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Building sign that reads "Achieving a zero carbon future."
The National Energy Technology Laboratory (NETL) has been selected to receive a new grant to advance the laboratory’s commitment to Executive Order (E.O.) 14057’s net-zero carbon emissions buildings goals and put the laboratory one step closer to becoming the first U.S. Department of Energy (DOE) facility to operate with 100% carbon pollution-free electricity by the end of fiscal year 2026.
Laptop displaying various maps
NETL researchers have harnessed the power of artificial intelligence (AI) to develop a tool that can ingest enormous amounts of unstructured geological data such as publications, maps, websites and presentations and then accurately label the visual data — work that could lead to a better understanding of the subsurface for safer energy production and carbon dioxide storage.
EDX Spatial Logo
To help commercial, regulatory, and energy research professionals more effectively explore and interact with complex and evolving data, and glean insights through interactive maps, NETL developed EDX Spatial — a game-changing platform that empowers users to visualize data seamlessly through online mapping. 
Morgantown High School Team 1
Morgantown High School’s Team 1 claimed victory at the 33rd West Virginia Science Bowl (WVSB) Regional High School Competition, held Saturday, Feb. 3, in an in-person format for the first time in years at the West Virginia University (WVU) Mountainlair. Twenty-four teams from 18 high schools participated in the contest, sponsored by the U.S. Department of Energy (DOE) and NETL. The WVSB tested students’ knowledge of math and science in a fast-paced, quiz-style tournament.
Suncrest Middle School Team 1
Suncrest Middle School’s Team 1 captured first place at the 33rd West Virginia Science Bowl (WVSB) middle school competition, which was held Friday, Feb. 2. Sixteen teams from 10 middle schools throughout the Mountain State participated in the event, sponsored by the U.S. Department of Energy (DOE) and NETL.
Gary Covatch
Gary Covatch can recall his first day on the job at NETL-Morgantown with vivid clarity. “My new boss was off sick the day I started,” he said. The individual filling in for the supervisor had not been informed that the recent Pennsylvania State University graduate was reporting for duty. “So it was kind of a shock to that person when I showed up,” Covatch said.
NETL NEWS
WASHINGTON — The U.S. Department of Energy’s (DOE) Office of Fossil Energy and Carbon Management (FECM) has released a Request for Information (RFI) that seeks input intended to assist DOE in the planning of priorities and initiatives to catalyze the development, demonstration, and deployment of carbon capture, conversion, and storage technologies to decarbonize America’s industrial sectors. Large-scale deployment of carbon management infrastructure is crucial to meeting the Biden-Harris Administration’s ambitious climate goal of achieving a net-zero emissions economy by 2050, while also delivering a healthier environment and economic opportunities for our communities and workers. This plan will supplement the material included in the September 2023 DOE report, Pathways to Commercial Liftoff: Industrial Decarbonization.
Hybrid Distributing CO2, pH, Temperature, and acoustic sensing for mCDR MRV.
Researchers at the University of Pittsburgh (Pitt), in collaboration with NETL, will develop buoy-based optical fiber sensors to study how the oceans remove carbon from the air and generate findings that could advance the development of marine-based technologies to reduce atmospheric levels of greenhouse gas.
Animated depiction of the molecular composition of formic acid.
A team of NETL and University of Pittsburgh researchers has developed a record-setting catalyst that electrochemically converts carbon dioxide (CO2) and water into formic acid, which can be used as a hydrogen carrier in the new clean energy economy.
Long Duration Energy Storage
A new study conducted by NETL researchers investigated long duration energy storage options that can better accommodate deficits of variable renewable energy (VRE) sources over multi-day and seasonal timescales. The work calls for additional long-term research and development investments to reduce costs and help enable an improved electrical grid that features increasing amounts of VRE.