2016 Center for Energy Initiatives November 13-18, 2016 Hilton San Francisco Union Square, San Francisco, CA

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1 2016 Center for Energy Initiatives November 13-18, 2016, San, CA

2 Letter from the Chair Dear Energy Professional, Welcome to the program of the Center for Energy Initiatives at the 2016 AIChE Annual Conference at the in San, CA. This program will focus on recent developments that will be instrumental to a better understanding of the technologies and the research and development that will stimulate innovative thinking to advance energy systems. The conference will address critical issues across eight key topics: iorefinery Technologies for Forest ased Lignocellulosic iomass Solar Energy for Power Generation and Chemical Processing Hydrogen Production and Storage Alternative Energy & Enabling Technologies iofuels Fossil Fuels & CCS Transport and Energy Processes Alternate Fuels and New Technology The program also includes sessions from the International Congress on Energy (ICE) The International Congress on Energy represents one of the largest technical conferences on energy that cover a wide variety of energy related topics. Dale L. Keairns Chair, Center for Energy Initiatives An AIChE Technological Community Deloitte Consulting LLP

3 Center for Energy Initiatives Executive Committee ond Calloway, Savannah River National Laboratory Dale Keairns, CEI Chair, Deloitte Haroon Kheshgi, ExxonMobil Ah-Hyung (Alissa) Park, Columbia University Darlene Schuster, CEI Executive Director Gregory Stephanopoulos, Massachusetts Institute of Technology June Wispelwey, AIChE Executive Director Featured events include: Critical Public Policy Issues for Every ChemE (Invited Talks) Leaders of AIChE s Public Affairs & Information Committee and invited topical experts will discuss three critical public policy issues impacting our profession: (a) the energy/water/food nexus, (b) safety in the process industries, and (c) advanced manufacturing Date:, November 13, 2016: -6:00 Location: 2 ( ) Chairs: Phillip R. Westmoreland, North Carolina State University Nada Marie Anid, New York Institute of Technology World Café: Food-Energy-Water Nexus (Invited Talks) The affordable production, security, and safety of Food, Energy, and Water resources (the FEW Nexus) can no longer be addressed in isolation. The complicated world structure and global connections result in a complex system problem with the search to balance local needs and complex global connections. New frameworks, methodologies, and tools that account for diverse stakeholders are needed to manage the Nexus. Chemical engineers bring important understanding, skills, and gifts to address this problem. This plenary session, a continuing AIChE / IChemE collaboration on the Nexus, leads a topical conference on the Nexus that is being established to provide a forum for exchanging research, case studies, and ideas. Date:, November 14, 2016: -10:30 Location: 15 & 16 ( ) Chairs: Dale Keairns, Deloitte Strategy & Operations Henry T. (Hank) Kohlbrand, HT Consulting Richard C. Darton, University of Oxford

4 Program Day iorefinery Technologies for Forest ased Lignocellulosic iomass Time 6:00 Session # Session Title Property Room Process Development for Sustainable Food and iochemical Production* Reaction Engineering of iomass and Hydrocarbons in Supercritical Water* Value-Added Coproducts from iorefineries* 91 Lignin-ased Materials* 139 Cellulose-ased Materials* Advanced Energy Technologies: iomass Conversion, Steam Reforming, Partial Oxidation, and Auto-Thermal Reforming* Functional and ioinspired Cellulosic Materials* Particle Surface Effects in Solids Handling* Reaction Kinetics and Transport Fundamentals for iomass Conversion: Chemical and Catalytic* Poster Session: Novel Products from Forest and Plant iomass* iological Conversions and Processes for Renewable Feedstocks* iomass Characterization, Pretreatment, and Fractionation Efficient Processing of Lignin to ioproducts and iofuels * Plenary Session: Sustainable iorefineries (Invited Talks)* San 9 Mason Monterey II Square 14 Grand allroom

