Seyed Mostafa Safdarnejad
Members.SeyedMostafaSafdarnejad History
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(:title Seyed Mostafa Safdarnejad - BYU PRISM Group:)
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(:title Seyed Mostafa Safdarnejad:)
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* '''Ph.D., Chemical Engineering ''', Brigham Young University (BYU), Provo, Utah (Aug. 2012-Present)
* ''Emphasis'': Large-ScaleModeling, Advanced Process Control, and Optimization of Distributed Processes
*''Thesis'': Developing Modeling, Optimization, and Model Predictive Control Frameworks for Improving the Performance and Economics of Energy Related Applications [[Attach:2016_Safdarnejad_dissertation.pdf|Download (PDF)]] [[http://scholarsarchive.byu.edu/etd/6057/|Scholar's Archive]]
* ''Emphasis'': Large-Scale
*
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* '''Ph.D., Chemical Engineering ''', Brigham Young University (BYU), Provo, Utah (Aug. 2012-June 2016)
* ''Emphasis'': Development of Large-Scale Process Model, Optimization, and Advanced Process Control Frameworks for Energy–Intensive Processes
* ''Thesis'': Developing Modeling, Optimization, and Advanced Process Control Frameworks for Improving the Performance of Transient Energy–Intensive Applications [[Attach:2016_Safdarnejad_dissertation.pdf|Download (PDF)]] [[http://scholarsarchive.byu.edu/etd/6057/|Scholar's Archive]]
* ''Emphasis'': Development of Large-Scale Process Model, Optimization, and Advanced Process Control Frameworks for Energy–Intensive Processes
* ''Thesis'': Developing Modeling, Optimization, and Advanced Process Control Frameworks for Improving the Performance of Transient Energy–Intensive Applications [[Attach:2016_Safdarnejad_dissertation.pdf|Download (PDF)]] [[http://scholarsarchive.byu.edu/etd/6057/|Scholar's Archive]]
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* Agent-based modeling
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* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L., Dynamic Optimization of the Hybrid System of a Baseline Power Generation Unit and Cryogenic Carbon Capture, Western Section of the Combustion Institute, Fall 2015 Meeting, Provo, UT, October 5-6, 2015.
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* Safdarnejad, S.M., Strahl, W., Hedengren, J.D., Baxter, L.L., Comparison in Dynamic Response of Energy-Storing Cryogenic and Chemical Absorption Carbon Capture Systems to Electricity Demand, AIChE National Meeting, Minneapolis, MN, Nov. 2017
* Jackson, R., Safdarnejad, S.M., Bayrak, E. S., Cinar, A., et. al., Agent Based Modeling of a Mammalian Cell Culture Bioreactor with High Performance Computing to Predict Cell Behavior, AIChE National Meeting, Minneapolis, MN, Nov. 2017
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L., Performance Comparison of a Cryogenic and Chemical Absorption Carbon Capture Systems in Response to a Dynamic Electricity Load Profile, Carbon Management Technology Conference, Houston, TX, July 2017
* Safdarnejad, S.M., Richards, J., Griffiths, J., Hedengren, J.D., Baxter, L.L., Increased Stability of a Power Grid by Energy Storage of Cryogenic Carbon Capture, AIChE Spring Meeting, Houston, TX, Apr. 2016
* Jackson, R., Safdarnejad, S.M., Bayrak, E. S., Cinar, A., et. al., Agent Based Modeling of a Mammalian Cell Culture Bioreactor with High Performance Computing to Predict Cell Behavior, AIChE National Meeting, Minneapolis, MN, Nov. 2017
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L., Performance Comparison of a Cryogenic and Chemical Absorption Carbon Capture Systems in Response to a Dynamic Electricity Load Profile, Carbon Management Technology Conference, Houston, TX, July 2017
* Safdarnejad, S.M., Richards, J., Griffiths, J., Hedengren, J.D., Baxter, L.L., Increased Stability of a Power Grid by Energy Storage of Cryogenic Carbon Capture, AIChE Spring Meeting, Houston, TX, Apr. 2016
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* Eaton, A.Safdarnejad, S.M., Hedengren, J.D., Nybø, R., Aghito, M., Boubsi, R.E., Braaksma, J., van Og, G., Model Redundancy for Data Validation in Automated Managed Pressure Drilling, SPE ATCE 2015.
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* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L., Dynamic Optimization of the Hybrid System of a Baseline Power Generation Unit and Cryogenic Carbon Capture, Western Section of the Combustion Institute, Fall 2015 Meeting, Provo, UT, October 5-6, 2015.
* Eaton, A., Safdarnejad, S.M., Hedengren, J.D., Nybø, R., Aghito, M., Boubsi, R.E., Braaksma, J., van Og, G., Model Redundancy for Data Validation in Automated Managed Pressure Drilling, SPE ATCE, Houston, TX, Sep. 2015.
* Eaton, A., Safdarnejad, S.M., Hedengren, J.D., Nybø, R., Aghito, M., Boubsi, R.E., Braaksma, J., van Og, G., Model Redundancy for Data Validation in Automated Managed Pressure Drilling, SPE ATCE, Houston, TX, Sep. 2015.
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'''* Aug 2012- Present: Brigham Young University, Utah, USA '''
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'''* May 2016- July 2017: Intech Process Automation, Texas, USA '''
* Increased the measurement accuracy by deploying equation-based simulation models, advanced optimization, and statistical data analysis in error minimization of the data collected from power plants and oil and gas processes
* Developed in-house first-principles and empirical models (steady-state and dynamic) for parameter estimation, advanced optimization, and model predictive control of energy systems
* Prepared functional design specification and provided engineering support for commercial business development for Intech’s Process Data Assessment and Reconciliation (ProDAR) Solution
'''* January 2016- July 2016: Illinois Institute of Technology, Illinois, USA '''
* Developed a mathematical model in C++ to predict the behavior of mammalian cells in a bioreactor and verified it with experimental data
* Optimized the performance of an agent-based model of a bioreactor system to run faster and more efficiently
'''* Aug 2012- June 2016: Brigham Young University, Utah, USA '''
* Increased the measurement accuracy by deploying equation-based simulation models, advanced optimization, and statistical data analysis in error minimization of the data collected from power plants and oil and gas processes
* Developed in-house first-principles and empirical models (steady-state and dynamic) for parameter estimation, advanced optimization, and model predictive control of energy systems
* Prepared functional design specification and provided engineering support for commercial business development for Intech’s Process Data Assessment and Reconciliation (ProDAR) Solution
'''* January 2016- July 2016: Illinois Institute of Technology, Illinois, USA '''
* Developed a mathematical model in C++ to predict the behavior of mammalian cells in a bioreactor and verified it with experimental data
* Optimized the performance of an agent-based model of a bioreactor system to run faster and more efficiently
'''* Aug 2012- June 2016: Brigham Young University, Utah, USA '''
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* 2016: Most citations award on a published paper at Chemical Engineering Department, BYU
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* Chemical Engineering Software: Aspen Plus, Hysys, OLGA, Pipesim, PVTsim, Pipephase, Pro II, Multiflash, Fluent, Flarenet
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* Chemical Engineering Software: Aspen Plus, Hysys, VMGSim, PRO II, OLGA, Pipesim, PVTsim, Pipephase, Multiflash, Fluent, Flarenet
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* Introduction to VMGSim software package, Houston, USA (Sep. 2017)
* Data Validation and Reconciliation in Vali, Houston, USA (Mar. 2017)
* Digital Oil Field Training- Frontender, Houston, USA (Sep. 2016)
* Digital Oil Field Training- Frontender, Houston, USA (Sep. 2016)
* Data Validation and Reconciliation in Vali, Houston, USA (Mar. 2017)
* Digital Oil Field Training- Frontender, Houston, USA (Sep. 2016)
* Digital Oil Field Training- Frontender, Houston, USA (Sep. 2016)
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* Email: safdarnejad@byu.edu , mostafa.safdarnejad@gmail.com
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* Email: mostafa.safdarnejad@gmail.com
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* ''Thesis'': Developing Modeling, Optimization, and Model Predictive Control Frameworks for Improving the Performance and Economics of Energy Related Applications [[Attach:2016_Safdarnejad_dissertation.pdf|Download (PDF)]]
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* ''Thesis'': Developing Modeling, Optimization, and Model Predictive Control Frameworks for Improving the Performance and Economics of Energy Related Applications [[Attach:2016_Safdarnejad_dissertation.pdf|Download (PDF)]] [[http://scholarsarchive.byu.edu/etd/6057/|Scholar's Archive]]
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* ''Thesis'': Developing Modeling, Optimization, and Model Predictive Control Frameworks for Improving the Performance and Economics of Energy Related Applications
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* ''Thesis'': Developing Modeling, Optimization, and Model Predictive Control Frameworks for Improving the Performance and Economics of Energy Related Applications [[Attach:2016_Safdarnejad_dissertation.pdf|Download (PDF)]]
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* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L, Dynamic optimization of a hybrid system of energy-storing cryogenic carbon capture and a baseline power generation unit, Applied Energy Journal, Vol. 172, pp. 66–79, DOI: doi:10.1016/j.compchemeng.2015.12.001 [[http://www.sciencedirect.com/science/article/pii/S0306261916303944 | Article]]
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* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L, Dynamic optimization of a hybrid system of energy-storing cryogenic carbon capture and a baseline power generation unit, Applied Energy Journal, Vol. 172, pp. 66–79, doi:10.1016/j.compchemeng.2015.12.001 [[http://www.sciencedirect.com/science/article/pii/S0306261916303944 | Article]]
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* Safdarnejad, S.M., Gallacher, J., Hedengren, J.D., Dynamic parameter estimation and optimization for batch distillation, Computers and Chemical Engineering, Vol. 86, 4 March 2016, pp. 18-32, DOI:10.1016/j.compchemeng.2015.12.001
[[http://www.sciencedirect.com/science/article/pii/S0098135415003658 | Article]]
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* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L, Dynamic optimization of a hybrid system of energy-storing cryogenic carbon capture and a baseline power generation unit, Applied Energy Journal, Vol. 172, pp. 66–79, DOI: doi:10.1016/j.compchemeng.2015.12.001 [[http://www.sciencedirect.com/science/article/pii/S0306261916303944 | Article]]
* Safdarnejad, S.M., Gallacher, J., Hedengren, J.D., Dynamic parameter estimation and optimization for batch distillation, Computers and Chemical Engineering, Vol. 86, 4 March 2016, pp. 18-32, DOI:10.1016/j.compchemeng.2015.12.001 [[http://www.sciencedirect.com/science/article/pii/S0098135415003658 | Article]]
* Safdarnejad, S.M., Gallacher, J., Hedengren, J.D., Dynamic parameter estimation and optimization for batch distillation, Computers and Chemical Engineering, Vol. 86, 4 March 2016, pp. 18-32, DOI:10.1016/j.compchemeng.2015.12.001 [[http://www.sciencedirect.com/science/article/pii/S0098135415003658 | Article]]
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* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L, Dynamic optimization of a hybrid system of energy-storing cryogenic carbon capture and a baseline power generation unit, Applied Energy Journal, Vol. 172, pp. 66–79, DOI: 10.1016/j.apenergy.2016.03.074
* Safdarnejad, S.M., Gallacher, J., Hedengren, J.D., Framework for Dynamic Parameter Estimation and Optimization of Batch Distillation Processes, Computers and Chemical Engineering, Vol. 86, 4 March 2016, pp. 18-32, DOI: doi:10.1016/j.compchemeng.2015.12.001
to:
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L, Dynamic optimization of a hybrid system of energy-storing cryogenic carbon capture and a baseline power generation unit, Applied Energy Journal, Vol. 172, pp. 66–79, DOI: doi:10.1016/j.compchemeng.2015.12.001
[[http://www.sciencedirect.com/science/article/pii/S0306261916303944 | Article]]
* Safdarnejad, S.M., Gallacher, J., Hedengren, J.D., Dynamic parameter estimation and optimization for batch distillation, Computers and Chemical Engineering, Vol. 86, 4 March 2016, pp. 18-32, DOI:10.1016/j.compchemeng.2015.12.001
[[http://www.sciencedirect.com/science/article/pii/S0098135415003658 | Article]]
[[http://www.sciencedirect.com/science/article/pii/S0306261916303944 | Article]]
* Safdarnejad, S.M., Gallacher, J., Hedengren, J.D., Dynamic parameter estimation and optimization for batch distillation, Computers and Chemical Engineering, Vol. 86, 4 March 2016, pp. 18-32, DOI:10.1016/j.compchemeng.2015.12.001
[[http://www.sciencedirect.com/science/article/pii/S0098135415003658 | Article]]
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* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L, Dynamic optimization of a hybrid system of energy-storing cryogenic carbon capture and a baseline power generation unit, Applied Energy Journal, Vol. 172, pp. 66–79, DOI: 10.1016/j.apenergy.2016.03.074 [[http://www.sciencedirect.com/science/article/pii/S0306261916303944]]
to:
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L, Dynamic optimization of a hybrid system of energy-storing cryogenic carbon capture and a baseline power generation unit, Applied Energy Journal, Vol. 172, pp. 66–79, DOI: 10.1016/j.apenergy.2016.03.074
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* Safdarnejad, S.M., Gallacher, J.Hedengren, J.D., Framework for Dynamic Parameter Estimation and Optimization of Batch Distillation Processes, Computers and Chemical Engineering, submitted
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* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L, Dynamic optimization of a hybrid system of energy-storing cryogenic carbon capture and a baseline power generation unit, Applied Energy Journal, Vol. 172, pp. 66–79, DOI: 10.1016/j.apenergy.2016.03.074 [[http://www.sciencedirect.com/science/article/pii/S0306261916303944]]
* Safdarnejad, S.M., Gallacher, J., Hedengren, J.D., Framework for Dynamic Parameter Estimation and Optimization of Batch Distillation Processes, Computers and Chemical Engineering, Vol. 86, 4 March 2016, pp. 18-32, DOI: doi:10.1016/j.compchemeng.2015.12.001
[[http://www.sciencedirect.com/science/article/pii/S0098135415003658]]
* Safdarnejad, S.M., Gallacher, J., Hedengren, J.D., Framework for Dynamic Parameter Estimation and Optimization of Batch Distillation Processes, Computers and Chemical Engineering, Vol. 86, 4 March 2016, pp. 18-32, DOI: doi:10.1016/j.compchemeng.2015.12.001
[[http://www.sciencedirect.com/science/article/pii/S0098135415003658]]
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* Safdarnejad, S.M., Kennington, L., Hedengren, J.D., Baxter, L.L, Investigating the Impact of Cryogenic Carbon Capture on the Performance of Power Plants, American Control Conference (ACC), Chicago, IL, July 2015 [[Attach:ACC2015_Mostafa.pdf|Preprint]]
to:
* Safdarnejad, S.M., Kennington, L., Baxter, L., Hedengren, J.D., Investigating the Impact of Cryogenic Carbon Capture on Power Plant Performance, American Control Conference, pp. 5016-5021, Chicago, IL, July 2015, DOI: 10.1109/ACC.2015.7172120. [[Attach:ACC2015_Mostafa.pdf|Preprint]]
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* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L., Dynamic Optimization of the Hybrid System of a Baseline Power Generation Unit and Cryogenic Carbon Capture, Western Section of the Combustion Institute, Fall 2015 Meeting, Provo, UT, October 5-6, 2015.
