Research Facilities National Energy Technology Laboratory DOE National Laboratories Department of Energy

NETL has three unique gas/solids reactors that have the capability of testing in either the fixed- or fluidized-bed configurations, and at high temperatures and low-to-high pressures. These reactors are being used to evaluate how well regenerable sorbents

• Laser Spectroscopy Laboratory - NETL\\'s Laser Spectroscopy Laboratory uses optical diagnostic techniques national energy technology doe national laboratories laboratory to improve combustion processes including those for advanced national energy doe national laboratories technology laboratory gas turbine engines.
• Trace Metal Capture Laboratories - By simulating and studying coal-derived gases, researchers have research facilities been able to examine numerous sorbents and their research facilities ability to capture mercury and arsenic.
• High-Pressure Combustion Facility - NETL\\'s High-Pressure Combustion Facility provides the fuel test national energy technology doe national laboratories laboratory capabilities needed to evaluate new high-pressure, high-temperature hydrogen national energy doe national laboratories technology laboratory turbine combustion concepts.
• Fluid-Bed Gasifier/Modular Gas Cleanup Rig - One of the promising technologies NETL is pursuing research facilities is advanced fluidized-bed combustion (FBC). Pressurized FBC (PFBC) research facilities systems use a mixture of burning coal, a research facilities sorbent such as limestone or dolomite, and jets research facilities of air to produce a high-pressure gas stream research facilities at
• Hybrid Performance Facility - The Hybrid Performance Facility is being used to model hybrid national energy technology laboratory power systems that combine fuel cells and turbines. Innovative, zero-emission national energy technology laboratory fuel cells are being developed that will operate on coal-derived national energy technology laboratory hydrogen.
• Visualization Lab - The Visualization Research Group at NETL focuses on developing leading national energy technology laboratory edge software and systems to help fossil energy researchers better national energy technology laboratory understand their data using advanced visualization technologies. Primary efforts include national energy technology laboratory visualizing computational fl
• Autoclave Test Facility - Environmental and geosciences researchers perform laboratory-scale studies of research facilities solid, doe national laboratories liquid, and gaseous fuel flows and their research facilities interactions in doe national laboratories the Autoclave Test Facility. These studies research facilities are performed, for doe national laboratories example, to determine whether flue research facilities gases are suitab
• Infrared Spectroscopy Test Facility - As part of its research into how to research facilities manage, minimize, or prevent release of CO2 from research facilities power plants into the atmosphere, NETL has an research facilities onsite facility that tests how CO2 behaves when research facilities injected into different geological formations such as below-ground research facilities coal fiel
• Advanced Analytical Instrumentation and Facilities for In-Situ Reaction Studies - NETL researchers are using analytical instruments to study in-situ (in-place) reactions of solid and gaseous fossil fuels such as coal and coal derivatives.
• Reciprocating Engine Laboratory - NETL\\'s reciprocating engine laboratory focuses on research to doe national laboratories doe national laboratories enable high efficiency, cleaner burning engines. Some of doe national laboratories doe national laboratories the laboratory\\'s activities are development of laser spark doe national laboratories doe national laboratories ignition systems, hydrogen engine operation, partial oxidation engine doe national laboratories doe national laboratories operati
• Solid Oxide Fuel Cell Experimental Laboratory - The Solid Oxide Fuel Cell Experimental Laboratory characterizes doe national laboratories research facilities the performance and operation of single cells and doe national laboratories research facilities small stacks. The laboratory is equipped with several doe national laboratories research facilities test stands capable of evaluating solid oxide fuel doe national laboratories research facilities cells at pressurized conditions and
• Methane Hydrate Laboratory - NETL\\'s methane hydrate laboratory pursues the data, technology, national energy technology national energy technology laboratory laboratory and knowledge needed to produce methane from hydrate national energy national energy technology laboratory technology laboratory deposits. Hydrate view cells are an important tool national national energy technology laboratory energy technology laboratory used to determine the physical properties of hydrates national energy technology laboratory national energy technology laboratory synthesized in the laboratory and
• Geological Sequestration Core Flow Laboratory - NETL\\'s Geological Sequestration Core Flow Laboratory is a flexible, state-of-the-art doe national laboratories facility investigating much-needed solutions for how to store CO2 that doe national laboratories has been captured from coal-fired power plants.
• Sorbent and Catalyst Preparation Facilities - NETL researchers are seeking technical solutions to pressing problems related national energy technology laboratory to fossil fuel extraction, processing, and utilization. To this end, national energy technology laboratory laboratory-scale facilities are used to prepare, test, and analyze sorbents national energy technology laboratory and catalysts used in fixed-, mo
