|1 – Fuels, Combustion & Material Handling
||Dr. Ashwani Gupta, University of Maryland
||Dr. Jeongmin Ahn, Syracuse University
||This track covers advanced combustion systems and combustion issues such as combustion performance, burner design, modeling and research associated with solid, liquid, and gaseous fuels for improved performance and reduced emission.
|2 – Combustion Turbine Combined Cycles
||Jeff Cobb, Sargent & Lundy
||Nick Gritz, Georgia Institute of Technology
||This track covers combustion turbine generators and combined cycle technologies. Topics included in this track are combustion turbine and combined cycle performance optimization and upgrades, operation and maintenance practices, advanced manufacturing processes, and combined cycle balance of plant considerations. This track also includes new and emerging combustion turbine and combined cycle technology solutions, best construction practices, and use of alternative fuels.
|3 – Boilers & Heat Recovery Steam Generators
||David Fitzgerald, P.E. Retired
||This track covers topics on steam generators and heat recovery steam generation including design, operation, maintenance, performance. Environmental systems that are also incorporated will be addressed.
|4 – Advanced Tools for Cyber-physical systems and Digital Twins
||Paolo Pezzini, Ames La boratory, Department of Energy
||Biao Zhang, U.S. Department of Energy National Energy Technology Laboratory
||This track covers power plant modelling, improvement of power plant performance, and use of advanced tools for digitals twins and cyber-physical systems such as relates to diagnostic applications or innovative cycle.
|5 – Risk Management, Cyber Security and Safety
||Tina Toburen, T2E3, Inc.
||This track addresses specific topics regarding the management of risk to power plants, including probability assessments of equipment failure, general safety issues and cyber security.
|6 – Plant Development and Construction
||Frank Michell, Power Industry Consulting, LLC
||This track covers topics associated with power plant development and construction, applicable codes and standards and related economics. Technologies such as waste heat recovery from thermal plants and fossil and hydro power life extension are included. Modular construction and off-site fabrication and assembly techniques to ensure quality and reduce overall project costs are included.
|7 – Renewable Energy Systems
||Gopal Singh, Siemens Gamesa Renewable Energy/University of Central Florida
||Anthony DiCarlo, Merrimack College
||The Renewable Energy Systems track covers the state of the art in renewable energy, for example, solar, wind, geothermal and biomass. Topics include developments and recent trends in energy conversion, grid optimization and energy storage, including hydrogen battery and thermal energy storage. Other areas of interest include renewable costs, transmission developments, resource availability, policy concerns as well as local and global regulations, both present and forecasted, regarding the state of renewable energy worldwide.
|8 – Heat Exchanger Technologies
||Andrew Rister, Duke Energy
||The transfer of energy in the form of heat plays a major role in most power generation cycles. This energy transfer is accomplished through a type of equipment commonly known as heat exchangers. Heat exchangers are some of the key components found in all types of thermal power plants, including fossil, nuclear, solar, and geothermal plants, playing as vital a role as the boilers, steam generators, and turbine-generators in those processes. Heat exchangers come in a wide variety of configurations and designs, each specifically engineered to transfer heat between different substances, such as water or air, and at different conditions, such as at high or low temperatures and pressures. Some of the major types of heat exchangers commonly found in power plants include steam surface condensers, high pressure feedwater heaters, and cooling towers. Each of these specific types require precise knowledge and application of a variety of engineering disciplines, such as heat transfer, fluid flow, materials, and manufacturing, in order to design equipment that will provide years of efficient and reliable operation in a power plant. This track will cover issues related to the design, operation, and maintenance of existing power plant heat exchangers, as well as exciting new research into the future of these crucial pieces of the power generating process!
|9 – Steam Turbines, Generators and Auxiliaries
||Steve Radke, Siemens Energy, Inc.
||Davi Squaiella, Black & Veatch
Mike Smiarowski, Siemens Energy, Inc
|Topics for this track include Steam Turbine-Generators, Hydro Generators, Transformers, Switchgear, and Electric BOP & Auxiliaries. Discussion areas include operations (including flexibility), upgrades & refurbishments, maintenance issues & findings, major projects, and industry trends. This track usually draws upon industry subject matter experts to contribute technical tutorials, workshops, and panel discussions. Recent topics have been on equipment specific issues, heat rate improvement measures, and plant operational flexibility in the evolving energy mix.
|10 – Plant Performance
||Ed Dundon, Dominion Energy
||Plant Performance Issues, including: Operations, Maintenance, Aging Management, Reliability, Availability, Maintainability (RAM), Performance Testing, Performance Test Codes and Performance Monitoring
|11 – Robotics and Drones
||Frank Michell, Power Industry Consulting, LLC
||Navid Goudarzi, Cleveland State University
||Fossil, Nuclear, and other electric generation facilities can benefit by leveraging robotics and drone technology. Robotics and drone technologies enhance productivity of inspection and maintenance practices. Utilizing robotics and drones; particularly deployed in confined and other hazardous applications, improves safety and reduced inspection and maintenance costs. Included are the latest developments in robotic and drone technologies for non-destructive testing, case studies and best practices for data collection and processing.
|13 – Water Management for Power Systems and Environmental Issues
||Nick Siefert, Department of Energy’s National Energy Technology Laboratory
||Jessica Mullen, Department of Energy’s National Energy Technology Laboratory
||Water management for power systems covers a broad array of activities and technologies at power plants, including cooling towers, water and wastewater treatment, and water reuse. Papers on this non-exclusive list of topics are sought for technical papers and presentations. In addition to accepting abstracts for general energy-water nexus topics, this track is specifically looking for papers on the topic of minimization of the use of fresh water for the cooling of thermal power plants and on treating effluent wastewater generated at power plants. Additionally, submissions are sought relevant to various environmental issues associated with power systems. These can include, but are not limited to, emissions (solid, liquid, or gas) control both within a stack or as a part of residuals from combustion or flue gas desulfurization processes.
|14 – Nuclear Forum
The purpose of the Nuclear Forum is to bring a group of experts from industry, research and technical support organizations and academia to discuss current activities and technical challenges related to the nuclear energy field. The intent of Nuclear Forum topical sessions is to allow sharing of these experiences and their solutions by researchers, practicing engineers, technical support analysts, plant owners and operators worldwide. This in turn will expand international cooperation and understanding of the common issues facing nuclear plants. Papers related to Nuclear Engineering and Technology, and Radiation Sciences are sought. Topical sessions will consider operational, theoretical, experimental and numerical works including, but not limited to:
Plants, Operations, Maintenance, Safety and Security; Codes and Standards, Licensing and Regulatory Issues, Protection and Shielding, Materials & Structures: Modeling and Simulations: Computational Methods, Reactor Physics, Neutronics, Thermal-Hydraulics, Computational Fluid Dynamics, Advanced Reactor Concepts: Small Modular Nuclear Reactors, Research Reactors.
Dissemination of knowledge by presenting operating experience, research results, new developments, and novel concepts will serve as the foundation upon which the conference program of this area will be developed. A variety of topics/sessions are available for presentations as it allows flexibility to the authors.
|15 – Student Competition
||Sarvenaz Sobhansarbandi University of Missouri-Kansas City
||Andre Texiera, SDP
Steve Greco, Lectrodryer
|The purpose of this competition is to encourage active participation of students in the ASME Power Conference by submitting high quality technical papers on various aspects of Power Engineering. Students participating in this competition are required to make a presentation during a technical session dedicated to student papers, adressing various aspects of Power Engineering. This Competition seeks to promote the interaction of future engineers with practicing and experienced engineers and to help them establish mentoring and networking links with experts in their areas of interest.