Award Data

High Temperature Superconducting (HTS) materials have excellent mechanical and electrical properties that are attractive for various applications such as power cables and high field, high current superconducting magnets, particularly playing a key role in the commercialization of fusion energy machines. However, HTS materials have very slow normal zone propagation velocities (NZPV) (2-3 orders of ...

Idaho National Laboratory (INL), under funding from the Critical Materials Institute(CMI), has developed a US patented technology to reclaim valuable metals from waste electronic equipment. The Electrochemical Recycling Electronic Constituents of Value (E-RECOV) method uses an electrochemical cell to efficiently recover the bulk of metals from discarded electronics, leading to more complete recycl ...

This project focuses on the design, integration and optimization of a flexible natural gas combined cycle plant with carbon capture, capable of operating in a highly variable renewable energy environment. Renewable energy sources such as wind and solar power offer unique solutions in our quest to reduce global carbon dioxide (CO2) emissions. However, the increasing penetration of these high variab ...

This project focuses on the design, integration and optimization of a flexible natural gas combined cycle plant with carbon capture, capable of operating in a highly variable renewable energy environment. Renewable energy sources such as wind and solar power offer unique solutions in our quest to reduce global carbon dioxide (CO2) emissions. However, the increasing penetration of these high variab ...

Intense short pulse lasers are playing increasingly important role in high-energy physics research. Laser based electron accelerators are innovative tools to obtain GeV to TeV electron energies for high-energy particle physics experiments. The development of such lasers puts stringent challenges on the very limits of the laser materials themselves. The goal of this project is to develop Ho:sesquio ...

In this Phase I STTR program, we propose to develop a conceptual design of a 40-T, ϕ2-cm-warm- bore superconducting solenoid magnet for use in high energy particle physics experiments, e.g., muon ionization cooling, by combining a Low Temperature Superconducting background magnet and a High Temperature Superconducting insert magnet. High Temperature Superconductors must be employed for very-high- ...

The significant growth of renewable energy has resulted in significant challenges for existing power generation facilities coping with the variable nature of said renewables. The variability strains grid management resources and has led to an increased requirement for off-design operation of power generation sources as intermittent or cyclic. This results in increased maintenance costs and loss of ...

In response to the Water Power Technologies Office “Co-Development of Marine Energy Technologies at Smaller Scales.” We propose a co-development of an “Oscillating Water Column” and the “Offshore Power Station”. This proposal is to design a small scale Oscillating Water Column to provide the “offshore energy” as described as one of the activities needed in the “blue economy”. W ...

The development of a multi-TeV e+e- linear collider is a key priority set by the P5 panel, which established the long-term strategy of the U.S. HEP program. A Two-Beam Acceleration (TBA) is one of the most promising approaches for this facility due to its potential for achieving high efficiency and the ability to accelerate particles with positive and negative charges. However, there are still cha ...

Electrical power is scarce at most offshore locations, so oceanographers design buoy systems to consume very little power in order to reduce the frequency of ship voyages to replace batteries. These expensive voyages can cost several tens of thousands of dollars per day. Solar and wind power can recharge batteries, but harvested power is limited and each source has shortcomings. Wave energy operat ...