5 Sustainable Fuel from Renewable Resources* Thermochemical Conversion of iomass I Distributed ioprocessing for Integrated iorefineries* Fluidization and Fluid-Particle Systems for Energy and Environmental Applications I* 432 Pyrolysis of iomass* Thermochemical Conversion of iomass II Value-Added Co-Products from iorefineries* iobased Fuels and Chemicals II: Enzymatic Conversion of Recalcitrant Feedstocks* Fluidization and Fluid-Particle Systems for Energy and Environmental Applications II* Reaction Engineering for iomass Conversion* USA-China Progress in iomass Conversion Technologies I iobased Fuels and Chemicals I: iosynthetic Pathway Engineering* Integrated Thermochemical and iochemical Processing for Renewable Fuels and Chemicals* USA-China Progress in iomass Conversion Technologies II and iochemical Conversion of Plant iomass II iochemical Conversion Processes in Forest/Plant iomass iorefineries Catalysis with Microporous and Mesoporous Materials I: Lewis Acid Zeolites and iomass Conversion* San San Square 13 Peninsula Square 14 9 Peninsula 9 Imperial 580 Design of Integrated iorefineries I* San Carmel I

6 Friday Friday Friday 6: Integrating Municipal and Industrial Waste into iorefineries* Poster Session: Sustainability and Sustainable iorefineries* 622 iobased Materials* Catalytic iomass Conversion to Chemicals I* Chemical Conversion Processes in Forest/Plant iorefineries 636 Design of Integrated iorefineries II* Advances in Algae ased iorefineries: Algae iomass Cultivation, Harvesting, and Characterization Catalytic iomass Conversion to Chemicals II* Conversion of iomass ased Renewable Resources to Synthesis Gases and Pyrolysis Oils I* 710 Recalcitrance of Woody iomass Conversion of iomass ased Renewable Resources to Synthesis Gases and Pyrolysis Oils II* Developments in the Pretreatment of Lignocellulosics for ioconversion* Separation Processes in iorefineries 758 Advances in Algal iorefineries I* 772 Advances in Algal iorefineries II* 783 Reactor Engineering for iomass Feedstocks* San Square 17 & 18 Grand allroom 9 Carmel I Mason Square 17 & 18 Gate 7 Gate 7 Gate 8

7 Day Solar Energy for Power Generation and Chemical Processing Time Session # Session Title Property Room Nanomaterials for Thermal-to- Electric Conversion* Nanomaterials for Light Harvesting and Novel Photophysical Phenomenon* Nanostructured/Thin Film Photovoltaics* 167 Nanomaterials for Photovoltaics* Plenary Session: Emerging Energy Applications of Nanoscale Science and Engineering* Advanced Energy Technologies: iomass Conversion, Steam Reforming, Partial Oxidation, and Auto-Thermal Reforming* Sustainable Electricity: Generation and Storage * Electrocatalysis and Photoelectrocatalysis V: Electrolysis and Solar Fuels* Fuels from Sun I: Nanomaterials for Water Splitting, Artificial Photosynthesis, and Other Photocatalytic and Photoelectrochemical Reactions* Novel Nanoparticles and Nanostructured Materials for Energy and Environmental Applications I* Materials and Processes for Thermo-, Electro- and Photo- Chemical Energy Storage* Novel Nanoparticles and Nanostructured Materials for Energy and Environmental Applications II* Solar Thermochemical Energy Storage 557 Solar Thermal Power Generation 609 Solar Thermochemical Fuels I San San Gate 8 Gate 8 Gate 5 Gate 8 Gate 7 Mason C Gate 8 Peninsula Gate