• Fluidization Research: Multiphase Flow/Gas-Solid Transport Laboratory - NETL’s research, development, and demonstration initiatives are leading to improved national energy technology laboratory operations of coal-based power systems, and future power supplies that national energy technology laboratory are environmentally clean and economically affordable. One method NETL national energy technology laboratory researchers are using is a
• High-Performance Computer Clusters - High-performance computing infrastructure and partnerships with regional science consortia allow research facilities NETL scientists to determine a wide range of physical and research facilities chemical properties--from nanoscale molecular studies to the feasibility of commercial-scale research facilities power p
• Hydrogen Separation Facilities - The Hydrogen Separation Group investigates, evaluates, and develops doe national laboratories doe national laboratories hydrogen separation membranes and materials. Researchers are focused doe national laboratories doe national laboratories on developing stable and robust membranes that are doe national laboratories doe national laboratories suitable for the rapid, selective removal of hydrogen doe national laboratories doe national laboratories from mixed ga
• Modular Carbon Dioxide Capture Facility - To accelerate the development and evaluation of low-cost research facilities separation and capture technologies, NETL is designing and research facilities constructing a flexible, Modular CO 2 Capture Facility research facilities (MCCF). This facility will be able to simulate research facilities the operation of advanced fossil ener
• Sorbent/Catalyst Bench-Scale Testing Facilities - NETL has three unique gas/solids reactors that have doe national laboratories the capability of testing in either the fixed- doe national laboratories or fluidized-bed configurations, and at high temperatures and doe national laboratories low-to-high pressures. These reactors are being used to doe national laboratories evaluate how well regenerable sorbents
• Microbiology Laboratory - NETL\\'s state-of-the-art Microbiology Laboratory carries out significant research national energy technology laboratory to develop biosensors (live organisms) that can detect national energy technology laboratory environmental contaminants such as mercury, which are generated national energy technology laboratory by coal-burning power plants.
• Device Scale Modeling - This research facility uses state-of-the-art, high-speed computing resources to verify research facilities computational fluid dynamics (CFD) models used to study coal gasifiers, research facilities gas turbine combustors, solid oxide fuel cell (SOFC) systems, and research facilities liquefied natural gas plumes,
• Manometric Sorption Test Facility - NETL research focuses on ways to capture CO2 national energy technology national energy technology laboratory laboratory from power plant fuel streams and flue stack national energy national energy technology laboratory technology laboratory emissions, and safely store (or sequester) it into national national energy technology laboratory energy technology laboratory geological formations such as coal bed strata , national energy technology laboratory national energy technology laboratory natural gas fields, or saline formations.
• Fundamental Combustion Laboratory - At the Fundamental Combustion Laboratory, combustion science researchers doe national laboratories are able to study fundamental combustion processes and doe national laboratories properties at a laboratory scale, using advanced laser-based doe national laboratories systems.
• Water Tunnel Facilities - Researchers are using NETL\\'s low-pressure and high-pressure Water Tunnel Facilities national energy technology laboratory to study technical feasibility and environmental effects of CO 2 national energy technology laboratory storage in freshwater and saltwater environments.
• Coal By-Products Laboratories - Key NETL resources for testing and analyzing residues research facilities include doe national laboratories the long-term leaching columns (LTLC) and continuous, research facilities stirred-tank extractor doe national laboratories (CSTX) . Additional specialized instruments and research facilities tools are used doe national laboratories to trace and analyze mercury research facilities and other potentially ha
• Surface and Materials Science Laboratories - Experiments conducted at NETL\\'s Surface and Materials Science Laboratories characterize national energy technology laboratory the structure, composition, and chemistry of systems and materials.
• CT Scanner Laboratory - Used in conjunction with NETL\\'s Core Flow Laboratory research facilities and doe national laboratories computational research capabilities, the CT Scanner Laboratory research facilities enables researchers doe national laboratories to evaluate what happens to materials research facilities as a result doe national laboratories of carbon storage (sequestration).
• Advanced Process Simulation - NETL\\'s Advanced Process Engineering Co-Simulator (APECS) is first-of-a-kind national energy technology doe national laboratories laboratory software that helps improve performance of advanced fossil national energy doe national laboratories technology laboratory fuel power plants.
• Fugitive Gas Emissions Detection Facilities - NETL uses an array of innovative laboratory techniques and field methods to detect and monitor fugitive emissions of CO2 stored in geologic formations.
• Fuel Cell Testing Facility - The Fuel Cell (DFC) Testing Facility at the national energy technology research facilities laboratory National Energy Technology Laboratory provides performance testing of national energy research facilities technology laboratory prototype fuel cell systems for use in stationary, national research facilities energy technology laboratory transportation, and military applications. Researchers can evaluate alternative research facilities national energy technology laboratory solid oxid

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