Capabilities

/Capabilities

Ionic Liquids Create More Sustainable Processes

In an article in Chemical Engineering, Blake Simmons (Senior Manager of Sandia’s Advanced Biomanufacturing Group and JBEI’s Chief Science & Technology Officer) talks about how the Joint BioEnergy Institute (JBEI) has scaled up biomass pretreatment technologies using ionic liquids (salts in a liquid state at ambient conditions) from the bench scale to the 100 L scale [...]

DOE Joint BioEnergy Institute Joins Elite ‘100/500 Club’

The DOE Joint BioEnergy Institute (JBEI) filed its 100th patent application and published its 500th scientific paper. Headquartered in Emeryville, California, the Joint BioEnergy Institute (JBEI) is now a member of the elite “100/ 500 Club,” having filed its 100th patent application and published its 500th scientific paper. (Photo by Roy Kaltschmidt) Established [...]

University of Wisconsin–Sandia Team Awarded SunShot CSP: APOLLO Funding

With recently awarded funding from the US Department of Energy SunShot Initiative’s CSP: APOLLO Program (Concentrating Solar Power: Advanced Projects Offering Low LCOE Opportunities), Sandia is working with a team led by the University of Wisconsin–Madison to evaluate the potential for significant improvements in the commercial viability of supercritical carbon dioxide (sCO2)/Brayton-cycle power conversion as [...]

Sandia Participates in Preparation of New Mexico Renewable Energy Storage Report

New Mexico Governor Martinez and Energy, Minerals, & Natural Resources Department Secretary Martin released the New Mexico Energy Policy and Implementation Plan in mid-September. New Mexico is one of the most energy-rich and energy-diverse states in the nation. Southeast and northwest New Mexico produce large amounts of oil and natural gas. These industries provide much [...]

Natural Energy Laboratory of Hawaii Authority Partners with Sandia to Install Aquion EES Demo

The Natural Energy Laboratory of Hawaii Authority (NELHA) and Sandia have signed an MOU to implement electrical energy storage systems (ESSs) in renewable-energy projects at their Hawaii Ocean Science and Technology (HOST) Park. Aquion Energy battery module installed at NELHA. Hawaii’s innovative green economic development park plays a significant role in Hawaii’s growth [...]

Sandia Researchers Win Best Paper Award from the American Institute of Aeronautics and Astronautics

Researchers Joe Oefelein and Guilhem Lacaze (both in Sandia’s Reacting Flow Research Dept.) won the American Institute of Aeronautics and Astronautics’ (AIAA’s) best paper award for their work on scramjet engine simulations. The paper, “A Priori Analysis of Flamelet-Based Modeling for a Dual-Mode Scramjet Combustor,” was a collaboration with Jesse Quinlan and James McDaniel (Univ. [...]

Institute for Advanced Composites Manufacturing Innovation—Inaugural Members Meeting

Sandia Wind Department technical staff members Josh Paquette and Brian Naughton attended the inaugural members meeting for the newly formed Institute for Advanced Composites Manufacturing Innovation (IACMI) in Knoxville, Tennessee. A few hundred attendees from the composites industry, academic institutions, and government agencies gathered to learn about opportunities to participate in the newest National Network for [...]

Bay-Area National Labs Team to Tackle Long-Standing Automotive Hydrogen-Storage Challenge

Sandia will lead the tri-lab Hydrogen Materials Advanced Research Consortium (HyMARC: Sandia, Lawrence Livermore National Laboratory [LLNL], and Lawrence Berkeley National Laboratory [LBNL]) to address scientific challenges to developing viable solid-state materials to store hydrogen onboard vehicles, leading to more reliable, economic hydrogen-fuel-cell vehicles. “Hydrogen, as a transportation fuel, has great potential to provide highly [...]

SWiFT Facility Prepared for More-Efficient Operations & Advanced Turbine-Turbine Wake-Interaction-Control Research

The SWiFT facility comprises three heavily instrumented and modified variable-speed, variable-pitch Vestas V27 turbines and two 60 m anemometer towers, with the first two turbines spaced three diameters apart, perpendicular to the prevailing oncoming wind, and the third turbine five diameters downwind (the turbines form a three, five-, six-rotor-diameter-length triangle). Two turbines are funded [...]