8 664 Solar Thermochemical Fuels II 712 Solar Thermochemical Processing 753 Techniques in Solar Energy Day Time Session # 23 Hydrogen Production and Storage Session Title Property Room Catalysts for Fuel Cells, Electrolyzers, and Electrochemical Devices* 140 Chemical Looping Processes I* 145 Electrocatalysis and Photoelectrocatalysis II: HER/HOR* 208 Chemical Looping Processes II* 213 Fuel Cell Membranes* Fuels from Sun I: Nanomaterials for Water Splitting, Artificial Photosynthesis, and Other Photocatalytic and Photoelectrochemical Reactions* Materials for Electrochemical Energy Conversion* Sustainable Fuel from Renewable Resources* Fluidization and Fluid-Particle Systems for Energy and Environmental Applications I* Fuel Processing for Hydrogen Production* Novel Hydrogen Generation and Advanced Storage Technologies* Unconventionals: Hydrogen and Fuel Cells I* San C Plaza Gate 8 Gate 4 Square 13 Peninsula

9 473 Fluidization and Fluid-Particle Systems for Energy and Environmental Applications II* 491 Nanomaterials for Energy Storage I* Unconventionals: Hydrogen and Fuel Cells II* Interfacial Phenomena in Electrochemical Systems* Nanomaterials for Hydrogen Production and Fuel Cells* Polymers for Energy Storage and Conversion* 629 Catalytic Hydrogen Generation* Materials for Electrochemical Energy Storage I* Materials for Electrochemical Energy Storage II* 719 Alternative Fuels* San Peninsula 1 Square 25 1 Imperial A Gate 5 Gate 5 Day Time Alternative Energy & Enabling Technologies Session # Session Title Property Room Conversion of Solid Wastes to Energy and/or Product* Design of CO 2 Capture and Utilization Systems* Nanomaterials for Thermal-to-Electric Conversion* iofuels Production: Design, Simulation, and Economic Analysis I* San Carmel I Gate 8 Square 17 & 18

10 70 reakthroughs in C 1 to Chemicals and Processing Engineering* Catalytic Processing of Fossil and iorenewable Feedstocks I: C-O ond Activation* Electrocatalysis and Photoelectrocatalysis I: CO 2 Reduction* Nanostructured/Thin Film Photovoltaics* 100 Nanostructured Thin Films* Sustainable Energy from Renewable Resources* Catalytic Processing of Fossil and iorenewable Feedstocks II: iomass-derived Aromatics* Electrocatalysis and Photoelectrocatalysis II: HER/HOR* 167 Nanomaterials for Photovoltaics* Solid Oxide Fuel Cells (SOFC) and Electrolyzers* Advanced Energy Technologies: iomass Conversion, Steam Reforming, Partial Oxidation, and Auto-Thermal Reforming* attery and Energy Storage Technologies* iofuels Production: Design, Simulation, and Economic Analysis II* Catalytic Processing of Fossil and iorenewable Feedstocks III: Sugars, Furan Derivatives, and Related* Electrocatalysis and Photoelectrocatalysis III: Fuel Oxidation and Chemical Transformations* C Gate 5 Gate 4 C Gate 8 Mason Square 17 & 18 C

11 240 Sustainable Electricity: Generation and Storage * iological Conversions and Processes for Renewable Feedstocks* Catalytic Processing of Fossil and iorenewable Feedstocks IV: Ethanol and Other io-derived Feedstocks* Efficient Processing of Lignin to ioproducts and iofuels * Electrocatalysis and Photoelectrocatalysis IV: ORR/Oer* Physical Properties for Chemical Process and Product Design* Rechargeable / Secondary attery Technologies for Energy Storage* Catalytic Processing of Fossil and iorenewable Feedstocks V: Acids and Polyols* CO 2 Capture, Utilization, and Disposal: Key to Clean Energy Production* Electrocatalysis and Photoelectrocatalysis V: Electrolysis and Solar Fuels* Sustainable Fuel from Renewable Resources* Thermochemical Conversion of iomass I* Distributed ioprocessing for Integrated iorefineries* Fuel Processing for Hydrogen Production* Sustainability in the Analysis, Synthesis, and Design of Chemical Engineering Processes* C Square 3 & 4 C Square 13 Square 17 & Thermochemical Conversion of iomass II*

