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Providing structure to experimental data: A large scale heterogeneous database for collaborative model validation Jim Oreluk Arun Hegde Wenyu Li Andrew Packard Michael Frenklach SIAM UNCERTAINTY QUANTIFICATION 18 APRIL 17, 2018 Overview

  1. Providing structure to experimental data: A large scale heterogeneous database for collaborative model validation Jim Oreluk Arun Hegde Wenyu Li Andrew Packard Michael Frenklach SIAM UNCERTAINTY QUANTIFICATION 18 APRIL 17, 2018

  2. Overview • Introduction • Giving structure to experimental data • PrIMe Data Warehouse • New PrIMe application • front-end application to the CCMSC coal database (filter, visualization, and export data) • Bound-to-Bound Data Collaboration workflow for model validation • Summary SIAM UNCERTAINTY QUANTIFICATION 18 APRIL 17, 2018

  3. Introduction • Predictive modeling starts with validation • Experimental data stored in various file formats – CSV, Excel, tab delimited, ASCII, etc. – No standard • Each record requires specialized knowledge of how the data was stored – Can be an incomplete record of experiment with missing information • We would like automated access to data – Without structure, query requests are quickly intractable across a diverse collection of data • Efficiently discover validation data to incorporate in the model validation process SIAM UNCERTAINTY QUANTIFICATION 18 APRIL 17, 2018

  4. Providing Structure to Experimental Data • What is PrIMe? – Data Warehouse – repository of experimental records – Applications – aid in development of predictive models • Transformation of information into a usable form • PrIMe’s data models use XML schemas to provide structure – Contains complete information of an experiment primekinetics.org – Experimental data is stored in XML or HDF5 files • Storage of raw experimental data and derived properties – Ability for instrumentation modeling SIAM UNCERTAINTY QUANTIFICATION 18 APRIL 17, 2018

  5. CCMSC Coal Database for V/UQ leveraging existing cloud infrastructure and data models Dataset unit Dataset unit Dataset unit U = ( U, L, M ) CCMSC crowdsourcing U 2 = ( U 2 , L 2 , M 2 ) Dataset unit Dataset unit U 3 = ( U 3 , L 3 , M 3 ) Dataset unit U 4 = ( U 4 , L 4 , M 4 ) U 5 = ( U 5 , L 5 , M 5 ) U e = ( U e , L e , M e ) efforts • International Flame Research Foundation, Livorno, Italy • Sandia National Laboratory, Livermore, CA 269 Solid Fuels & Blends Fossil, Biomass, Sludge, Waste, Char 2710 Data Groups collected from 1016 Records Varying Conditions (Temperatures, %O 2 , %H 2 O, Gas Mixture) Experiment Types: Devolatilization, Char oxidation In collaboration with Salvatore Iavaron and Alessandro Parente, Université Libre de Bruxelles SIAM UNCERTAINTY QUANTIFICATION 18 APRIL 17, 2018

  6. CCMSC Coal Database primekinetics.org github.com/oreluk/coalDB SIAM UNCERTAINTY QUANTIFICATION 18 APRIL 17, 2018

  7. CCMSC Coal Database Select Experiments Plot & Export Data SIAM UNCERTAINTY QUANTIFICATION 18 APRIL 17, 2018

  8. CCMSC Coal Database Char Temperature Fraction of Weight Loss SIAM UNCERTAINTY QUANTIFICATION 18 APRIL 17, 2018

  9. Char Oxidation Example Experimental Data of Utah Skyline coal from Sandia’s Laminar Entrained Flow Reactor Features: CO 2 or N 2 diluent Initial Particle Diameter: O 2 : H 2 O: Validation data at 399 different gas conditions & heights above burner SIAM UNCERTAINTY QUANTIFICATION 18 APRIL 17, 2018