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* Park, J., Safdarnejad, S.M., Asgharzadeh Shishavan, R., Hedengren, J.D., Rastegar, R., Snell, A., Nonlinear Model Predictive Control of Managed Pressure Drilling Based on Hammerstein-Wiener Piecewise Linear Models, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:drilling_aiche15.pdf |Abstract]]
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* Park, J., Safdarnejad, S.M., Asgharzadeh Shishavan, R., Hedengren, J.D., Rastegar, R., Snell, A., Nonlinear Model Predictive Control of Managed Pressure Drilling Based on Hammerstein-Wiener Piecewise Linear Models, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:AICHE_Abstract_2015fall_Junho_Mostafa.pdf |Abstract]]
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''Emphasis'': Large-Scale Modeling, Advanced Process Control, and Optimization of Distributed Processes
''Thesis'': Developing Modeling, Optimization, and Model Predictive Control Frameworks for Improving the Performance and Economics of Energy Related Applications
''Thesis'': Developing Modeling, Optimization, and Model Predictive Control Frameworks for Improving the Performance and Economics of Energy Related Applications
to:
* ''Emphasis'': Large-Scale Modeling, Advanced Process Control, and Optimization of Distributed Processes
* ''Thesis'': Developing Modeling, Optimization, and Model Predictive Control Frameworks for Improving the Performance and Economics of Energy Related Applications
* ''Thesis'': Developing Modeling, Optimization, and Model Predictive Control Frameworks for Improving the Performance and Economics of Energy Related Applications
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* '''Thesis''': CFD modeling of an Autothermal Catalytic Monolith Reformer to Obtain Hydrogen for Fuel Cells
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* ''Thesis'': CFD modeling of an Autothermal Catalytic Monolith Reformer to Obtain Hydrogen for Fuel Cells
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* '''Thesis''': Hydraulic Calculation of Transport Pipelines of Two Gas Fields using OLGA and Pipesim Software Packages
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* ''Thesis'': Hydraulic Calculation of Transport Pipelines of Two Gas Fields using OLGA and Pipesim Software Packages
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''Emphasis'': Large-Scale Modeling, Advanced Process Control, and Optimization of Distributed Processes
''Thesis'': Developing Modeling, Optimization, and Model Predictive Control Frameworks for Improving the Performance and Economics of Energy Related Applications
''Thesis'': Developing Modeling, Optimization, and Model Predictive Control Frameworks for Improving the Performance and Economics of Energy Related Applications
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* '''Emphasis''': Thermodynamics and Reaction Kinetics
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* ''Emphasis'': Thermodynamics and Reaction Kinetics
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* '''Emphasis''': Process Design of Petroleum Industries
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* ''Emphasis'': Process Design of Petroleum Industries
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* [[https://www.linkedin.com/in/msafdarnejad | LinkedIn Profile]]
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'''* Aug 2012- Present: Brigham Young University '''
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'''* Aug 2012- Present: Brigham Young University, Utah, USA '''
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* Developing model redundancy for data validation in automated managed pressure drilling (MPD)
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* Developed model redundancy for data validation in automated managed pressure drilling (MPD)
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* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L, Effect of Cryogenic Carbon Capture (CCC) on Smart Power Grids, AIChE Spring Meeting, Austin, TX, Apr. 2015[[Attach:AIChE2015_spring_Mostafa.pdf |Abstract]]
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* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L, Effect of Cryogenic Carbon Capture (CCC) on Smart Power Grids, AIChE Spring Meeting, Austin, TX, Apr. 2015 [[Attach:AIChE2015_spring_Mostafa.pdf |Abstract]]
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* Safdarnejad, S.M., Hedengren, J.D., Lewis, N.R., Haseltine, E., Initialization Strategies for Optimization of Dynamic Systems, Computers and Chemical Engineering, Vol. 78, pp. 39-50[[http://www.sciencedirect.com/science/article/pii/S0098135415001179 | Article]]
to:
* Safdarnejad, S.M., Hedengren, J.D., Lewis, N.R., Haseltine, E., Initialization Strategies for Optimization of Dynamic Systems, Computers and Chemical Engineering, Vol. 78, pp. 39-50 [[http://www.sciencedirect.com/science/article/pii/S0098135415001179 | Article]]
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* '''Ph.D., Chemical Engineering ''', Aug. 2012-Present
'''Brigham Young University(BYU)''', Provo, Utah.
'''Brigham Young University
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* '''Ph.D., Chemical Engineering ''', Brigham Young University (BYU), Provo, Utah (Aug. 2012-Present)
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* '''M.Sc., Chemical Engineering ''', 2008 –2011
'''IranUniversity of Science and Technology (IUST)'''
'''Iran
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* '''M.Sc., Chemical Engineering ''', Iran University of Science and Technology (IUST), Tehran, Iran (2008 –2011)
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* '''B.Sc., Chemical Engineering ''', 2004-2008
'''Iran University of Science and Technology (IUST)'''
'''
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* '''B.Sc., Chemical Engineering ''', Iran University of Science and Technology (IUST), Tehran, Iran (2004-2008)
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'''Brigham Young University (BYU)''', Provo, Utah.
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'''Iran University of Science and Technology (IUST)'''
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'''Iran University of Science and Technology (IUST)'''
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- Brigham Young University (BYU), Provo, Utah.
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* 2008 –2011: M.Sc. student of Chemical Engineering, Iran University of Science and Technology (IUST)
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* '''M.Sc., Chemical Engineering ''', 2008 –2011
- Iran University of Science and Technology (IUST)
- Iran University of Science and Technology (IUST)
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* 2004-2008 : B.Sc. student of Chemical Engineering, Iran University of Science and Technology (IUST)
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* '''B.Sc., Chemical Engineering ''', 2004-2008
- Iran University of Science and Technology (IUST)
- Iran University of Science and Technology (IUST)
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Brigham Young University (BYU), Provo, Utah.
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* Brigham Young University (BYU), Provo, Utah.
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* Aug. 2012-Present: Ph.D. student of Chemical Engineering, Brigham Young University (BYU), Provo, Utah.
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* '''Ph.D., Chemical Engineering ''', Aug. 2012-Present
Brigham Young University (BYU), Provo, Utah.
Brigham Young University (BYU), Provo, Utah.
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* Aug. 2012-Present: PhD student of Chemical Engineering, Brigham Young University (BYU), Provo, Utah.
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* Aug. 2012-Present: Ph.D. student of Chemical Engineering, Brigham Young University (BYU), Provo, Utah.
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* Aug. 2012-Present: PhD student of Chemical Engineering, Department of Chemical Engineering, Brigham Young University (BYU), Provo, Utah.
* '''Emphasis''': Large-Scale Optimization, Automation, and Control of Distributed Processes
*'''Thesis''': Developing Optimization and Control Framework for Improving the Performance and Economics of Industrial Applications.
* 2008 –2011: M.Sc. student in Chemical Engineering, Department of Chemical Engineering, Iran University of Science and Technology (IUST)
* '''Emphasis''': Large-Scale
*
* 2008
to:
* Aug. 2012-Present: PhD student of Chemical Engineering, Brigham Young University (BYU), Provo, Utah.
* '''Emphasis''': Large-Scale Modeling, Advanced Process Control, and Optimization of Distributed Processes
* '''Thesis''': Developing Modeling, Optimization, and Model Predictive Control Frameworks for Improving the Performance and Economics of Energy Related Applications
* 2008 –2011: M.Sc. student of Chemical Engineering, Iran University of Science and Technology (IUST)
* '''Emphasis''': Large-Scale Modeling, Advanced Process Control, and Optimization of Distributed Processes
* '''Thesis''': Developing Modeling, Optimization, and Model Predictive Control Frameworks for Improving the Performance and Economics of Energy Related Applications
* 2008 –2011: M.Sc. student of Chemical Engineering, Iran University of Science and Technology (IUST)
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* 2004-2008 : B.Sc. student in Chemical Engineering, Department of Chemical Engineering, Iran University of Science and Technology (IUST)
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* 2004-2008 : B.Sc. student of Chemical Engineering, Iran University of Science and Technology (IUST)
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* '''Thesis''': Hydraulic Calculation of Transport Pipelines of "Dey" and "Sefidzakhor" Gas Fields by the Aid of OLGA and Pipesim Software Packages
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* '''Thesis''': Hydraulic Calculation of Transport Pipelines of Two Gas Fields using OLGA and Pipesim Software Packages
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* Process Control and Process Design Engineering
* Dynamic Simulationand Optimization
* Dynamic Simulation
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* Basic and Advanced Process Control
* Steady state and Dynamic Simulation and Optimization
* Process Design
* Steady state and Dynamic Simulation and Optimization
* Process Design
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* Sustainable Energy Research
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* Energy
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* Aug. 2012-Present: PhD student in Chemical Engineering, Department of Chemical Engineering, Brigham Young University (BYU), Provo, Utah.
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* Aug. 2012-Present: PhD student of Chemical Engineering, Department of Chemical Engineering, Brigham Young University (BYU), Provo, Utah.