12 457 Algorithms, Modeling and Simulation in Nuclear/Chemical Engineering* Sutter 459 iobased Fuels and Chemicals II: Enzymatic Conversion of Recalcitrant Feedstocks* iotechnology for Energy, Chemicals, and Materials (Invited Industrial Talks)* iotechnology for Energy, Chemicals, and Materials (Invited Industrial Talks)* Energy Systems Design and Operations I* Novel Approaches to CO 2 Utilization I* Reaction Engineering for iomass Conversion* USA-China Progress in iomass Conversion Technologies I* iobased Fuels and Chemicals I: iosynthetic Pathway Engineering* Distributed Chemical and Energy Processes for Sustainability* Energy Systems Design and Operations II* Integrated Thermochemical and iochemical Processing for Renewable Fuels and Chemicals* Novel Approaches to CO 2 Utilization II* Reaction Engineering for Combustion and Pyrolysis* Carbon Dioxide Capture Technologies and Their Use* Chemical and Catalytic Conversions and Processes for Renewable Feedstocks I* Polymers for Energy Storage and Conversion* San San 6 6 Carmel I 9 Square 17 & 18 Carmel I Square 13 Imperial A

13 629 Catalytic Hydrogen Generation* 631 Chemical and Catalytic Conversions and Processes for Renewable Feedstocks II* Friday 679 Conversion of iomass ased Renewable Resources to Synthesis Gases and Pyrolysis Oils I* 719 Alternative Fuels* Conversion of iomass ased Renewable Resources to Synthesis Gases and Pyrolysis Oils II* Reactor Engineering for iomass Feedstocks* Gate 8 Day Time Session # iofuels Session Title Property Room Conversion of Solid Wastes to Energy and/or Product* Life Cycle Analysis of io-ased Fuels, Energy, and Chemicals* iofuels Production: Design, Simulation, and Economic Analysis I* Catalytic Processing of Fossil and iorenewable Feedstocks I: C-O ond Activation* Catalytic Processing of Fossil and iorenewable Feedstocks II: iomass- Derived Aromatics* Advanced Energy Technologies: iomass Conversion, Steam Reforming, Partial Oxidation, and Auto-Thermal Reforming* iofuels Production: Design, Simulation, and Economic Analysis II* Catalytic Processing of Fossil and iorenewable Feedstocks III: Sugars, Furan Derivatives, and Related* iological Conversions and Processes for Renewable Feedstocks* Square 17 & 18 Mason Square 17 & 18

14 iomass Characterization, Pretreatment, and Fractionation* Catalytic Processing of Fossil and iorenewable Feedstocks IV: Ethanol and Other io-derived Feedstocks* Efficient Processing of Lignin to ioproducts and iofuels * Catalytic Processing of Fossil and iorenewable Feedstocks V: Acids and Polyols* Sustainable Fuel from Renewable Resources* Thermochemical Conversion of iomass I* iobased Fuels and Chemicals II: Enzymatic Conversion of Recalcitrant Feedstocks* iotechnology for Energy, Chemicals, and Materials (Invited Industrial Talks)* iotechnology for Energy, Chemicals, and Materials (Invited Industrial Talks)* 462 Cell Culture Engineering* 472 Extractions in ioprocessing* USA-China Progress in iomass Conversion Technologies I* Alternative Fuels and Enabling Technologies I* iobased Fuels and Chemicals I: iosynthetic Pathway Engineering* Integrated Thermochemical and iochemical Processing for Renewable Fuels and Chemicals* Interfacial Phenomena in Electrochemical Systems* Parc 55 San Square Mission II & III 9 Square USA-China Progress in iomass Conversion Technologies II and iochemical Conversion of Plant iomass II*

