NETL's fossil fuel research, development, and demonstration focus on
efficient energy use and clean energy production from domestic fossil fuel resources. Onsite research, development, and demonstration address key energy and environmental concerns and solve issues that slow commercialization of domestic fuel power systems, fossil-fuel resource development, and environmental mitigation and waste management technologies. NETL works with modeling and theoretical research as well as bench- to demonstration-scale development and demonstration of technologies and concepts.
Coal NETL addresses critical research and development challenges for near-zero emissions power production from coal. Continued use of coal electric power production is enabled through NETL's research, development, demonstration, and, ultimately, deployment of advanced systems and technologies that increase overall plant efficiency while reducing emissions like carbon dioxide () and
nitrous oxides (). Projects within the coal program are part of DOE's Clean Coal Research Program. The aim is to improve on capture and storage techniques, and to develop advanced energy systems, as well as sensing and advanced process controls. NETL's coal program also investigates a range of advances in combustion, gasification, turbines, fuels, and fuel cell technologies that can increase power plant efficiency, improve plant economics, and reduce the amount of byproduct per unit of electricity generated. Development of these systems is designed to enable continued use of the United States’ significant fossil fuel resources as a major contributor to the nation's energy portfolio. The goals of NETL's research in advanced energy systems are to develop a new generation of
clean coal-fueled energy conversion systems capable of producing competitively priced electric power while reducing and other emissions, improving efficiency, increasing plant availability, and reducing cooling water requirements. Key aspects of this research include improving overall system
thermal efficiency, reducing capital and operating costs, and enabling affordable capture. Technology research areas include Gasification Systems, Advanced Combustion Systems, Advanced Turbines, Solid Oxide Fuel Cells, Carbon Capture, Carbon Storage, and Crosscutting Research. NETL's coal program also manages the Clean Coal Research Program's portfolio of large-scale technology demonstration projects that test advanced Program-developed technologies at full scale in integrated facilities. Final technical, environmental, and financial challenges associated with new advanced coal technologies are overcome during full-scale testing so the technologies are ready for commercial deployment. The demonstrated technologies fall under four capture pathways, each followed by storage: pre-combustion, post-combustion, oxy-combustion, and industrial carbon capture and storage.
Oil and Gas NETL helps advance development of technologies supporting efficient, environmentally benign unconventional domestic oil and gas resources. The Lab's research projects help catalyze the development of these new technologies, provide objective data to help quantify the environmental and safety risks of oil and gas development, and characterize emerging energy resources like
methane hydrate or shale gas production. The program foci are on deep-water technology,
enhanced oil recovery, and methane hydrate. NETL's research on
unconventional oil and gas includes efforts for improving wellbore cement used to stabilize wells for deep-water drilling; expeditions to determine presence and volume of methane hydrate along coastlines; development of
hydraulic fracturing data collection tools to improve
environmental reporting, monitoring, and protection; analysis to determine alternate sources of freshwater for oil and gas development, as well as many other areas of expertise.
Energy Analysis NETL assesses short-term trends in the energy industry and the U.S. and world economies that may impact energy production and use, and long-term trends that may modify demand for energy and influence the choice of fuels and energy production technologies after 2025. The Lab also develops scenarios for use in technology planning activities that also help quantify the benefits of the Lab's research portfolio.
Non-fossil Energy Research, Development, Demonstration, and Deployment NETL provides technical, administrative, and project management services to customers within DOE and other federal agencies. NETL primarily manages research, development, demonstration, and deployment activities for the DOE
Office of Energy Efficiency and Renewable Energy (EERE) and the DOE Office of Electricity Delivery and Energy Reliability (OE). These projects and activities are related to
energy efficiency in vehicles, buildings, and manufacturing facilities, as well as the enhancement, security and reliability of America's electrical and natural gas transmission and distribution systems. NETL manages activities on behalf of the EERE Vehicle Technologies Office, especially EERE's efforts to advance the development and deployment of advanced vehicle technologies, including electric vehicles, engine efficiency, and lightweight materials. In addition, NETL supports administration of the
Clean Cities Program, which increases the use of alternative fuels for transportation by building coalitions of state and local governments, private industry, non-profit organizations, and fleet managers. For the EERE Building Technologies Office, NETL supports the Solid-State Lighting Initiative, which is pursuing next-generation lighting technologies that will eventually replace the traditional incandescent light bulb. NETL is also managing Combined Heat and Power and Distributed Generation project activities on behalf of the EERE Advanced Manufacturing Office. For OE, NETL actively participates in DOE's response to disruptions to our nation's energy infrastructure, such as hurricanes and other natural disasters, and is laying the groundwork to modernize the national electric grid. == Administration ==