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* Optimization, control, and numerical skills:: Dynamic optimization and estimation, First-principle modeling, Development of model predictive controllers, Constrained optimization, Real-time implementation, Initialization and optimization of large-scale models, Controllers (PID, LQR, DMC, MPC, NMPC), Controller tuning
* Flow assurance skills: Pipeline sizing, slug volume calculations with consideration of different scenarios, steady state and transient simulation and hydraulic calculations
* Chemical Engineering Software: OLGA, Pipesim, Hysys, Aspen, Pro II, Pipephase, PVTsimFluent, Gambit, Flarenet
* Programming Languages: APMonitor, Matlab, Python, C++ , Mathcad, Polymath
* Flow assurance skills: Pipeline sizing
* Chemical Engineering Software: OLGA, Pipesim, Hysys, Aspen, Pro II, Pipephase, PVTsim
* Programming Languages: APMonitor
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* Optimization, control, and numerical skills: Real-time optimization, Design of model predictive controllers, Tuning classic and advanced Controllers (PID, LMPC, NMPC), Regulatory and set-point tracking control, First-principle and empirical modeling, Dynamic estimation, Initialization and optimization of large-scale models, Data Reconciliation
* Flow assurance skills: Steady state and transient simulation, Hydraulic calculations, Pipeline sizing, Slug volume calculations, Fluid modeling in PVTsim and Multiflash
* Chemical Engineering Software: Aspen Plus, Hysys, OLGA, Pipesim, PVTsim, Pipephase, Pro II, Multiflash, Fluent, Flarenet
* Programming Languages: Matlab, Simulink, Python, APMonitor, GAMS, C++ , Mathcad, Polymath
* Flow assurance skills: Steady state and transient simulation, Hydraulic calculations, Pipeline sizing, Slug volume calculations, Fluid modeling in PVTsim and Multiflash
* Chemical Engineering Software: Aspen Plus, Hysys, OLGA, Pipesim, PVTsim, Pipephase, Pro II, Multiflash, Fluent, Flarenet
* Programming Languages: Matlab, Simulink, Python, APMonitor, GAMS, C++ , Mathcad, Polymath
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* Studied the impact of energy storage on CCC
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* Studied the impact of energy storage on the CCC process
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* Led the process discipline in hydraulic and slug volume calculations of the transport pipelines for two projects by properly sizing the pipelines with the aid of Pipesim and OLGA simulation packages (steady state and transient investigation)
* Developed the process simulation models for compressor stations, sour water stripping unit, amine sweetening unit, and transport pipelines with the aid of different simulation software packages
* Developed the process simulation models for compressor stations, sour water stripping unit, amine sweetening unit, and transport pipelines with the aid of different simulation software packages
to:
* Developed and optimized the process simulation models for amine sweetening and sour water stripping units, compressor stations, and transport pipelines by using Aspen Plus, Hysys, PRO II, and OLGA software packages
* Optimized the size of the transport pipelines using Pipesim and OLGA software packages (steady state and transient simulations)
* Led the process engineering discipline in implementing the hydraulic and slug volume calculations of the transport pipelines for two projects (steady state and dynamic simulations)
* Prepared the conceptual design and other technical documents such as hydraulic analysis, design basis, PFD, P&ID, alarm management, heat and mass balance calculations, and equipment and instrument datasheets
* Optimized the size of the transport pipelines using Pipesim and OLGA software packages (steady state and transient simulations)
* Led the process engineering discipline in implementing the hydraulic and slug volume calculations of the transport pipelines for two projects (steady state and dynamic simulations)
* Prepared the conceptual design and other technical documents such as hydraulic analysis, design basis, PFD, P&ID, alarm management, heat and mass balance calculations, and equipment and instrument datasheets
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* Led the process discipline in hydraulic calculations of the transport pipelines by properly sizing the pipelines with the aid of Pipesim and OLGA software packages (steady state and transient investigation)
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* Optimized the size of the transport pipelines using Pipesim and OLGA software packages (steady state and transient simulations)
* Managed the process engineering discipline in investigating the hydraulic behavior of the transport pipelines for one project
* Prepared the technical documents on hydraulic investigation of transport pipelines
* Managed the process engineering discipline in investigating the hydraulic behavior of the transport pipelines for one project
* Prepared the technical documents on hydraulic investigation of transport pipelines
Added line 111:
Added line 114:
* Developed a CFD model for a monolithic reformer for hydrogen production using Fluent software package
Changed lines 116-117 from:
to:
Changed line 122 from:
* Simulated the PVT data of Sarajeh and Dey reservoir fluids with PVTsim software package to be used in OLGA
to:
* Simulated the PVT data of Sarajeh and Dey reservoir fluids with PVTsim software package
Changed lines 91-95 from:
* Simulated and optimized the process configuration for the CCC process
* Studied the effect of the energy storage on CCC
* Investigated different methods for CO'_2_' mitigation and compared the performance with the CCC process
* Running experiments for CCC pilot plant
* Studied the effect of the energy storage on CCC
* Investigated different methods for
* Running experiments for CCC pilot plant
to:
* Dynamic simulation and optimization of cryogenic carbon capture
* Studied the impact of energy storage on CCC
* Conducted experiments on the bench-scale cryogenic carbon capture
* Investigated different methods for CO'_2_' mitigation and compared the performance with cryogenic carbon capture
* Studied the impact of energy storage on CCC
* Conducted experiments on the bench-scale cryogenic carbon capture
* Investigated different methods for CO'_2_' mitigation and compared the performance with cryogenic carbon capture
Changed lines 81-93 from:
* Developing model redundancy for data validation in automated managed pressure drilling
* Advancing severe slugging controller for subsea production risers using post-installed fiber optic pressure sensors
* Integrated and optimized fossil – fueled and renewable power plants with cryogenic carbon capture (CCC) process in a dynamic framework
* Creating a model predictive controller for wax deposition in crude oil pipelines
* Developed the nonlinear dynamic optimization and control framework for integration of smart power grid with cryogenic carbon capture
* Developed the modeling framework for parameter estimation and dynamic optimization and control of a batch distillation column
* Developing initialization strategies for optimization of dynamic systems
* Advancing severe slugging controller for subsea production risers using post-installed fiber optic pressure sensors
* Integrated and optimized fossil – fueled
* Creating a model predictive controller for wax deposition in crude oil pipelines
* Developed the nonlinear dynamic optimization and control framework for integration of smart power grid with cryogenic carbon capture
* Developed the modeling framework for parameter estimation and dynamic optimization and control
* Developing initialization strategies for optimization of dynamic systems
to:
* Developed a new dynamic parameter estimation, optimization, and multivariable control framework for a batch distillation column
* Dynamic optimization and control of the power plants equipped with cryogenic carbon capture
* Designed a nonlinear multivariable controller and a moving horizon estimator for automated estimation and control of the pressure in drilling process
* Advanced severe slugging model predictive controller for subsea production risers using post-installed fiber optic pressure sensors
* Developed the nonlinear dynamic optimization and model predictive control framework for integration of smart power grid with cryogenic carbon capture
* Developed initialization strategies for optimization of dynamic systems
* Developing model redundancy for data validation in automated managed pressure drilling (MPD)
* Dynamic optimization and control of the power plants equipped with cryogenic carbon capture
* Designed a nonlinear multivariable controller and a moving horizon estimator for automated estimation and control of the pressure in drilling process
* Advanced severe slugging model predictive controller for subsea production risers using post-installed fiber optic pressure sensors
* Developed the nonlinear dynamic optimization and model predictive control framework for integration of smart power grid with cryogenic carbon capture
* Developed initialization strategies for optimization of dynamic systems
* Developing model redundancy for data validation in automated managed pressure drilling (MPD)
Changed lines 46-47 from:
* Safdarnejad, S.M., Kennington, L., Hedengren, J.D., Baxter, L.L, Investigating the Impact of Cryogenic Carbon Capture on the Performance of Power Plants, American Control Conference (ACC), Chicago, IL, July 2015 [[Attach:ACC2015_Mostafa.pdf|Article]]
to:
* Safdarnejad, S.M., Kennington, L., Hedengren, J.D., Baxter, L.L, Investigating the Impact of Cryogenic Carbon Capture on the Performance of Power Plants, American Control Conference (ACC), Chicago, IL, July 2015 [[Attach:ACC2015_Mostafa.pdf|Preprint]]
Changed lines 52-57 from:
* Safdarnejad, S.M., Gallacher, J., Hedengren, J.D., A New Framework for Dynamic Parameter Estimation and Optimization of Batch Distillation Columns, AIChE National Meeting, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:Batch_AIChE2015-Mostafa.pdf|Preprint]]
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.B., Reduction in Cycling of the Boilers By Using Large-Scale Energy Storage of Cryogenic Carbon Capture, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:CCC_AIChE2015_Mostafa2.pdf|Preprint]]
* Park, J., Safdarnejad, S.M., Asgharzadeh Shishavan, R., Hedengren, J.D., Rastegar, R., Snell, A., Nonlinear Model Predictive Control of Managed Pressure Drilling Based on Hammerstein-Wiener Piecewise Linear Models, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:drilling_aiche15.pdf|Preprint]]
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.B., Reduction in Cycling of the Boilers By Using Large-Scale Energy Storage of Cryogenic Carbon Capture, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:CCC_AIChE2015_Mostafa2.pdf|
* Park, J., Safdarnejad, S.M., Asgharzadeh Shishavan, R., Hedengren, J.D., Rastegar, R., Snell, A., Nonlinear Model Predictive Control of Managed Pressure Drilling Based on Hammerstein-Wiener Piecewise Linear Models, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:drilling_aiche15.pdf|
to:
* Safdarnejad, S.M., Gallacher, J., Hedengren, J.D., A New Framework for Dynamic Parameter Estimation and Optimization of Batch Distillation Columns, AIChE National Meeting, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:Batch_AIChE2015-Mostafa.pdf |Abstract]]
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.B., Reduction in Cycling of the Boilers By Using Large-Scale Energy Storage of Cryogenic Carbon Capture, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:CCC_AIChE2015_Mostafa2.pdf |Abstract]]
* Park, J., Safdarnejad, S.M., Asgharzadeh Shishavan, R., Hedengren, J.D., Rastegar, R., Snell, A., Nonlinear Model Predictive Control of Managed Pressure Drilling Based on Hammerstein-Wiener Piecewise Linear Models, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:drilling_aiche15.pdf |Abstract]]
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.B., Reduction in Cycling of the Boilers By Using Large-Scale Energy Storage of Cryogenic Carbon Capture, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:CCC_AIChE2015_Mostafa2.pdf |Abstract]]
* Park, J., Safdarnejad, S.M., Asgharzadeh Shishavan, R., Hedengren, J.D., Rastegar, R., Snell, A., Nonlinear Model Predictive Control of Managed Pressure Drilling Based on Hammerstein-Wiener Piecewise Linear Models, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:drilling_aiche15.pdf |Abstract]]
Changed lines 60-63 from:
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L, Effect of Cryogenic Carbon Capture (CCC) on Smart Power Grids, AIChE Spring Meeting, Austin, TX, Apr. 2015[[Attach:AIChE2015_spring_Mostafa.pdf|Preprint]]
* Safdarnejad, S.M., Hall, T., Hedengren, J.D., Baxter, L.L, Dynamic Optimization of Cryogenic Carbon Capture with Large-scale Adoption of Renewable Power, AIChE Annual Meeting, Atlanta, GA, Nov 2014. [[Attach:cryogenic_carbon_capture_aiche14.pdf|Preprint]]
* Safdarnejad, S.M., Hall, T., Hedengren, J.D., Baxter, L.L, Dynamic Optimization of Cryogenic Carbon Capture with Large-scale Adoption of Renewable Power, AIChE Annual Meeting, Atlanta, GA, Nov 2014. [[Attach:cryogenic_carbon_capture_aiche14.pdf|
to:
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L, Effect of Cryogenic Carbon Capture (CCC) on Smart Power Grids, AIChE Spring Meeting, Austin, TX, Apr. 2015[[Attach:AIChE2015_spring_Mostafa.pdf |Abstract]]
* Safdarnejad, S.M., Hall, T., Hedengren, J.D., Baxter, L.L, Dynamic Optimization of Cryogenic Carbon Capture with Large-scale Adoption of Renewable Power, AIChE Annual Meeting, Atlanta, GA, Nov 2014. [[Attach:cryogenic_carbon_capture_aiche14.pdf |Abstract]]
* Safdarnejad, S.M., Hall, T., Hedengren, J.D., Baxter, L.L, Dynamic Optimization of Cryogenic Carbon Capture with Large-scale Adoption of Renewable Power, AIChE Annual Meeting, Atlanta, GA, Nov 2014. [[Attach:cryogenic_carbon_capture_aiche14.pdf |Abstract]]
Changed line 68 from:
* Hedengren, J.D., Mojica, J.L., Asgharzadeh Shishavan, R., Safdarnejad, S.M., Recent Advances in the Application of MIDAE Systems, AIChE National Meeting, San Francisco, CA, Nov 2013. [[Attach:hedengren_aiche13.pdf|Abstract]]
to:
* Hedengren, J.D., Mojica, J.L., Asgharzadeh Shishavan, R., Safdarnejad, S.M., Recent Advances in the Application of MIDAE Systems, AIChE National Meeting, San Francisco, CA, Nov 2013. [[Attach:hedengren_aiche13.pdf |Abstract]]
Changed lines 52-57 from:
* Safdarnejad, S.M., Gallacher, J., Hedengren, J.D., A New Framework for Dynamic Parameter Estimation and Optimization of Batch Distillation Columns, AIChE National Meeting, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:Batch_AIChE2015-Mostafa.pdf|Abstract]]
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.B., Reduction in Cycling of the Boilers By Using Large-Scale Energy Storage of Cryogenic Carbon Capture, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:CCC_AIChE2015_Mostafa2.pdf|Abstract]]
* Park, J., Safdarnejad, S.M., Asgharzadeh Shishavan, R., Hedengren, J.D., Rastegar, R., Snell, A., Nonlinear Model Predictive Control of Managed Pressure Drilling Based on Hammerstein-Wiener Piecewise Linear Models, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:drilling_aiche15.pdf|Abstract]]
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.B., Reduction in Cycling of the Boilers By Using Large-Scale Energy Storage of Cryogenic Carbon Capture, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:CCC_AIChE2015_Mostafa2.pdf|
* Park, J., Safdarnejad, S.M., Asgharzadeh Shishavan, R., Hedengren, J.D., Rastegar, R., Snell, A., Nonlinear Model Predictive Control of Managed Pressure Drilling Based on Hammerstein-Wiener Piecewise Linear Models, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:drilling_aiche15.pdf|
to:
* Safdarnejad, S.M., Gallacher, J., Hedengren, J.D., A New Framework for Dynamic Parameter Estimation and Optimization of Batch Distillation Columns, AIChE National Meeting, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:Batch_AIChE2015-Mostafa.pdf|Preprint]]
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.B., Reduction in Cycling of the Boilers By Using Large-Scale Energy Storage of Cryogenic Carbon Capture, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:CCC_AIChE2015_Mostafa2.pdf|Preprint]]
* Park, J., Safdarnejad, S.M., Asgharzadeh Shishavan, R., Hedengren, J.D., Rastegar, R., Snell, A., Nonlinear Model Predictive Control of Managed Pressure Drilling Based on Hammerstein-Wiener Piecewise Linear Models, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:drilling_aiche15.pdf|Preprint]]
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.B., Reduction in Cycling of the Boilers By Using Large-Scale Energy Storage of Cryogenic Carbon Capture, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:CCC_AIChE2015_Mostafa2.pdf|Preprint]]
* Park, J., Safdarnejad, S.M., Asgharzadeh Shishavan, R., Hedengren, J.D., Rastegar, R., Snell, A., Nonlinear Model Predictive Control of Managed Pressure Drilling Based on Hammerstein-Wiener Piecewise Linear Models, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:drilling_aiche15.pdf|Preprint]]
Changed lines 60-62 from:
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L, Effect of Cryogenic Carbon Capture (CCC) on Smart Power Grids, AIChE Spring Meeting, Austin, TX, Apr. 2015[[Attach:AIChE2015_spring_Mostafa.pdf|Abstract]]
* Safdarnejad, S.M., Hall, T., Hedengren, J.D., Baxter, L.L, Dynamic Optimization of Cryogenic Carbon Capture with Large-scale Adoption of Renewable Power, AIChE Annual Meeting, Atlanta, GA, Nov 2014. [[Attach:cryogenic_carbon_capture_aiche14.pdf|Abstract]]
* Safdarnejad, S.M., Hall, T., Hedengren, J.D., Baxter, L.L, Dynamic Optimization of Cryogenic Carbon Capture with Large-scale Adoption of Renewable Power, AIChE Annual Meeting, Atlanta, GA, Nov 2014. [[Attach:cryogenic_carbon_capture_aiche14.pdf|
to:
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L, Effect of Cryogenic Carbon Capture (CCC) on Smart Power Grids, AIChE Spring Meeting, Austin, TX, Apr. 2015[[Attach:AIChE2015_spring_Mostafa.pdf|Preprint]]
* Safdarnejad, S.M., Hall, T., Hedengren, J.D., Baxter, L.L, Dynamic Optimization of Cryogenic Carbon Capture with Large-scale Adoption of Renewable Power, AIChE Annual Meeting, Atlanta, GA, Nov 2014. [[Attach:cryogenic_carbon_capture_aiche14.pdf|Preprint]]
* Safdarnejad, S.M., Hall, T., Hedengren, J.D., Baxter, L.L, Dynamic Optimization of Cryogenic Carbon Capture with Large-scale Adoption of Renewable Power, AIChE Annual Meeting, Atlanta, GA, Nov 2014. [[Attach:cryogenic_carbon_capture_aiche14.pdf|Preprint]]
Changed line 54 from:
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.B., Reduction in Cycling of the Boilers By Using Large-Scale Energy Storage of Cryogenic Carbon Capture, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:energy_aiche15.pdf|Abstract]]
to:
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.B., Reduction in Cycling of the Boilers By Using Large-Scale Energy Storage of Cryogenic Carbon Capture, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:CCC_AIChE2015_Mostafa2.pdf|Abstract]]
Changed line 60 from:
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L, Effect of Cryogenic Carbon Capture (CCC) on Smart Power Grids, AIChE Spring Meeting, Austin, TX, Apr. 2015
to:
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L, Effect of Cryogenic Carbon Capture (CCC) on Smart Power Grids, AIChE Spring Meeting, Austin, TX, Apr. 2015[[Attach:AIChE2015_spring_Mostafa.pdf|Abstract]]
Changed line 52 from:
* Safdarnejad, S.M., Gallacher, J., Hedengren, J.D., A New Framework for Dynamic Parameter Estimation and Optimization of Batch Distillation Columns, AIChE National Meeting, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015.