  10. Bound-to-Bound Data Collaboration (B2BDC) SIAM UNCERTAINTY QUANTIFICATION 18 APRIL 17, 2018

  11. Bound-to-Bound Data Collaboration (B2BDC) SIAM UNCERTAINTY QUANTIFICATION 18 APRIL 17, 2018

  12. Bound-to-Bound Data Collaboration (B2BDC) SIAM UNCERTAINTY QUANTIFICATION 18 APRIL 17, 2018

  13. Bound-to-Bound Data Collaboration (B2BDC) SIAM UNCERTAINTY QUANTIFICATION 18 APRIL 17, 2018

  14. Bound-to-Bound Data Collaboration (B2BDC) SIAM UNCERTAINTY QUANTIFICATION 18 APRIL 17, 2018

  15. Bound-to-Bound Data Collaboration (B2BDC) QOI space Parameter space SIAM UNCERTAINTY QUANTIFICATION 18 APRIL 17, 2018

  16. B2BDC Model Validation Workflow Uncertain Parameters Response [Image of Char Oxidation Model Particle Temp (Instrument + Physics) Scenario Parameters, distribution & highlight QOI] Particle Temperature CCMSC Coal Database SIAM UNCERTAINTY QUANTIFICATION 18 APRIL 17, 2018

  17. B2BDC Model Validation Workflow Uncertain Parameters Response [Image of Char Oxidation Model Particle Temp (Instrument + Physics) Scenario Parameters, distribution & highlight QOI] Particle Temperature CCMSC Coal Database SIAM UNCERTAINTY QUANTIFICATION 18 APRIL 17, 2018

  18. B2BDC Model Validation Workflow Uncertain Parameters Response [Image of Char Oxidation Model Particle Temp (Instrument + Physics) Scenario Parameters, distribution & highlight QOI] Particle Temperature CCMSC Coal Database SIAM UNCERTAINTY QUANTIFICATION 18 APRIL 17, 2018

  19. B2BDC Model Validation Workflow Uncertain Parameters Response [Image of Char Oxidation Model Particle Temp (Instrument + Physics) Scenario Parameters, distribution & highlight QOI] Particle Temperature Dataset Unit CCMSC Coal Database SIAM UNCERTAINTY QUANTIFICATION 18 APRIL 17, 2018

  20. B2BDC Model Validation Workflow Uncertain Parameters Response [Image of Char Oxidation Model Particle Temp (Instrument + Physics) Scenario Parameters, distribution & highlight QOI] Particle Temperature Dataset Unit Dataset Unit Consistency Dataset Unit Dataset Unit Dataset Unit Dataset Unit Analysis CCMSC Coal Database Dataset SIAM UNCERTAINTY QUANTIFICATION 18 APRIL 17, 2018

  21. Validation through consistency Model Form Transport • Diffusion of oxidizer to particle surface • Diffusion of products from particle surface Scalar consistency measure : If all constraints are expanded by at least 26% the inconsistency can be resolved. If all constraints are expanded by no more than 19% the inconsistency cannot be resolved. SIAM UNCERTAINTY QUANTIFICATION 18 APRIL 17, 2018

  22. Validation through consistency Model Form Transport • Diffusion of oxidizer to particle surface • Diffusion of products from particle surface Scalar consistency measure : If all constraints are expanded by at least 26% the inconsistency can be resolved. If all constraints are expanded by no more than 19% the inconsistency cannot be resolved. SIAM UNCERTAINTY QUANTIFICATION 18 APRIL 17, 2018

  23. Validation through consistency Model Form Uncertain Kinetic Parameters Scalar consistency measure : Transport • Diffusion of oxidizer to particle surface • Diffusion of products from particle surface • Diffusion of oxidizer through coal particle – coal particle is a porous medium with internal surface area SIAM UNCERTAINTY QUANTIFICATION 18 APRIL 17, 2018

  24. Validation through consistency SIAM UNCERTAINTY QUANTIFICATION 18 APRIL 17, 2018

  25. Summary • Developed new data models for coal data • Easy filtering through a diverse collection of experimental data • B2BDC based test-bed for exploring parameter and model form uncertainty – With a consistent dataset we can do prediction of posterior QOI or parameter bounds, and sample the feasible set for correlations between parameters and QOIs SIAM UNCERTAINTY QUANTIFICATION 18 APRIL 17, 2018

  26. Acknowledgements This material is based upon work supported by the Department of Energy, National Nuclear Security Administration, under Award Number(s) DE- NA0002375. The views and opinions of authors expressed herein do not necessarily state or reflect those of the United States Government or any agency thereof. SIAM UNCERTAINTY QUANTIFICATION 18 APRIL 17, 2018

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