Award Data

ABSTRACT: The Tai-Yang Research Company (TYRC) of Tallahassee, FL in collaboration with Dr. Justin Schwartz of the North Carolina State University (NCSU) in Raleigh, NC propose in this Phase 2 effort to develop the critical technologies necessary for the implementation and operation of an airborne high temperature superconductor (HTS) superconducting magnetic energy storage (SMES) device with par ...

Advanced Ceramic Fibers, LLC has developed a transformational enabling fiber technology for use in UHT turbine engines - alpha silicon carbide/carbon based fibers - with capability above Navys goal of 2700 F. Our turbine engine OEM and aerospace team members are excited about the MC/C fibers for use in more robust/durable CMCs with higher temperature capability for turbine engines (TE). ACFs has e ...

ABSTRACT:Emergence and feasibility for flexible body-worn electronics and particularly medical patches requires high performance electronics capability.The problem is that these new technologies must have flexible and conformal physical formats and conventional electronic components are not in any way flexible. In the CLAS Phase I program, a new flexible high-performance manufacturing and material ...

The NNSA Defense Nuclear Nonproliferation missions include monitoring, assaying, and identifying Special Nuclear Materials (SNM). These activities commonly occur in facilities having large quantities of additional nuclear materials causing high background count rates that obscure measurements using ordinary spectroscopic radiation detectors. The segmented HRGe germanium detector system will be exp ...

Small Modular Reactors (SMRs) of light water designs are moving toward deployment and advanced SMRs are on their way to becoming a reality. Although the fundamental design characteristics of these reactors are well established, a list of important issues still remains. Among them is the Instrumentation and Control (I & amp;C) sensors for measurement of the variables needed for process control and ...

Wireless technologies have increased efficiency in many industrial settings across the world by enabling a mobile workforce and improving communications. In fact, some studies project that wireless implementation could save nuclear facilities up to $6,000,000 per year in the maintenance department alone. Unfortunately, the nuclear power industry has been slow to adopt wireless technology as a res ...

As nuclear power plants extend their operating life beyond 40 years, attention is being focused on the health of the insulation material of important cables. Faced with the prospect of an extremely expensive, wholesale replacement of thousands of miles of cables, nuclear facilities need a cost-effective, non-destructive, remote, and in-situ method to determine whether or not cables are healthy o ...

The Department of Energy maintains germanium gamma-ray detector arrays for Nuclear Physics research. Germanium gamma-ray detector technology has been an important factor in the historic success of these user facilities. The present and next generation facilities would be most effectively utilized by larger germanium detectors providing better spatial resolution and higher count-ray capacity. New M ...

Replacement of obsolete analog systems with software-based digital systems in nuclear facilities has been hindered by significant costs associated with traditional quality assurance testing. This project proposes advanced software validation tools that will ensure that digital systems are safe, reliable, and cost effective for the nuclear industry.

As the current fleet of operating nuclear power plants ages, equipment degrades and causes increased incidences of failures which lead to plant shutdowns. This proposal offers to develop testing technology for fault detection in live electrical circuits to identify and resolve problems as they occur.