Who should apply?
What are the presentation formats?
If your presentation is selected, you may be asked to deliver it as an individual presentation or panel presentation in our formal Conference program. It may also be chosen for our Knowledge Hubs which are the expanded, heavily trafficked presentation theaters in the exhibit hall.
How can I make my submission most attractive to the reviewers?
What are this year’s tracks?
Climate change and the need to find cleaner, carbon free sources of energy are driving many generating decisions. The new administration has made it clear that carbon reduction and attacking climate change are high priorities. Power generators must include current and potentially new climate-led regulations and laws when planning for the future. This track will contain information on regulations, resource planning, carbon credits or taxes, net zero carbon emission goals, as well as carbon capture reduction technologies and solutions.
- Climate change
- Environmental regulations
- Carbon costs/taxes
- Carbon credits
- Carbon capture and other clean coal innovations
- Gas-fired emissions reduction
- New gas turbine technologies and innovations
- Economics and financing
- Nuclear power’s future
- Small modular reactors
- Large-scale wind
- Utility-scale solar
The generation sector uses many resources and technologies, but digital innovation and data analytics are impacting plant operations and asset management more than most. Machine-to-machine learning and interface, artificial intelligence, augmented reality, and other digital technologies are transforming power plants, allowing them to continue to compete as new capacity is added to the generation mix. At the same time, this digital revolution creates issues, including cybersecurity and supply chain security threats. Learn how digitalization is changing the way power plants perform and are operated.
- Digital twinning
- Industrial Internet of Things
- Data analytics
- Artificial intelligence/augmented reality
- Software solutions
- Transactive energy future and roadblocks
- Controls and communication
- Economic load dispatch
Optimizing Plant Performance (O&M)
Gas-fired, coal-fired, and nuclear power plants continue to be the workhorses of the U.S. electricity industry, accounting for about 80 percent of the country’s generating capacity. Although new fuels and new types of power plants are gaining ground, many of these conventional plants still have years of life left in them. To compete, however, conventional power plant owners and operators must manage their assets wisely and optimize operations and maintenance with the latest processes and solutions, as well as with a highly trained and adaptive workforce. This track will focus on gas and steam turbines, boilers, heat recovery steam generators, automation, operations and maintenance, supply chain management, uprates, repowering and plant retirement strategies.
- Best practices in maintenance outages
- Repowering plants
- Strengthening against the elements
- Upgrading parts and plants
- Workforce issues
- Equipment upgrades
- Automation systems
- Best practices for gas-fired, nuclear and coal-fired plants
- Combined cycle HRSGs
- Cooling towers
- Control room
- Compliance challenges
- Remote monitoring
- Life cycle management
- Fuel switching
- Supply chain
Hydrogen: What’s New, What’s Next?
Hydrogen as a fuel for electricity generation, as well as a mechanism for energy storage, is seen by some as the “holy grail” when it comes to decarbonizing and transforming the energy future. It can be used to store, move and deliver energy produced from natural gas, SMR and conventional nuclear power, biomass, wind and solar. New technologies and developments associated with hydrogen are emerging rapidly. Can hydrogen live up to the energy industry’s high expectations? This track will explore the latest trends and technologies on the hottest topic in electricity generation.
- Hydrogen powered turbines
- Fuel cell technologies
Future of Electricity
The future generation mix will look different than it does now, as utilities plot integrated resource plans to get to net-zero carbon in coming decades. Yet conventional, baseload power, such as gas, nuclear and maybe even some coal, will remain in the mix for some time to provide reliability, resiliency, and efficiency. The energy transformation is rolling forward with or without governmental insights, so utility and independent power generators are carefully planning how they will move into the future. Utility-scale renewables are favored but have challenges in terms of transmission and distribution grid integration. Distributed resources offer the potential for added resiliency to mission critical systems. The 2050 generation portfolios may be carbon free, but how do utilities and IPPs get there? Presenters in this track will discuss their strategies and plans for the future and share their thoughts and visions for the road ahead.
- The next level in power generation economics
- Regulatory events impacting power generation
- Revenue opportunities
- Power generation interconnection
- Compliance challenges
- How to integrate into the bulk power system
- Market designs that work
- Regulatory barriers and rate reform
- Inverter technologies
- Inverter-based generation challenges
Energy Storage Breakthroughs
Many industry experts believe that utility-scale energy storage is the real game changer for the 21st Century power sector. The ability to store large amounts of power will help power producers fill the production gaps created by growing amounts of intermittent generation. This popular track will cover software solutions, battery challenges, safety, financing, and its grid balancing attributes.
- Utility-scale case studies
- Integration challenges
- All types of energy storage technologies
- Fire and safety issues
New Energy Mix
Decentralized power, including flexible gen-sets, CHP and co-generation are evolving to meet the needs of isolated and industrial facilities. These power supply technologies can be found at hospitals, oil drilling sites, data centers and any other site that needs continuous power. On-site power generators used for emergency backup or for primary power are connected to a wide array of sectors that keep the economy going. Gensets also are being installed to provide grid support. The speakers in this Hub will present the latest applications and uses for the versatile gensets available today.
- When to go (and not to go) microgrid
- On-site gas and diesel technologies
- Energy security and backup
- Gen-set ratings
- Hybrid technologies
- ISO standards
- Reciprocating engines
- Load following
- Responses to regulatory change
- Disaster response
- Mobile turbines
Trends in Conventional Power
Renewable generation continues to become a larger part of the electricity generation mix. Conventional power, however, remains and will continue to be the biggest contributor to the nation’s energy mix from years to come. Coal-fired plants are retiring, and in many places, natural gas is moving in. In addition, nuclear power is still a major contributor to the generation mix in the U.S. and other parts of the world and it is carbon free. Learn about the latest trends and technologies that are being implemented to keep this conventional power plants running efficiently and smoothly.
- Carbon capture and other clean coal innovations
- Improving modern coal fleet economics
- Flue gas treatment
- Coal ash and other environmental challenges
- International market developments
- Next-gen turbines of all sizes
- Fuel flexibility
- Design and performance
- Combustion optimization
- Peaker plants
- Load following and cycling
- Combined cycle
- O&M challenges
- LNG impact, opportunities and challenges
What information do I need to provide for a submission?
- Speaking Submission Title
- Presentation Type (Panel, Individual Presentation or Utility University course)
- Content Description
- Three Key Takeaways
- First and Second Choice Track options
- Speaker First Name
- Speaker Last Name
- Speaker Job Title
- Speaker Organization
- Speaker Biography
- Speaker Email
- Speaker Type