of the weak mixing case. Once we have both pdf's imported to the Post- Processor, we can plot these two profiles together for easy comparisons. As shown in Figure 2-47, the pdf of strong mixing case peaks around 2000 K with a small “tail” over temperatures slightly lower than the peak value. We can conclude that a stable combustion zone is established in the strong mixing combustor. The weak mixing case, however, has two peaks in its temperature pdf profile. A smaller peak is located © 2007 Reaction Design 68 RD0411-C20-000-001
Chapter 2: Combustion in Gas-phase Processes <strong>Tutorials</strong> <strong>Manual</strong> near 2000 K suggesting there is still some initially burned gas mixture left in the combustor. The large peak of the temperature pdf indicates the combustor most likely has a temperature of 500 K which is the temperature of the inlet gas mixture. Although there might be limited chemical reactions, the slow mixing process cannot sustain a combustion zone inside the combustor. Figure 2-46 PaSR Methane/Air—Select the Import File Format Figure 2-47 PaSR Methane/Air—PDF(T) Comparison 2.6.4 Side Inlet on a Plug Flow Reactor 2.6.4.1 Project Description This tutorial illustrates the use of the side inlet flow into a plug flow reactor, to approximate the effect of a mixing region on product composition. The chemistry used by this project is the Lawrence Livermore National Laboratory NO x mechanism 21 . Ammonia as a product of a nitrogen fuel contributes to the production of NO in postflame oxidation. This model predicts how a mixing region affects the production of NO in a high-temperature oxidizing region that is post-flame. RD0411-C20-000-001 69 © 2007 Reaction Design
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August 3, 2007 1:53 am Release 4.1.
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Chemkin 4.1.1 Contents Table of Con
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Chemkin 4.1.1 Tables List of Tables
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Tutorials Manual 4.1.1 Figures List
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List of Figures Tutorials Manual 2-
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List of Figures Tutorials Manual 4-
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Chemkin 4.1.1 1 1 Introduction The
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Chapter 1: Introduction Tutorials M
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Tutorials Manual 4.1.1 Index Index
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Index Tutorials Manual normalized s
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Tutorials Manual

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