to:
* Safdarnejad, S.M., Gallacher, J., Hedengren, J.D., A New Framework for Dynamic Parameter Estimation and Optimization of Batch Distillation Columns, AIChE National Meeting, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:Batch_AIChE2015-Mostafa.pdf|Abstract]]
Changed line 46 from:
* Safdarnejad, S.M., Kennington, L., Hedengren, J.D., Baxter, L.L, Investigating the Impact of Cryogenic Carbon Capture on the Performance of Power Plants, American Control Conference (ACC), Chicago, IL, July 2015 [Attach:ACC.pdf]
to:
* Safdarnejad, S.M., Kennington, L., Hedengren, J.D., Baxter, L.L, Investigating the Impact of Cryogenic Carbon Capture on the Performance of Power Plants, American Control Conference (ACC), Chicago, IL, July 2015 [[Attach:ACC2015_Mostafa.pdf|Article]]
Changed line 46 from:
* Safdarnejad, S.M., Kennington, L., Hedengren, J.D., Baxter, L.L, Investigating the Impact of Cryogenic Carbon Capture on the Performance of Power Plants, American Control Conference (ACC), Chicago, IL, July 2015
to:
* Safdarnejad, S.M., Kennington, L., Hedengren, J.D., Baxter, L.L, Investigating the Impact of Cryogenic Carbon Capture on the Performance of Power Plants, American Control Conference (ACC), Chicago, IL, July 2015 [Attach:ACC.pdf]
Changed line 40 from:
* Safdarnejad, S.M., Hedengren, J.D., Lewis, N.R., Haseltine, E., Initialization Strategies for Optimization of Dynamic Systems, Computers and Chemical Engineering, Vol. 78, pp. 39-50, DOI: 10.1016/j.compchemeng.2015.04.016. [[http://www.sciencedirect.com/science/article/pii/S0098135415001179 | Article]]
to:
* Safdarnejad, S.M., Hedengren, J.D., Lewis, N.R., Haseltine, E., Initialization Strategies for Optimization of Dynamic Systems, Computers and Chemical Engineering, Vol. 78, pp. 39-50[[http://www.sciencedirect.com/science/article/pii/S0098135415001179 | Article]]
Changed lines 52-56 from:
* Safdarnejad, M., Gallacher, J., Hedengren, J.D., A New Framework for Dynamic Parameter Estimation and Optimization of Batch Distillation Columns, AIChE National Meeting, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015.
* Safdarnejad, M., Hedengren, J.D., Baxter, L.B., Reduction in Cycling of the Boilers By Using Large-Scale Energy Storage of Cryogenic Carbon Capture, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:energy_aiche15.pdf|Abstract]]
* Park, J., Safdarnejad, M., Asgharzadeh Shishavan, R., Hedengren, J.D., Rastegar, R., Snell, A., Nonlinear Model Predictive Control of Managed Pressure Drilling Based on Hammerstein-Wiener Piecewise Linear Models, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:drilling_aiche15.pdf|Abstract]]
* Safdarnejad, M., Hedengren, J.D., Baxter, L.B., Reduction in Cycling of the Boilers By Using Large-Scale Energy Storage of Cryogenic Carbon Capture, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:energy_aiche15.pdf|Abstract]]
* Park, J., Safdarnejad, M., Asgharzadeh Shishavan, R., Hedengren, J.D., Rastegar, R., Snell, A., Nonlinear Model Predictive Control of Managed Pressure Drilling Based on Hammerstein-Wiener Piecewise Linear Models, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:drilling_aiche15.pdf|Abstract]]
to:
* Safdarnejad, S.M., Gallacher, J., Hedengren, J.D., A New Framework for Dynamic Parameter Estimation and Optimization of Batch Distillation Columns, AIChE National Meeting, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015.
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.B., Reduction in Cycling of the Boilers By Using Large-Scale Energy Storage of Cryogenic Carbon Capture, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:energy_aiche15.pdf|Abstract]]
* Park, J., Safdarnejad, S.M., Asgharzadeh Shishavan, R., Hedengren, J.D., Rastegar, R., Snell, A., Nonlinear Model Predictive Control of Managed Pressure Drilling Based on Hammerstein-Wiener Piecewise Linear Models, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:drilling_aiche15.pdf|Abstract]]
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.B., Reduction in Cycling of the Boilers By Using Large-Scale Energy Storage of Cryogenic Carbon Capture, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:energy_aiche15.pdf|Abstract]]
* Park, J., Safdarnejad, S.M., Asgharzadeh Shishavan, R., Hedengren, J.D., Rastegar, R., Snell, A., Nonlinear Model Predictive Control of Managed Pressure Drilling Based on Hammerstein-Wiener Piecewise Linear Models, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:drilling_aiche15.pdf|Abstract]]
Changed lines 38-39 from:
* Eaton, A.Safdarnejad, S.M., Hedengren, J.D., Moffat, K., Hubbell, C., Brower, D.V., Brower, A.D., Post-Installed Fiber Optic Pressure Sensors on Subsea Production Risers for Severe Slugging Control, ASME 34th International Conference on Ocean, Offshore and Arctic Engineering, OMAE2014/42196, St. John's, Newfoundland, Canada, June 2015, accepted. [[Attach:Eaton_OMAE15.pdf|Preprint]]
to:
* Safdarnejad, S.M., Gallacher, J., Hedengren, J.D., Framework for Dynamic Parameter Estimation and Optimization of Batch Distillation Processes, Computers and Chemical Engineering, submitted
Added lines 44-45:
* Eaton, A., Safdarnejad, S.M., Hedengren, J.D., Moffat, K., Hubbell, C., Brower, D.V., Brower, A.D., Post-Installed Fiber Optic Pressure Sensors on Subsea Production Risers for Severe Slugging Control, ASME 34th International Conference on Ocean, Offshore and Arctic Engineering, OMAE2014/42196, St. John's, Newfoundland, Canada, June 2015. [[Attach:Eaton_OMAE15.pdf|Preprint]]
Deleted lines 47-48:
Deleted lines 49-52:
* Safdarnejad, S.M., Rowshanzamir, S., Eikani, M.H., A CFD model of autothermal reforming, “7'^th^' International Chemical Engineering Congress and Exhibition”, November 21'^th^' -24'^th^', 2011, Kish, Iran
Added lines 52-55:
* Safdarnejad, M., Gallacher, J., Hedengren, J.D., A New Framework for Dynamic Parameter Estimation and Optimization of Batch Distillation Columns, AIChE National Meeting, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015.
* Safdarnejad, M., Hedengren, J.D., Baxter, L.B., Reduction in Cycling of the Boilers By Using Large-Scale Energy Storage of Cryogenic Carbon Capture, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:energy_aiche15.pdf|Abstract]]
* Safdarnejad, M., Hedengren, J.D., Baxter, L.B., Reduction in Cycling of the Boilers By Using Large-Scale Energy Storage of Cryogenic Carbon Capture, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:energy_aiche15.pdf|Abstract]]
Changed lines 58-61 from:
* Safdarnejad, M., Hedengren, J.D., Baxter, L.B., Reduction in Cycling of the Boilers By Using Large-Scale Energy Storage of Cryogenic Carbon Capture, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:energy_aiche15.pdf|Abstract]]
* Eaton, A., Safdarnejad, S.M., Hedengren, J.D., Nybø, R., Aghito, M., Boubsi, R.E., Braaksma, J., van Og, G., Model Redundancy for Data Validation in Automated Managed Pressure Drilling, SPE ATCE 2015, submitted
* Eaton, A., Safdarnejad, S.M., Hedengren, J.D., Nybø, R., Aghito, M., Boubsi, R.E., Braaksma, J., van Og, G., Model Redundancy for Data Validation in Automated Managed Pressure Drilling, SPE ATCE 2015, submitted
to:
* Eaton, A., Safdarnejad, S.M., Hedengren, J.D., Nybø, R., Aghito, M., Boubsi, R.E., Braaksma, J., van Og, G., Model Redundancy for Data Validation in Automated Managed Pressure Drilling, SPE ATCE 2015.
Added lines 71-75:
* Safdarnejad, S.M., Rowshanzamir, S., Eikani, M.H., Computational Fluid Dynamics Simulation of Autothermal Reforming for Fuel Cell Applications, “3rd International Conference on Chemical Engineering and Advanced Materials”, November 14'^th^' - 28'^th^', 2011, Italy
* Safdarnejad, S.M., Rowshanzamir, S., Eikani, M.H., A CFD model of autothermal reforming, “7'^th^' International Chemical Engineering Congress and Exhibition”, November 21'^th^' -24'^th^', 2011, Kish, Iran
Changed line 40 from:
to:
* Safdarnejad, S.M., Hedengren, J.D., Lewis, N.R., Haseltine, E., Initialization Strategies for Optimization of Dynamic Systems, Computers and Chemical Engineering, Vol. 78, pp. 39-50, DOI: 10.1016/j.compchemeng.2015.04.016. [[http://www.sciencedirect.com/science/article/pii/S0098135415001179 | Article]]
Changed line 40 from:
to:
# Safdarnejad, S.M., Hedengren, J.D., Lewis, N.R., Haseltine, E., Initialization Strategies for Optimization of Dynamic Systems, Computers and Chemical Engineering, Vol. 78, pp. 39-50, DOI: 10.1016/j.compchemeng.2015.04.016. [[http://www.sciencedirect.com/science/article/pii/S0098135415001179 | Article]]
Added lines 55-58:
* Park, J., Safdarnejad, M., Asgharzadeh Shishavan, R., Hedengren, J.D., Rastegar, R., Snell, A., Nonlinear Model Predictive Control of Managed Pressure Drilling Based on Hammerstein-Wiener Piecewise Linear Models, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:drilling_aiche15.pdf|Abstract]]
* Safdarnejad, M., Hedengren, J.D., Baxter, L.B., Reduction in Cycling of the Boilers By Using Large-Scale Energy Storage of Cryogenic Carbon Capture, AIChE Annual Meeting, Salt Lake City, UT, Nov 2015. [[Attach:energy_aiche15.pdf|Abstract]]
Changed line 42 from:
to:
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L, Plant-level Dynamic Optimization of Cryogenic Carbon Capture with Conventional and Renewable Power Sources, Applied Energy Journal, Vol. 149, pp. 354-366, 2015, DOI: 10.1016/j.apenergy.2015.03.100 [[http://www.sciencedirect.com/science/article/pii/S030626191500402X | Article]]
Changed line 42 from:
to:
# Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L, Plant-level Dynamic Optimization of Cryogenic Carbon Capture with Conventional and Renewable Power Sources, Applied Energy Journal, Vol. 149, pp. 354-366, 2015, DOI: 10.1016/j.apenergy.2015.03.100 [[http://www.sciencedirect.com/science/article/pii/S030626191500402X | Article]]
Changed line 40 from:
* Safdarnejad, S.M., Hedengren, J.D., Lewis, N.R., Haseltine, E., Initialization Strategies for Optimization of Dynamic Systems, Computers and Chemical Engineering, Vol. 78, pp. 39-50, DOI: 10.1016/j.compchemeng.2015.04.016. [[http://authors.elsevier.com/a/1R1ojMK3kZH1R | Article (Free Download until July 5, 2015]]
to:
* Safdarnejad, S.M., Hedengren, J.D., Lewis, N.R., Haseltine, E., Initialization Strategies for Optimization of Dynamic Systems, Computers and Chemical Engineering, Vol. 78, pp. 39-50, DOI: 10.1016/j.compchemeng.2015.04.016. [[http://authors.elsevier.com/a/1R1ojMK3kZH1R | Article (Free Download until July 5, 2015)]]
Changed line 40 from:
to:
* Safdarnejad, S.M., Hedengren, J.D., Lewis, N.R., Haseltine, E., Initialization Strategies for Optimization of Dynamic Systems, Computers and Chemical Engineering, Vol. 78, pp. 39-50, DOI: 10.1016/j.compchemeng.2015.04.016. [[http://authors.elsevier.com/a/1R1ojMK3kZH1R | Article (Free Download until July 5, 2015]]
Changed line 40 from:
to:
# Safdarnejad, S.M., Hedengren, J.D., Lewis, N.R., Haseltine, E., Initialization Strategies for Optimization of Dynamic Systems, Computers and Chemical Engineering, Vol. 78, pp. 39-50, DOI: 10.1016/j.compchemeng.2015.04.016. [[http://authors.elsevier.com/a/1R1ojMK3kZH1R | Article (Free Download until July 5, 2015]]
Changed line 135 from:
* Optimization skills: Initialization and optimization of large-scale linear and nonlinear models, Constrained optimization, Dynamic optimization and estimation, Controllers (PID, LQR, DMC, MPC, NMPC), Controller Tuning, Real-time Implementation
to:
* Optimization, control, and numerical skills:: Dynamic optimization and estimation, First-principle modeling, Development of model predictive controllers, Constrained optimization, Real-time implementation, Initialization and optimization of large-scale models, Controllers (PID, LQR, DMC, MPC, NMPC), Controller tuning
Changed line 38 from:
* Eaton, A., Safdarnejad, S.M., Hedengren, J.D., Moffat, K., Hubbell, C., Brower, D.V., Brower, A.D., Post-Installed Fiber Optic Pressure Sensors on Subsea Production Risers for Severe Slugging Control, ASME 34th International Conference on Ocean, Offshore and Arctic Engineering, OMAE2014/42196, St. John's, Newfoundland, Canada, June 2015, submitted. [[Attach:Eaton_OMAE15.pdf|Preprint]]
to:
* Eaton, A., Safdarnejad, S.M., Hedengren, J.D., Moffat, K., Hubbell, C., Brower, D.V., Brower, A.D., Post-Installed Fiber Optic Pressure Sensors on Subsea Production Risers for Severe Slugging Control, ASME 34th International Conference on Ocean, Offshore and Arctic Engineering, OMAE2014/42196, St. John's, Newfoundland, Canada, June 2015, accepted. [[Attach:Eaton_OMAE15.pdf|Preprint]]
Added line 32:
* Development of model predictive controller for different applications
Changed lines 35-36 from:
to:
Changed lines 40-43 from:
* Safdarnejad, S.M., Hedengren, J.D., Lewis, N.R., Haseltine, E., Initialization Strategies for Optimization of Dynamic Systems, Computers and Chemical Engineering, submitted.
# Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L, Plant-level Dynamic Optimization of Cryogenic Carbon Capture with Conventional and Renewable Power Sources, Applied Energy Journal, Vol. 149, pp. 354-366, 2015, DOI: 10.1016/j.apenergy.2015.03.100 [[http://authors.elsevier.com/a/1Qt5L_6zgtG~Ho | Article (Free Download until June 4, 2015)]]
to:
* Safdarnejad, S.M., Hedengren, J.D., Lewis, N.R., Haseltine, E., Initialization Strategies for Optimization of Dynamic Systems, Computers and Chemical Engineering, accepted.
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L, Plant-level Dynamic Optimization of Cryogenic Carbon Capture with Conventional and Renewable Power Sources, Applied Energy Journal, Vol. 149, pp. 354-366, 2015, DOI: 10.1016/j.apenergy.2015.03.100 [[http://authors.elsevier.com/a/1Qt5L_6zgtG~Ho | Article (Free Download until June 4, 2015)]]
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L, Plant-level Dynamic Optimization of Cryogenic Carbon Capture with Conventional and Renewable Power Sources, Applied Energy Journal, Vol. 149, pp. 354-366, 2015, DOI: 10.1016/j.apenergy.2015.03.100 [[http://authors.elsevier.com/a/1Qt5L_6zgtG~Ho | Article (Free Download until June 4, 2015)]]
Added lines 78-79:
* Integrated and optimized fossil – fueled and renewable power plants with cryogenic carbon capture (CCC) process in a dynamic framework
Deleted lines 80-81:
* Integrated and optimized fossil – fueled and renewable power plants with cryogenic carbon capture (CCC) process in a dynamic framework
Deleted line 97:
Changed line 146 from:
* OLGA Well Dynamics- Schlumberger, Houston, USA (enrolled for the training class, Apr. 2015)
to:
* OLGA Well Dynamics- Schlumberger, Houston, USA (Apr. 2015)
Changed line 42 from:
to:
# Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L, Plant-level Dynamic Optimization of Cryogenic Carbon Capture with Conventional and Renewable Power Sources, Applied Energy Journal, Vol. 149, pp. 354-366, 2015, DOI: 10.1016/j.apenergy.2015.03.100 [[http://authors.elsevier.com/a/1Qt5L_6zgtG~Ho | Article (Free Download until June 4, 2015)]]
Changed line 40 from:
* Safdarnejad,S.M., Hedengren, J.D., Lewis, N.R., Haseltine, E., Initialization Strategies for Optimization of Dynamic Systems, Computers and Chemical Engineering, submitted
to:
* Safdarnejad, S.M., Hedengren, J.D., Lewis, N.R., Haseltine, E., Initialization Strategies for Optimization of Dynamic Systems, Computers and Chemical Engineering, submitted.
Changed lines 147-159 from:
OLGA Well Dynamics- Schlumberger, Houston, USA (enrolled for the training class, April 2015)
to:
* OLGA Well Dynamics- Schlumberger, Houston, USA (enrolled for the training class, Apr. 2015)
* Introduction to PRO II software package - Soroush Energy Pouya, Tehran, IRAN (Nov. 2011)
* Introduction to Flarenet software package - Soroush Energy Pouya, Tehran, IRAN (Dec. 2011)
* CFD simulation using Fluent and Gambit software packages - Novin Parsian Institute, Tehran, IRAN (Feb. 2010)
* Introduction to Aspen software package - Research Institute of Petroleum Industry, Tehran, IRAN (May 2009)
* Introduction to OLGA software package - Iran University of Science and Technology, Tehran, IRAN (Mar. 2006)
* Introduction to PRO II software package - Soroush Energy Pouya, Tehran, IRAN (Nov. 2011)
* Introduction to Flarenet software package - Soroush Energy Pouya, Tehran, IRAN (Dec. 2011)
* CFD simulation using Fluent and Gambit software packages - Novin Parsian Institute, Tehran, IRAN (Feb. 2010)
* Introduction to Aspen software package - Research Institute of Petroleum Industry, Tehran, IRAN (May 2009)
* Introduction to OLGA software package - Iran University of Science and Technology, Tehran, IRAN (Mar. 2006)
Changed lines 136-137 from:
* Optimization skills: Initialization and optimization of large-scale linear and nonlinear models, Constrained optimization, Dynamic optimization
to:
* Optimization skills: Initialization and optimization of large-scale linear and nonlinear models, Constrained optimization, Dynamic optimization and estimation, Controllers (PID, LQR, DMC, MPC, NMPC), Controller Tuning, Real-time Implementation
Added lines 145-147:
!!!! Certificates
OLGA Well Dynamics- Schlumberger, Houston, USA (enrolled for the training class, April 2015)
Changed lines 84-85 from:
* Developed the modeling framework for parameter estimation and dynamic optimization of the batch distillation columns
to:
* Developed the modeling framework for parameter estimation and dynamic optimization and control of a batch distillation column
Changed line 31 from:
* Dynamic Modeling and Optimization
to:
* Dynamic Simulation and Optimization
Changed line 33 from:
* CO'_2_' Sequestration
to:
* CO'_2_' Capture
Changed lines 73-76 from:
* Developing the model predictive control of wax deposition in crude oil pipelines
* Developing the post-installed fiber optic pressure sensors on subsea production risers for severe slugging control
* Integrated and optimized fossil – fueled and renewable power plants with the CCC process in a dynamic framework
* Developed the dynamic optimization framework for integration of smart power grid with the CCC process
* Developing the post-installed fiber optic pressure sensors on subsea production risers for severe slugging control
*
* Developed the dynamic optimization framework for integration of smart power grid with the CCC process
to:
* Developing model redundancy for data validation in automated managed pressure drilling
* Advancing severe slugging controller for subsea production risers using post-installed fiber optic pressure sensors
* Creating a model predictive controller for wax deposition in crude oil pipelines
* Integrated and optimized fossil – fueled and renewable power plants with cryogenic carbon capture (CCC) process in a dynamic framework
* Developed the nonlinear dynamic optimization and control framework for integration of smart power grid with cryogenic carbon capture
* Advancing severe slugging controller for subsea production risers using post-installed fiber optic pressure sensors
* Creating a model predictive controller for wax deposition in crude oil pipelines
* Integrated and optimized fossil – fueled and renewable power plants with cryogenic carbon capture (CCC) process in a dynamic framework
* Developed the nonlinear dynamic optimization and control framework for integration of smart power grid with cryogenic carbon capture
Changed line 17 from:
* '''Thesis''': Enhancing the Smart Power Grid by Dynamic Integration and Optimization of the Renewable and Conventional Power Plants with Cryogenic Carbon Capture (CCC)
to:
* '''Thesis''': Developing Optimization and Control Framework for Improving the Performance and Economics of Industrial Applications.
Added lines 38-39:
* Eaton, A., Safdarnejad, S.M., Hedengren, J.D., Moffat, K., Hubbell, C., Brower, D.V., Brower, A.D., Post-Installed Fiber Optic Pressure Sensors on Subsea Production Risers for Severe Slugging Control, ASME 34th International Conference on Ocean, Offshore and Arctic Engineering, OMAE2014/42196, St. John's, Newfoundland, Canada, June 2015, submitted. [[Attach:Eaton_OMAE15.pdf|Preprint]]
Deleted lines 41-42:
Deleted lines 47-48:
Added lines 55-56:
* Eaton, A., Safdarnejad, S.M., Hedengren, J.D., Nybø, R., Aghito, M., Boubsi, R.E., Braaksma, J., van Og, G., Model Redundancy for Data Validation in Automated Managed Pressure Drilling, SPE ATCE 2015, submitted
Deleted line 18:
Added lines 47-48:
* Eaton, A., Safdarnejad, S.M., Hedengren, J.D., Nybø, R., Aghito, M., Boubsi, R.E., Braaksma, J., van Og, G., Model Redundancy for Data Validation in Automated Managed Pressure Drilling, SPE ATCE 2015, submitted
Changed line 47 from:
* Gallacher, J, Safdarnejad, S.M., Hedengren, J.D., Dynamic Parameter Estimation and Optimization of Batch Distillation Columns, Chemical Engineering Journal, in progress
to:
* Safdarnejad, S.M., Gallacher, J, Hedengren, J.D., Framework for Dynamic Parameter Estimation and Optimization of Batch Distillation Processes, Computers and Chemical Engineering, submitted
Changed line 43 from:
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L, Grid-level Dynamic Optimization of Cryogenic Carbon Capture with Conventional and Renewable Power Sources, Applied Energy Journal, submitted
to:
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L, Plant-level Dynamic Optimization of Cryogenic Carbon Capture with Conventional and Renewable Power Sources, Applied Energy Journal, accepted, DOI: 10.1016/j.apenergy.2015.03.100
Changed lines 49-54 from:
* Safdarnejad, S.M., Rowshanzamir, S., Eikani, M.H., A CFD Model for Methane Autothermal Reforming on Ru/γ-Al'_2_'O'_3_' Catalyst (Article published in Procedia Engineering, 42, (2012), 2–24)
* Safdarnejad,S.M., Rowshanzamir, S.Eikani, M.H., Computational Fluid Dynamics Simulation of Autothermal Reforming for Fuel Cell Applications (Article accepted in “3rd International Conference on Chemical Engineering and Advanced Materials”, November 14'^th^' - 28'^th^', 2011, Italy)
* Safdarnejad, S.M., Rowshanzamir, S., Eikani, M.H., A CFD model of autothermal reforming (Article published in “7'^th^' International Chemical Engineering Congress and Exhibition”, November 21'^th^' -24'^th^', 2011, Kish, Iran)
* Safdarnejad,
to:
* Safdarnejad, S.M., Rowshanzamir, S., Eikani, M.H., A CFD Model for Methane Autothermal Reforming on Ru/γ-Al'_2_'O'_3_' Catalyst, Procedia Engineering, 42, (2012), 2–24
* Safdarnejad, S.M., Rowshanzamir, S., Eikani, M.H., Computational Fluid Dynamics Simulation of Autothermal Reforming for Fuel Cell Applications, “3rd International Conference on Chemical Engineering and Advanced Materials”, November 14'^th^' - 28'^th^', 2011, Italy
* Safdarnejad, S.M., Rowshanzamir, S., Eikani, M.H., A CFD model of autothermal reforming, “7'^th^' International Chemical Engineering Congress and Exhibition”, November 21'^th^' -24'^th^', 2011, Kish, Iran
* Safdarnejad, S.M., Rowshanzamir, S., Eikani, M.H., Computational Fluid Dynamics Simulation of Autothermal Reforming for Fuel Cell Applications, “3rd International Conference on Chemical Engineering and Advanced Materials”, November 14'^th^' - 28'^th^', 2011, Italy
* Safdarnejad, S.M., Rowshanzamir, S., Eikani, M.H., A CFD model of autothermal reforming, “7'^th^' International Chemical Engineering Congress and Exhibition”, November 21'^th^' -24'^th^', 2011, Kish, Iran
Changed line 67 from:
* Safdarnejad, S.M., Rowshanzamir, S., Eikani, M.H., Studying the Performance of an Autothermal Catalytic Monolith Reformer to Obtain Hydrogen (Article published in “8th International Energy Conference”, May 24'^th^' -25'^th^', 2011, Tehran, Iran)
to:
* Safdarnejad, S.M., Rowshanzamir, S., Eikani, M.H., Studying the Performance of an Autothermal Catalytic Monolith Reformer to Obtain Hydrogen, “8th International Energy Conference”, May 24'^th^' -25'^th^', 2011, Tehran, Iran
Added line 73:
* Developing the post-installed fiber optic pressure sensors on subsea production risers for severe slugging control
Changed lines 77-78 from:
to:
* Developing initialization strategies for optimization of dynamic systems
Changed lines 125-129 from:
!!!! Computer Skills
to:
!!!! Skills
* Optimization skills: Initialization and optimization of large-scale linear and nonlinear models, Constrained optimization, Dynamic optimization
* Flow assurance skills: Pipeline sizing, slug volume calculations with consideration of different scenarios, steady state and transient simulation and hydraulic calculations
* Optimization skills: Initialization and optimization of large-scale linear and nonlinear models, Constrained optimization, Dynamic optimization
* Flow assurance skills: Pipeline sizing, slug volume calculations with consideration of different scenarios, steady state and transient simulation and hydraulic calculations
Changed lines 65-67 from:
* Recent Advances in the Application of MIDAE Systems, AIChE National Meeting, San Francisco, CA, Nov 2013. [[Attach:hedengren_aiche13.pdf|Abstract]]
* Studying the Performance of an Autothermal Catalytic Monolith Reformer to Obtain Hydrogen (Article published in “8th International Energy Conference”, May 24'^th^' -25'^th^', 2011, Tehran, Iran)
* Studying the Performance of an Autothermal Catalytic Monolith Reformer to Obtain Hydrogen (Article published in “8th International Energy Conference”, May 24'^th^' -25'^th^', 2011, Tehran, Iran)
to:
* Hedengren, J.D., Mojica, J.L., Asgharzadeh Shishavan, R., Safdarnejad, S.M., Recent Advances in the Application of MIDAE Systems, AIChE National Meeting, San Francisco, CA, Nov 2013. [[Attach:hedengren_aiche13.pdf|Abstract]]
* Safdarnejad, S.M., Rowshanzamir, S., Eikani, M.H., Studying the Performance of an Autothermal Catalytic Monolith Reformer to Obtain Hydrogen (Article published in “8th International Energy Conference”, May 24'^th^' -25'^th^', 2011, Tehran, Iran)