15 564 Alternative Fuels and Enabling Technologies II* 567 iochemical Conversion Processes in Forest/Plant iomass iorefineries* Friday Friday 589 Integrating Municipal and Industrial Waste into iorefineries* 622 iobased Materials* Chemical Conversion Processes in Forest/Plant iorefineries* Nanoscale Science and Engineering in iomolecular Catalysis* Advances in Algae ased iorefineries: Algae iomass Cultivation, Harvesting, and Characterization* 695 Membrane Formation * 719 Alternative Fuels* 723 Catalytic iofuels Refining* Sustainable Microbial Process for Food, Feeds, Energy, and Environment* International Forum: iotechnology in China * Advances in Metabolic Engineering of Photosynthetic/Non-Model Organisms* Square 17 & 18 9 Gate 6 Plaza A 9 7 Day Time Session # Fossil Fuels & CCS Session Title Property Room Design of CO 2 Capture and Utilization Systems* Life Cycle Analysis of io-ased Fuels, Energy, and Chemicals* San Carmel I

16 Carbon Dioxide Capture from Power Generation I* Carbon Dioxide Capture from Power Generation II* 140 Chemical Looping Processes I* Environmental Catalysis: Air Pollution Control* Unconventionals: Shale Oil, Oil Sands and Other Heavy Fuels I* 208 Chemical Looping Processes II* 209 Combustion Kinetics and Emissions* Design and Optimization of Environmentally Sustainable Advanced Fossil Energy Systems* Future Automotive Catalysis: Automotive Emissions Control* Unconventionals: Shale Oil, Oil Sands and Other Heavy Fuels II* 319 The Food-Energy-Water Nexus* 319 The Food-Energy-Water Nexus* Novel Nanoparticles and Nanostructured Materials for Energy and Environmental Applications I* Unconventionals: Shale Gas, LNG, CNG, and LPG* Fuel Processing for Hydrogen Production* Novel Nanoparticles and Nanostructured Materials for Energy and Environmental Applications II* San San D D A Square 15 & 16 Square 15 & 16 Peninsula Gate 492 Novel Approaches to CO 2 Utilization I*

17 540 Modeling and Computation in Energy and Environment* San Monterey II 545 Novel Approaches to CO 2 Utilization II* Friday Process Research and Development for Industrial Sustainability * Carbon Dioxide Capture Technologies and Their Use* 630 CCS: Technoeconomics and LCA* Engineering Geologic Carbon Dioxide Storage Systems I* Novel Materials and Processes for Air Pollution Control* 677 CCS: Utilization of CO 2 to Products* 685 Engineering Geologic Carbon Dioxide Storage Systems II* 724 CCS: Modeling and Simulation* 771 Unconventional Technologies for CO 2 Capture, Conversion and Utilization* Square 3 & 4 Square 13 Square 15 & 16 Square 15 & 16 Square 15 & 16 3 Day Time 1:00 Session # Transport and Energy Processes Session Title Property Room Poster Session: Meet the Faculty Candidate - Transport & Energy Processes* Catalysts for Fuel Cells, Electrolyzers, and Electrochemical Devices Experimental, Theoretical, and Numerical Analysis of Transport Processes in Flow Reactors Membrane and Direct Methanol Fuel Cells 4 & 5 Mason

18 96 Modeling, Economics, and Technologies for Sustainable Energy and Advanced Systems I Mason 166 Modeling, Economics, and Technologies for Sustainable Energy and Advanced Systems II Mason 6: Solid Oxide Fuel Cells (SOFC) and Electrolyzers Advanced Energy Technologies: iomass Conversion, Steam Reforming, Partial Oxidation, and Auto-Thermal Reforming attery and Energy Storage Technologies Rechargeable / Secondary attery Technologies for Energy Storage CO 2 Capture, Utilization, and Disposal: Key to Clean Energy Production Novel Hydrogen Generation and Advanced Storage Technologies Poster Session: Transport and Energy Processes Solar Thermochemical Energy Storage* 557 Solar Thermal Power Generation* 609 Solar Thermochemical Fuels I* 664 Solar Thermochemical Fuels II* 712 Solar Thermochemical Processing* 753 Techniques in Solar Energy* Mason Grand allroom