* Safdarnejad, S.M., Rowshanzamir, S., Eikani, M.H., Studying the Performance of an Autothermal Catalytic Monolith Reformer to Obtain Hydrogen (Article published in “8th International Energy Conference”, May 24'^th^' -25'^th^', 2011, Tehran, Iran)
Changed lines 49-54 from:
* A CFD Model for Methane Autothermal Reforming on Ru/γ-Al'_2_'O'_3_' Catalyst (Article published in Procedia Engineering, 42, (2012), 2–24)
*Computational Fluid Dynamics Simulation of Autothermal Reforming for Fuel Cell Applications (Article accepted in “3rd International Conference on Chemical Engineering and Advanced Materials”, November 14'^th^' - 28'^th^', 2011, Italy)
* A CFD model of autothermal reforming (Article published in “7'^th^' International Chemical Engineering Congress and Exhibition”, November 21'^th^' -24'^th^', 2011, Kish, Iran)
*
*
to:
* Safdarnejad, S.M., Rowshanzamir, S., Eikani, M.H., A CFD Model for Methane Autothermal Reforming on Ru/γ-Al'_2_'O'_3_' Catalyst (Article published in Procedia Engineering, 42, (2012), 2–24)
* Safdarnejad, S.M., Rowshanzamir, S., Eikani, M.H., Computational Fluid Dynamics Simulation of Autothermal Reforming for Fuel Cell Applications (Article accepted in “3rd International Conference on Chemical Engineering and Advanced Materials”, November 14'^th^' - 28'^th^', 2011, Italy)
* Safdarnejad, S.M., Rowshanzamir, S., Eikani, M.H., A CFD model of autothermal reforming (Article published in “7'^th^' International Chemical Engineering Congress and Exhibition”, November 21'^th^' -24'^th^', 2011, Kish, Iran)
* Safdarnejad, S.M., Rowshanzamir, S., Eikani, M.H., Computational Fluid Dynamics Simulation of Autothermal Reforming for Fuel Cell Applications (Article accepted in “3rd International Conference on Chemical Engineering and Advanced Materials”, November 14'^th^' - 28'^th^', 2011, Italy)
* Safdarnejad, S.M., Rowshanzamir, S., Eikani, M.H., A CFD model of autothermal reforming (Article published in “7'^th^' International Chemical Engineering Congress and Exhibition”, November 21'^th^' -24'^th^', 2011, Kish, Iran)
Changed line 59 from:
* Dynamic Optimization of Cryogenic Carbon Capture with Large-scale Adoption of Renewable Power, AIChE Annual Meeting, Atlanta, GA, Nov 2014. [[Attach:cryogenic_carbon_capture_aiche14.pdf|Abstract]]
to:
* Safdarnejad, S.M., Hall, T., Hedengren, J.D., Baxter, L.L, Dynamic Optimization of Cryogenic Carbon Capture with Large-scale Adoption of Renewable Power, AIChE Annual Meeting, Atlanta, GA, Nov 2014. [[Attach:cryogenic_carbon_capture_aiche14.pdf|Abstract]]
Deleted line 40:
Deleted lines 42-43:
Changed line 47 from:
to:
* Gallacher, J, Safdarnejad, S.M., Hedengren, J.D., Dynamic Parameter Estimation and Optimization of Batch Distillation Columns, Chemical Engineering Journal, in progress
Added lines 39-41:
* Safdarnejad,S.M., Hedengren, J.D., Lewis, N.R., Haseltine, E., Initialization Strategies for Optimization of Dynamic Systems, Computers and Chemical Engineering, submitted
Changed lines 44-47 from:
* Dynamic Parameter Estimation and Optimization of Batch Distillation Columns, Chemical Engineering Journal, in progress
* Grid-level Dynamic Optimization of Cryogenic Carbon Capture with Conventional and Renewable Power Sources, Applied Energy Journal, submitted
* Grid-level Dynamic Optimization of Cryogenic Carbon Capture with Conventional and Renewable Power Sources, Applied Energy Journal,
to:
* Gallacher, J, Safdarnejad, S.M., Hedengren, J.D., Dynamic Parameter Estimation and Optimization of Batch Distillation Columns, Chemical Engineering Journal, in progress
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L, Grid-level Dynamic Optimization of Cryogenic Carbon Capture with Conventional and Renewable Power Sources, Applied Energy Journal, submitted
* Safdarnejad, S.M., Kennington, L., Hedengren, J.D., Baxter, L.L, Investigating the Impact of Cryogenic Carbon Capture on the Performance of Power Plants, American Control Conference (ACC), Chicago, IL, July 2015
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L, Grid-level Dynamic Optimization of Cryogenic Carbon Capture with Conventional and Renewable Power Sources, Applied Energy Journal, submitted
* Safdarnejad, S.M., Kennington, L., Hedengren, J.D., Baxter, L.L, Investigating the Impact of Cryogenic Carbon Capture on the Performance of Power Plants, American Control Conference (ACC), Chicago, IL, July 2015
Changed line 60 from:
* Investigating the Impact of Cryogenic Carbon Capture on the Performance of Power Plants, American Control Conference (ACC), Chicago, IL, 2015, submitted
to:
* Safdarnejad, S.M., Hedengren, J.D., Baxter, L.L, Effect of Cryogenic Carbon Capture (CCC) on Smart Power Grids, AIChE Spring Meeting, Austin, TX, Apr. 2015
Changed lines 38-39 from:
* Suppression of Severe Riser Slugging with Nonlinear Model Predictive Control, in progress
to:
* Eaton, A., Safdarnejad, S.M., Hedengren, J.D., Moffat, K., Hubbell, C., Brower, D.V., Brower, A.D., Post-Installed Fiber Optic Pressure Sensors on Subsea Production Risers for Severe Slugging Control, ASME 34th International Conference on Ocean, Offshore and Arctic Engineering, OMAE2014/42196, St. John's, Newfoundland, Canada, June 2015, submitted. [[Attach:Eaton_OMAE15.pdf|Preprint]]
Changed lines 54-55 from:
* Safdarnejad, S.M., Hall, T., Hedengren, J.D., Baxter, L., Dynamic Optimization of Cryogenic Carbon Capture with Large-scale Adoption of Renewable Power, AIChE Annual Meeting, Atlanta, GA, Nov 2014. [[Attach:cryogenic_carbon_capture_aiche14.pdf|Abstract]]
to:
* Dynamic Optimization of Cryogenic Carbon Capture with Large-scale Adoption of Renewable Power, AIChE Annual Meeting, Atlanta, GA, Nov 2014. [[Attach:cryogenic_carbon_capture_aiche14.pdf|Abstract]]
Changed lines 60-61 from:
* Hedengren, J.D., Mojica, J.L., Asgharzadeh Shishivan, R., Safdarnejad, S.M., Recent Advances in the Application of MIDAE Systems, AIChE National Meeting, San Francisco, CA, Nov 2013. [[Attach:hedengren_aiche13.pdf|Abstract]]
to:
* Recent Advances in the Application of MIDAE Systems, AIChE National Meeting, San Francisco, CA, Nov 2013. [[Attach:hedengren_aiche13.pdf|Abstract]]
Changed lines 66-67 from:
* Aug 2012- Present: Brigham Young University
Developing the model predictive control of wax deposition in crude oil pipelines
to:
'''* Aug 2012- Present: Brigham Young University '''
* Developing the model predictive control of wax deposition in crude oil pipelines
* Developing the model predictive control of wax deposition in crude oil pipelines
Deleted line 68:
Changed lines 72-73 from:
* May 2013-Aug 2013: Intern at Sustainable Energy Solutions (SES), Utah, USA
to:
'''* May 2013-Aug 2013: Intern at Sustainable Energy Solutions (SES), Utah, USA'''
Changed lines 77-82 from:
* Running experiments for CCC pilot scale process
*Sep. 2009- Aug. 2012 : Soroush Energy Pouya, Management Consultancy and Engineering Company, Iran
*
to:
* Running experiments for CCC pilot plant
'''* Sep. 2009- Aug. 2012 : Soroush Energy Pouya, Management Consultancy and Engineering Company, Iran'''
'''* Sep. 2009- Aug. 2012 : Soroush Energy Pouya, Management Consultancy and Engineering Company, Iran'''
Changed lines 89-90 from:
* May 2012- Aug. 2012: Sadid Jonoob, Engineering and Construction Company, Iran
to:
'''* May 2012- Aug. 2012: Sadid Jonoob, Engineering and Construction Company, Iran'''
Changed lines 94-95 from:
* Feb. 2009 - May 2011: Iran University of Science and Technology, Renewable Energy Research Laboratory
to:
'''* Feb. 2009 - May 2011: Iran University of Science and Technology, Renewable Energy Research Laboratory'''
Changed line 99 from:
* Feb. 2008 - Oct. 2008: Iranian Central Oil Fields Company (ICOFC)
to:
'''* Feb. 2008 - Oct. 2008: Iranian Central Oil Fields Company (ICOFC)'''
Changed lines 68-69 from:
* Integrated and optimized fossil – fueled and renewable power plants with the CCC process in a dynamic framework ($320 M yearly operational profit from the integrated system)
to:
* Integrated and optimized fossil – fueled and renewable power plants with the CCC process in a dynamic framework
Changed lines 71-73 from:
* Developed the modeling framework for parameter estimation and dynamic optimization of the batch distillation columns (54% increase in the product yield compared to the non-optimized case)
to:
* Developed the modeling framework for parameter estimation and dynamic optimization of the batch distillation columns
Changed line 76 from:
* Studied the effect of the energy storage on CCC (148% increase in the operational profit of the integrated system compared to the same system without energy storage)
to:
* Studied the effect of the energy storage on CCC
Changed line 84 from:
* Led the process discipline in hydraulic and slug volume calculations of the transport pipelines for two projects and saved approximately $3 M (10% of the project revenue) by properly sizing the pipelines with the aid of Pipesim and OLGA software packages (steady state and transient investigation)
to:
* Led the process discipline in hydraulic and slug volume calculations of the transport pipelines for two projects by properly sizing the pipelines with the aid of Pipesim and OLGA simulation packages (steady state and transient investigation)
Changed line 92 from:
* Led the process discipline in hydraulic calculations of the transport pipelines for one project and saved approximately $1.2 M (15% of the project revenue) by properly sizing the pipelines with the aid of Pipesim and OLGA software packages (steady state and transient investigation)
to:
* Led the process discipline in hydraulic calculations of the transport pipelines by properly sizing the pipelines with the aid of Pipesim and OLGA software packages (steady state and transient investigation)
Changed lines 16-19 from:
to:
* '''Emphasis''': Large-Scale Optimization, Automation, and Control of Distributed Processes
* '''Thesis''': Enhancing the Smart Power Grid by Dynamic Integration and Optimization of the Renewable and Conventional Power Plants with Cryogenic Carbon Capture (CCC)
* '''Thesis''': Enhancing the Smart Power Grid by Dynamic Integration and Optimization of the Renewable and Conventional Power Plants with Cryogenic Carbon Capture (CCC)
Changed lines 21-23 from:
to:
* '''Emphasis''': Thermodynamics and Reaction Kinetics
* '''Thesis''': CFD modeling of an Autothermal Catalytic Monolith Reformer to Obtain Hydrogen for Fuel Cells
* '''Thesis''': CFD modeling of an Autothermal Catalytic Monolith Reformer to Obtain Hydrogen for Fuel Cells
Changed lines 25-28 from:
to:
* '''Emphasis''': Process Design of Petroleum Industries
* '''Thesis''': Hydraulic Calculation of Transport Pipelines of "Dey" and "Sefidzakhor" Gas Fields by the Aid of OLGA and Pipesim Software Packages
* '''Thesis''': Hydraulic Calculation of Transport Pipelines of "Dey" and "Sefidzakhor" Gas Fields by the Aid of OLGA and Pipesim Software Packages
Changed lines 67-72 from:
to:
* Developing the model predictive control of wax deposition in crude oil pipelines
* Integrated and optimized fossil – fueled and renewable power plants with the CCC process in a dynamic framework ($320 M yearly operational profit from the integrated system)
* Developed the dynamic optimization framework for integration of smart power grid with the CCC process
* Developed the modeling framework for parameter estimation and dynamic optimization of the batch distillation columns (54% increase in the product yield compared to the non-optimized case)
* Integrated and optimized fossil – fueled and renewable power plants with the CCC process in a dynamic framework ($320 M yearly operational profit from the integrated system)
* Developed the dynamic optimization framework for integration of smart power grid with the CCC process
* Developed the modeling framework for parameter estimation and dynamic optimization of the batch distillation columns (54% increase in the product yield compared to the non-optimized case)
Changed lines 75-80 from:
to:
* Simulated and optimized the process configuration for the CCC process
* Studied the effect of the energy storage on CCC (148% increase in the operational profit of the integrated system compared to the same system without energy storage)
* Investigated different methods for CO'_2_' mitigation and compared the performance with the CCC process
* Running experiments for CCC pilot scale process
* Studied the effect of the energy storage on CCC (148% increase in the operational profit of the integrated system compared to the same system without energy storage)
* Investigated different methods for CO'_2_' mitigation and compared the performance with the CCC process
* Running experiments for CCC pilot scale process
Changed lines 84-89 from:
to:
* Led the process discipline in hydraulic and slug volume calculations of the transport pipelines for two projects and saved approximately $3 M (10% of the project revenue) by properly sizing the pipelines with the aid of Pipesim and OLGA software packages (steady state and transient investigation)
* Developed the process simulation models for compressor stations, sour water stripping unit, amine sweetening unit, and transport pipelines with the aid of different simulation software packages
* Simulated the PVT data of Varavi reservoir fluid with PVTsim software package
* Prepared the conceptual design and other technical documents according to the relevant standards in the oil and gas industries
* Developed the process simulation models for compressor stations, sour water stripping unit, amine sweetening unit, and transport pipelines with the aid of different simulation software packages
* Simulated the PVT data of Varavi reservoir fluid with PVTsim software package
* Prepared the conceptual design and other technical documents according to the relevant standards in the oil and gas industries
Changed lines 92-94 from:
to:
* Led the process discipline in hydraulic calculations of the transport pipelines for one project and saved approximately $1.2 M (15% of the project revenue) by properly sizing the pipelines with the aid of Pipesim and OLGA software packages (steady state and transient investigation)
* Simulated the PVT data of Sarajeh reservoir fluid with PVTsim software package to be used in OLGA
* Simulated the PVT data of Sarajeh reservoir fluid with PVTsim software package to be used in OLGA
Changed lines 97-99 from:
to:
* Investigated the practical methods for onboard hydrogen generation to be used in PEM fuel cells
* Developed the model and optimized the operating conditions of a monolithic reformer for onboard hydrogen production to be used in PEM fuel cells
* Developed the model and optimized the operating conditions of a monolithic reformer for onboard hydrogen production to be used in PEM fuel cells
Changed lines 102-104 from:
to:
* Performed the hydraulic and slug volume calculations of the transport pipelines (dynamic simulation)
* Prepared the technical documents and design specification sheets for the equipment used in the transport pipelines
* Simulated the PVT data of Sarajeh and Dey reservoir fluids with PVTsim software package to be used in OLGA
* Prepared the technical documents and design specification sheets for the equipment used in the transport pipelines
* Simulated the PVT data of Sarajeh and Dey reservoir fluids with PVTsim software package to be used in OLGA
Changed lines 44-49 from:
* A CFD Model for Methane Autothermal Reforming on Ru/γ-Al2O3 Catalyst (Article published in Procedia Engineering, 42, (2012), 2–24)
* Computational Fluid Dynamics Simulation of Autothermal Reforming for Fuel Cell Applications (Article accepted in “3rd International Conference on Chemical Engineering and Advanced Materials”, November14th - 28th, 2011, Italy)
* A CFD model of autothermal reforming (Article published in“7th International Chemical Engineering Congress and Exhibition”, November 21th -24 th, 2011, Kish, Iran)
* Computational Fluid Dynamics Simulation of Autothermal Reforming for Fuel Cell Applications (Article accepted in “3rd International Conference on Chemical Engineering and Advanced Materials”, November
* A CFD model of autothermal reforming (Article published in
to:
* A CFD Model for Methane Autothermal Reforming on Ru/γ-Al'_2_'O'_3_' Catalyst (Article published in Procedia Engineering, 42, (2012), 2–24)
* Computational Fluid Dynamics Simulation of Autothermal Reforming for Fuel Cell Applications (Article accepted in “3rd International Conference on Chemical Engineering and Advanced Materials”, November 14'^th^' - 28'^th^', 2011, Italy)
* A CFD model of autothermal reforming (Article published in “7'^th^' International Chemical Engineering Congress and Exhibition”, November 21'^th^' -24'^th^', 2011, Kish, Iran)
* Computational Fluid Dynamics Simulation of Autothermal Reforming for Fuel Cell Applications (Article accepted in “3rd International Conference on Chemical Engineering and Advanced Materials”, November 14'^th^' - 28'^th^', 2011, Italy)
* A CFD model of autothermal reforming (Article published in “7'^th^' International Chemical Engineering Congress and Exhibition”, November 21'^th^' -24'^th^', 2011, Kish, Iran)
Changed line 62 from:
* Studying the Performance of an Autothermal Catalytic Monolith Reformer to Obtain Hydrogen (Article published in “8th International Energy Conference”, May 24th -25 th, 2011, Tehran, Iran)
to:
* Studying the Performance of an Autothermal Catalytic Monolith Reformer to Obtain Hydrogen (Article published in “8th International Energy Conference”, May 24'^th^' -25'^th^', 2011, Tehran, Iran)
Changed lines 112-119 from:
* 2008: Ranked 6th among 70 B.Sc. students in Chemical Engineering program at IUST
* 2007: Placed3rd and 4th in nationwide competitions of manufacturing CHEM-E-CAR (Chemical powered cars) in fields of poster and performance, respectively
* 2007: Placed1st in inner- university competition of manufacturing CHEM-E-CAR (Chemical powered cars) in fields of performance and poster
* 2004: Ranked in the top 0.3% among about 550000 participants of the Iran National University Entrance Exam for undergraduate studies
* 2007: Placed
* 2007: Placed
to:
* 2008: Ranked 6'^th^' among 70 B.Sc. students in Chemical Engineering program at IUST
* 2007: Placed 3'^rd^' and 4'^th^' in nationwide competitions of manufacturing CHEM-E-CAR (Chemical powered cars) in fields of poster and performance, respectively
* 2007: Placed 1'^st^' in inner- university competition of manufacturing CHEM-E-CAR (Chemical powered cars) in fields of performance and poster
* 2007: Placed 3'^rd^' and 4'^th^' in nationwide competitions of manufacturing CHEM-E-CAR (Chemical powered cars) in fields of poster and performance, respectively
* 2007: Placed 1'^st^' in inner- university competition of manufacturing CHEM-E-CAR (Chemical powered cars) in fields of performance and poster
Changed lines 121-125 from:
* Chemical Engineering Software: Hysys, Aspen, Pro II, OLGA, Pipesim, Pipephase, PVT sim, Fluent, Gambit, Flarenet
* Programming Languages:AP Monitor, Matlab, Python, C++ , Mathcad, Polymath
* MicrosoftOffice (Word, Excel, Power point)
* Programming Languages:
* Microsoft
to:
* Chemical Engineering Software: OLGA, Pipesim, Hysys, Aspen, Pro II, Pipephase, PVTsim, Fluent, Gambit, Flarenet
* Programming Languages: APMonitor, Matlab, Python, C++ , Mathcad, Polymath
* Microsoft Word, Excel, PowerPoint, Access, Visio
* Programming Languages: APMonitor, Matlab, Python, C++ , Mathcad, Polymath
* Microsoft Word, Excel, PowerPoint, Access, Visio
Changed lines 34-35 from:
* CO2 Sequestration
to:
* CO'_2_' Sequestration
* Development of model predictive controller for different applications
* Development of model predictive controller for different applications
Changed lines 38-43 from:
to:
* Suppression of Severe Riser Slugging with Nonlinear Model Predictive Control, in progress
* Dynamic Parameter Estimation and Optimization of Batch Distillation Columns, Chemical Engineering Journal, in progress
* Grid-level Dynamic Optimization of Cryogenic Carbon Capture with Conventional and Renewable Power Sources, Applied Energy Journal, submitted
* Dynamic Parameter Estimation and Optimization of Batch Distillation Columns, Chemical Engineering Journal, in progress
* Grid-level Dynamic Optimization of Cryogenic Carbon Capture with Conventional and Renewable Power Sources, Applied Energy Journal, submitted
Added lines 52-53:
* Investigating the Impact of Cryogenic Carbon Capture on the Performance of Power Plants, American Control Conference (ACC), Chicago, IL, 2015, submitted
Added lines 66-72:
* Aug 2012- Present: Brigham Young University
-> Developing the model predictive control of wax deposition in crude oil pipelines
-> Integrated and optimized fossil – fueled and renewable power plants with the CCC process in a dynamic framework ($320 M yearly operational profit from the integrated system)
-> Developed the dynamic optimization framework for integration of smart power grid with the CCC process
-> Developed the modeling framework for parameter estimation and dynamic optimization of the batch distillation columns (54% increase in the product yield compared to the non-optimized case)
-> Developing the model predictive control of wax deposition in crude oil pipelines
-> Integrated and optimized fossil – fueled and renewable power plants with the CCC process in a dynamic framework ($320 M yearly operational profit from the integrated system)
-> Developed the dynamic optimization framework for integration of smart power grid with the CCC process
-> Developed the modeling framework for parameter estimation and dynamic optimization of the batch distillation columns (54% increase in the product yield compared to the non-optimized case)
Changed lines 75-76 from:
to:
-> Simulated and optimized the process configuration for the CCC process
-> Studied the effect of the energy storage on CCC (148% increase in the operational profit of the integrated system compared to the same system without energy storage)
-> Investigated different methods for CO'_2_' mitigation and compared the performance with the CCC process
-> Studied the effect of the energy storage on CCC (148% increase in the operational profit of the integrated system compared to the same system without energy storage)
-> Investigated different methods for CO'_2_' mitigation and compared the performance with the CCC process
Changed lines 79-81 from:
to:
Changed lines 84-87 from:
-> Design of oil and gas processes and equipments
->Hydraulic and slug volume calculations for wellhead transmission pipelines
->Hydraulic and slug volume calculations
to:
-> Led the process discipline in hydraulic and slug volume calculations of the transport pipelines for two projects and saved approximately $3 M (10% of the project revenue) by properly sizing the pipelines with the aid of Pipesim and OLGA software packages (steady state and transient investigation)
-> Developed the process simulation models for compressor stations, sour water stripping unit, amine sweetening unit, and transport pipelines with the aid of different simulation software packages
-> Simulated the PVT data of Varavi reservoir fluid with PVTsim software package
-> Prepared the conceptual design and other technical documents according to the relevant standards in the oil and gas industries
-> Developed the process simulation models for compressor stations, sour water stripping unit, amine sweetening unit, and transport pipelines with the aid of different simulation software packages
-> Simulated the PVT data of Varavi reservoir fluid with PVTsim software package
-> Prepared the conceptual design and other technical documents according to the relevant standards in the oil and gas industries
Changed lines 92-93 from:
->Hydraulic and slug volume calculations for wellhead transmission pipelines
to:
-> Led the process discipline in hydraulic calculations of the transport pipelines for one project and saved approximately $1.2 M (15% of the project revenue) by properly sizing the pipelines with the aid of Pipesim and OLGA software packages (steady state and transient investigation)
-> Simulated the PVT data of Sarajeh reservoir fluid with PVTsim software package to be used in OLGA
* Feb. 2009 - May 2011: Iran University of Science and Technology, Renewable Energy Research Laboratory
-> Investigated the practical methods for onboard hydrogen generation to be used in PEM fuel cells
-> Developed the model and optimized the operating conditions of a monolithic reformer for onboard hydrogen production to be used in PEM fuel cells
-> Simulated the PVT data of Sarajeh reservoir fluid with PVTsim software package to be used in OLGA
* Feb. 2009 - May 2011: Iran University of Science and Technology, Renewable Energy Research Laboratory
-> Investigated the practical methods for onboard hydrogen generation to be used in PEM fuel cells
-> Developed the model and optimized the operating conditions of a monolithic reformer for onboard hydrogen production to be used in PEM fuel cells
Changed lines 102-103 from:
->Hydraulic and slug volume calculations for wellhead transmission pipelines
to:
-> Performed the hydraulic and slug volume calculations of the transport pipelines (dynamic simulation)
-> Prepared the technical documents and design specification sheets for the equipment used in the transport pipelines
-> Simulated the PVT data of Sarajeh and Dey reservoir fluids with PVTsim software package to be used in OLGA
-> Prepared the technical documents and design specification sheets for the equipment used in the transport pipelines
-> Simulated the PVT data of Sarajeh and Dey reservoir fluids with PVTsim software package to be used in OLGA
Added line 109:
* 2012-2016: Chemical Engineering Department Scholarship, BYU
Added lines 25-27:
-> '''Emphasis''': Process Design of Petroleum Industries
-> '''Thesis''': Hydraulic Calculation of Transport Pipelines of "Dey" and "Sefidzakhor" Gas Fields by the Aid of OLGA and Pipesim Software Packages
-> '''Thesis''': Hydraulic Calculation of Transport Pipelines of "Dey" and "Sefidzakhor" Gas Fields by the Aid of OLGA and Pipesim Software Packages
Changed lines 21-22 from:
-> Emphasis: Thermodynamics and Reaction Kinetics
-> Thesis: CFD modeling of an Autothermal Catalytic Monolith Reformer to Obtain Hydrogen for Fuel Cells
-> Thesis: CFD modeling of an Autothermal Catalytic Monolith Reformer to Obtain Hydrogen for Fuel Cells
to:
-> '''Emphasis''': Thermodynamics and Reaction Kinetics
-> '''Thesis''': CFD modeling of an Autothermal Catalytic Monolith Reformer to Obtain Hydrogen for Fuel Cells
-> '''Thesis''': CFD modeling of an Autothermal Catalytic Monolith Reformer to Obtain Hydrogen for Fuel Cells
Changed lines 16-19 from:
to:
-> '''Emphasis''': Large-Scale Optimization, Automation, and Control of Distributed Processes
-> '''Thesis''': Enhancing the Smart Power Grid by Dynamic Integration and Optimization of the Renewable and Conventional Power Plants with Cryogenic Carbon Capture (CCC)
-> '''Thesis''': Enhancing the Smart Power Grid by Dynamic Integration and Optimization of the Renewable and Conventional Power Plants with Cryogenic Carbon Capture (CCC)
Added lines 21-22:
-> Emphasis: Thermodynamics and Reaction Kinetics
-> Thesis: CFD modeling of an Autothermal Catalytic Monolith Reformer to Obtain Hydrogen for Fuel Cells
-> Thesis: CFD modeling of an Autothermal Catalytic Monolith Reformer to Obtain Hydrogen for Fuel Cells
Changed lines 16-17 from:
to:
-> '''Emphasis''': Large-Scale Optimization, Automation, and Control of Distributed Processes
-> '''Thesis''': Enhancing the Smart Power Grid by Dynamic Integration and Optimization of the Renewable and Conventional Power Plants with Cryogenic Carbon Capture (CCC)
-> '''Thesis''': Enhancing the Smart Power Grid by Dynamic Integration and Optimization of the Renewable and Conventional Power Plants with Cryogenic Carbon Capture (CCC)
Changed lines 16-19 from:
-> '''Thesis''': Enhancing the Smart Power Grid by Dynamic Integration and Optimization of the Renewable and Conventional Power Plants with Cryogenic Carbon Capture (CCC)
to:
-> '''Emphasis''': Large-Scale Optimization, Automation, and Control of Distributed Processes
-> '''Thesis''': Enhancing the Smart Power Grid by Dynamic Integration and Optimization of the Renewable and Conventional Power Plants with Cryogenic Carbon Capture (CCC)
-> '''Thesis''': Enhancing the Smart Power Grid by Dynamic Integration and Optimization of the Renewable and Conventional Power Plants with Cryogenic Carbon Capture (CCC)
Changed lines 16-17 from:
-> Emphasis: Large-Scale Optimization, Automation, and Control of Distributed Processes
-> Thesis: Enhancing the Smart Power Grid by Dynamic Integration and Optimization of the Renewable and Conventional Power Plants with Cryogenic Carbon Capture (CCC)
-> Thesis: Enhancing the Smart Power Grid by Dynamic Integration and Optimization of the Renewable and Conventional Power Plants with Cryogenic Carbon Capture (CCC)
to:
-> '''Emphasis''': Large-Scale Optimization, Automation, and Control of Distributed Processes
-> '''Thesis''': Enhancing the Smart Power Grid by Dynamic Integration and Optimization of the Renewable and Conventional Power Plants with Cryogenic Carbon Capture (CCC)
-> '''Thesis''': Enhancing the Smart Power Grid by Dynamic Integration and Optimization of the Renewable and Conventional Power Plants with Cryogenic Carbon Capture (CCC)
Deleted line 12:
Deleted line 14:
Added lines 16-18:
-> Emphasis: Large-Scale Optimization, Automation, and Control of Distributed Processes
-> Thesis: Enhancing the Smart Power Grid by Dynamic Integration and Optimization of the Renewable and Conventional Power Plants with Cryogenic Carbon Capture (CCC)
-> Thesis: Enhancing the Smart Power Grid by Dynamic Integration and Optimization of the Renewable and Conventional Power Plants with Cryogenic Carbon Capture (CCC)
Added lines 41-44:
(:html:)
<iframe width="560" height="315" src="//www.youtube.com/embed/_Ja2I2Sz4XA?rel=0" frameborder="0" allowfullscreen></iframe>
(:htmlend:)
Added lines 39-40:
* Safdarnejad, S.M., Hall, T., Hedengren, J.D., Baxter, L., Dynamic Optimization of Cryogenic Carbon Capture with Large-scale Adoption of Renewable Power, AIChE Annual Meeting, Atlanta, GA, Nov 2014. [[Attach:cryogenic_carbon_capture_aiche14.pdf|Abstract]]
Changed lines 54-56 from:
* 2009-2012 : Soroush Energy Pouya, Management Consultancy and Engineering Company, Iran
to:
* Sep. 2009- Aug. 2012 : Soroush Energy Pouya, Management Consultancy and Engineering Company, Iran
Changed line 65 from:
* Iranian Central Oil Fields Company (ICOFC)
to:
* Feb. 2008 - Oct. 2008: Iranian Central Oil Fields Company (ICOFC)
Changed line 91 from:
Soccer, Swimming, Hiking
to:
Soccer, Swimming, Tennis
Deleted line 51:
Changed lines 11-13 from:
* Email: safdarnejad@byu.net , mostafa.safdarnejad@gmail.com
to:
* Email: safdarnejad@byu.edu , mostafa.safdarnejad@gmail.com
Added lines 46-54:
* May 2013-Aug 2013: Intern at Sustainable Energy Solutions (SES), Utah, USA
-> Simulation and optimization of Cryogenic Carbon Capture (CCC) process using in house developed software
-> Running experiments for CCC pilot scale process
-> Energy storage and grid stability studies for CCC
-> Design of a spray tower aimed to work at cryogenic temperatures
-> Simulation and optimization of Cryogenic Carbon Capture (CCC) process using in house developed software
-> Running experiments for CCC pilot scale process
-> Energy storage and grid stability studies for CCC
-> Design of a spray tower aimed to work at cryogenic temperatures
Changed line 86 from:
* Programming Languages: MATLAB, C++ , Mathcad, Polymath
to:
* Programming Languages: AP Monitor, Matlab, Python, C++ , Mathcad, Polymath
Added lines 39-40:
* Hedengren, J.D., Mojica, J.L., Asgharzadeh Shishivan, R., Safdarnejad, S.M., Recent Advances in the Application of MIDAE Systems, AIChE National Meeting, San Francisco, CA, Nov 2013. [[Attach:hedengren_aiche13.pdf|Abstract]]
Changed lines 48-49 from:
to:
->Hydraulic and slug volume calculations for wellhead transmission pipelines
Changed lines 46-48 from:
->Design of oil and gas processes and equipments
->Hydraulic and slug volume calculations for wellhead transmission pipelines
-
to:
-> Design of oil and gas processes and equipments
-< Hydraulic and slug volume calculations for wellhead transmission pipelines
-< Hydraulic and slug volume calculations for wellhead transmission pipelines
Changed lines 11-12 from:
* Email:
to:
* Email: safdarnejad@byu.net , mostafa.safdarnejad@gmail.com
Added lines 16-22:
* Aug. 2012-Present: PhD student in Chemical Engineering, Department of Chemical Engineering, Brigham Young University (BYU), Provo, Utah.
* 2008 –2011: M.Sc. student in Chemical Engineering, Department of Chemical Engineering, Iran University of Science and Technology (IUST)
* 2004-2008 : B.Sc. student in Chemical Engineering, Department of Chemical Engineering, Iran University of Science and Technology (IUST)
Changed lines 25-26 from:
* Solution to large-scale dynamic models in estimation and optimization applications
to:
* Process Control and Process Design Engineering
* Dynamic Modeling and Optimization
* Sustainable Energy Research
* CO2 Sequestration
* Dynamic Modeling and Optimization
* Sustainable Energy Research
* CO2 Sequestration
Added lines 32-37:
* A CFD Model for Methane Autothermal Reforming on Ru/γ-Al2O3 Catalyst (Article published in Procedia Engineering, 42, (2012), 2–24)
* Computational Fluid Dynamics Simulation of Autothermal Reforming for Fuel Cell Applications (Article accepted in “3rd International Conference on Chemical Engineering and Advanced Materials”, November 14th - 28th, 2011, Italy)
* A CFD model of autothermal reforming (Article published in “7th International Chemical Engineering Congress and Exhibition”, November 21th -24 th, 2011, Kish, Iran)
* Computational Fluid Dynamics Simulation of Autothermal Reforming for Fuel Cell Applications (Article accepted in “3rd International Conference on Chemical Engineering and Advanced Materials”, November 14th - 28th, 2011, Italy)
* A CFD model of autothermal reforming (Article published in “7th International Chemical Engineering Congress and Exhibition”, November 21th -24 th, 2011, Kish, Iran)
Added lines 40-41:
* Studying the Performance of an Autothermal Catalytic Monolith Reformer to Obtain Hydrogen (Article published in “8th International Energy Conference”, May 24th -25 th, 2011, Tehran, Iran)
Changed lines 44-47 from:
!!!! Interests and Awards
* Interests
to:
* 2009-2012 : Soroush Energy Pouya, Management Consultancy and Engineering Company, Iran
->Design of oil and gas processes and equipments
->Hydraulic and slug volume calculations for wellhead transmission pipelines
* May 2012- Aug. 2012: Sadid Jonoob, Engineering and Construction Company, Iran
->Hydraulic and slug volume calculations for wellhead transmission pipelines
* Iranian Central Oil Fields Company (ICOFC)
->Hydraulic and slug volume calculations for wellhead transmission pipelines
!!!! Awards
* 2008: Accepted in M.Sc. at IUST in Chemical Engineering program through Exceptional Talents Committee
* 2008: Ranked 6th among 70 B.Sc. students in Chemical Engineering program at IUST
* 2007: Placed 3rd and 4th in nationwide competitions of manufacturing CHEM-E-CAR (Chemical powered cars) in fields of poster and performance, respectively
* 2007: Placed 1st in inner- university competition of manufacturing CHEM-E-CAR (Chemical powered cars) in fields of performance and poster
* 2004: Ranked in the top 0.3% among about 550000 participants of the Iran National University Entrance Exam for undergraduate studies
!!!! Computer Skills
* Chemical Engineering Software: Hysys, Aspen, Pro II, OLGA, Pipesim, Pipephase, PVT sim, Fluent, Gambit, Flarenet
* Programming Languages: MATLAB, C++ , Mathcad, Polymath
* Microsoft Office (Word, Excel, Power point)
!!!! Interests
Soccer, Swimming, Hiking
->Design of oil and gas processes and equipments
->Hydraulic and slug volume calculations for wellhead transmission pipelines
* May 2012- Aug. 2012: Sadid Jonoob, Engineering and Construction Company, Iran
->Hydraulic and slug volume calculations for wellhead transmission pipelines
* Iranian Central Oil Fields Company (ICOFC)
->Hydraulic and slug volume calculations for wellhead transmission pipelines
!!!! Awards
* 2008: Accepted in M.Sc. at IUST in Chemical Engineering program through Exceptional Talents Committee
* 2008: Ranked 6th among 70 B.Sc. students in Chemical Engineering program at IUST
* 2007: Placed 3rd and 4th in nationwide competitions of manufacturing CHEM-E-CAR (Chemical powered cars) in fields of poster and performance, respectively
* 2007: Placed 1st in inner- university competition of manufacturing CHEM-E-CAR (Chemical powered cars) in fields of performance and poster
* 2004: Ranked in the top 0.3% among about 550000 participants of the Iran National University Entrance Exam for undergraduate studies
!!!! Computer Skills
* Chemical Engineering Software: Hysys, Aspen, Pro II, OLGA, Pipesim, Pipephase, PVT sim, Fluent, Gambit, Flarenet
* Programming Languages: MATLAB, C++ , Mathcad, Polymath
* Microsoft Office (Word, Excel, Power point)
!!!! Interests
Soccer, Swimming, Hiking
Added lines 1-28:
(:title Seyed Mostafa Safdarnejad - BYU PRISM Group:)
(:keywords Seyed Mostafa Safdarnejad, research group, Brigham Young University, Process System Engineering:)
(:description Process Research and Intelligent Systems Modeling (PRISM) Group at Brigham Young University:)
Attach:seyed_mostafa_safdarnejad.png
!! Seyed Mostafa Safdarnejad
!!!! Contact Information
* Email:
!!!! Education
!!!! Research Interests
* Solution to large-scale dynamic models in estimation and optimization applications
!!!! Publications
!!!! Conference Proceedings
!!!! Experience
!!!! Interests and Awards
* Interests
(:keywords Seyed Mostafa Safdarnejad, research group, Brigham Young University, Process System Engineering:)
(:description Process Research and Intelligent Systems Modeling (PRISM) Group at Brigham Young University:)
Attach:seyed_mostafa_safdarnejad.png
!! Seyed Mostafa Safdarnejad
!!!! Contact Information
* Email:
!!!! Education
!!!! Research Interests
* Solution to large-scale dynamic models in estimation and optimization applications
!!!! Publications
!!!! Conference Proceedings
!!!! Experience
!!!! Interests and Awards
* Interests