19 Day Time Alternate Fuels and New Technology Session # Session Title Property Room Unconventionals: Shale Oil, Oil Sands and Other Heavy Fuels I Unconventionals: Shale Oil, Oil Sands and Other Heavy Fuels II Unconventionals: Shale Gas, LNG, CNG, and LPG Unconventionals: Hydrogen and Fuel Cells I Unconventionals: Hydrogen and Fuel Cells II Alternative Fuels and Enabling Technologies I Alternative Fuels and Enabling Technologies II * This session is co-sponsored by one or more programming groups

20 Day Time International Congress on Energy (ICE) 2016 Session # Session Title Property Room Overview of U.S. DOE Environmental and Waste Cleanup Programs (Invited Talks)* Overview of U.S. DOE Environmental and Waste Cleanup Programs (Invited Talks)* 319 The Food-Energy-Water Nexus* 319 The Food-Energy-Water Nexus* Fundamentals of Sustainability Science and Engineering* Advances in Life Cycle Optimization for Process Development* Going to a Decision Point in Sustainability Analysis* Sustainability Metrics at the Process and Product Level* Sutter Sutter Square 15 & 16 Square 15 & 16 Square 14 Square 13 Square 3 & 4 Square 3 & 4 * This session is co-sponsored by one or more programming groups

21 Center for Energy Initiatives: An AIChE Technological Community AIChE s Center for Energy Initiatives. ecause of its importance to energy, the Technical Divisions and Forums of AIChE came together to work on leveraging projects in energy. The chair of CEI, Dale L. Keairns said, Members are already working on energy-related issues from multiple perspectives. The Center helps us network and cross-fertilize and integrate ideas that can advance energy efforts across the board. Divisions and Forums whose members are in the CEI include the Catalysis and Reaction Engineering Division; the Computational Molecular Science and Engineering Forum; the Education Division; the Environmental Division; the Food, Pharmaceutical and ioengineering Division; the Forest ioproducts Division; the Fuels and Petrochemical Division; the Nanoscale Science and Engineering Forum; the North American Mixing Forum; the Nuclear Engineering Division; the Particle Technology Forum; the Process Development Division; the Separations Division; the Sustainable Engineering Forum; the Transport and Energy Processes Division. Other AIChE entities in CEI include the Institute for Sustainability, the Society for iological Engineering, the Public Affairs and Information Committee, the Research and New Technology Committee, and the Executive oard of the National Program Committee. CEI identifies, launches, and incubates energy initiatives and new projects that cross the boundaries of existing AIChE entities working in the energy area. CEI serves as a means to leverage breadth of work carried out and to enable integrated analysis of multi-disciplinary and multi-functional projects. The CEI grew out of the work of AIChE s Energy Advisory oard, which was formed in 2005 and has already undertaken a number of energy related research and education projects. It has coordinated a project on carbon management for a group of leading engineering societies, made awards for K-12 energy education projects, and developed a Speakers Academy of energy experts. Work is currently underway on an inter-society, inter-disciplinary project to develop energy metrics that will allow for consistent comparison of diverse energy options. CEI is also developing energy education modules for the undergraduate chemical engineering curriculum. Periodic CEI newsletters about energy issues are ed to the members of each entity. CEI also has a website that will provide more information about energy issues and important links: One of CEI s functions is to highlight and promote energy programming at AIChE meetings and to develop joint energy meetings with other organizations. These are areas where participation by Divisions and Forums is especially needed. To become a CEI member, just join one of the above Division and Forums of AIChE. You will not only become a member of CEI, you will also enjoy the full benefits of the Division or Forum that you join. For more information and to subscribe to the energy newsletter, contact energy@aiche.org.