Ohio
OHIO
Company:
ABS Materials
770 Spruce Street
Wooster, OH 44691-0000
Title:
Swellable Organosilica Materials to Clean Produced Water
Summary:
This project will develop and improve identified technologies to remediate produced water; and develop process of production to make these technologies commercially viable.
Company:
Euclid TechLabs, LLC
5900 Harper Rd. #102
Solon, OH 44139-1866
Title:
Development of a 12 GHz Dielectric-Based Wakefield Power Extractor for Potential Clic Applications
Summary:
Dielectric based high power radio frequency (rf) generator offers the possibility of reduced cost and higher efficiency for applications in the next generation high energy physics machine, as well as industry, medicine, and scientific research. This project will develop such a device to meet the particular requirements of the Compact Linear Collider, which is the high energy physics machine under design with joint effort of Europe and U.S.
Company:
Euclid TechLabs, LLC
5900 Harper Rd. #102
Solon, OH 44139-1866
Title:
Development of a Dielectric-Based Short RF Pulse Two Beam Accelerator Prototype Module
Summary:
Ultra-high gradient and ultra-high power radio frequency (rf) generation are preferred for the future high energy collider design. Unlike the most of the present accelerator designs, which choose pulse lengths in the range of 150-400 ns and gradients ~100 MV/m as the operational parameters, we propose a short pulse (~20 ns), high repetition rate (>1 kHz), high gradient (>200 MV/m) accelerator as an alternative technology to meet the requirements for future high energy machines if the related technologies can be demonstrated.
Company:
Euclid TechLabs, LLC
5900 Harper Rd. #102
Solon, OH 44139-1866
Title:
Dielectric Collimators for Linear Collider Beam Delivery
Summary:
This project will develop a special device to control electron bunch of the future linear collider. The use of new software and materials that our company has developed is expected to lead to improved performance and efficiency.
Company:
Euclid TechLabs, LLC
5900 Harper Rd. #102
Solon, OH 44139-1866
Title:
Multipactor Suppression In Dielectric Loaded Accelerating Structures Using Vacuum Channel Surface Modification
Summary:
Dielectric based particle accelerators offer the possibility of reduced cost and higher efficiency for applications in industry, medicine, and scientific research. This project will study ways to eliminate a form of energy absorption that is currently the main obstruction to widespread use of these devices.
Company:
Euclid TechLabs, LLC
5900 Harper Rd. #102
Solon, OH 44139-1866
Title:
THZ Dielectric Wakefield Accelerating Structure
Summary:
This project will develop a manufacturing technology of artificial diamond fiber to be used in dielectric loaded accelerating structures. When developed, this structure will sustain a record high accelerating gradient in THz frequency range. The results will be also applied to next-generation accelerators and high power THz systems as well as to medical equipment development.
Company:
Faraday Technology, Inc.
315 Huls Drive
Clayton, OH 45315-8983
Title:
Electropolishing Niobium in an HF-Free Electrolyte
Summary:
This project will develop an environmentally benign fabrication process for superconducting components for the International Linear Collider. This program will eliminate the use of hydrofluoric acid, improving worker safety, while maintaining or exceeding current performance specifications.
Company:
Hyper Tech Research, Inc.
1275 Kinnear Road
Columbus, OH 43212-1155
Title:
High Temperature Superconducting (HTS) Cable for Fusion Systems
Summary:
This project will develop an advanced and lower cost superconductor wire for the DOE Fusion Energy Program.
Company:
Hyper Tech Research, Inc.
1275 Kinnear Road
Columbus, OH 43212-1155
Title:
Short Period Model Helical Undulator for the ILC - Design and Demonstration
Summary:
This project will develop this so-called "undulator" is to be constructed from magnets wound with an advanced highly stable Nb3Sn strand to be developed as part of the proposed program.
Company:
Innovative Science Engineering and Management LLC
7525 B State Road
Cincinnati, OH 45255-6406
Title:
A Novel Micro Circuit Based Film Cooling Design for a Ceramic Combustor Liner
Summary:
This project will develop a unique approach to design and fabrication of a high temperature SiC/SiC CMC combustor liner. It offers diverse applications for increasing cycle efficiency, and low emissions in commercial power plants, DOE as well as DOD/DARPA fighter platforms.
STTR Project
Company:
NexTech Materials, Ltd.
404 Enterprise Drive
Lewis Center, OH 43035-9423
Title:
Advanced Membranes for C02 Capture from Existing Coal-fired Power Plants
Summary:
This project will investigate a new membrane for separation of carbon dioxide from coal-fired power plant gas exhaust. This technology could lead to cleaner and more efficient coal-fired power plants.
Company:
NexTech Materials, Ltd.
404 Enterprise Drive
Lewis Center, OH 43035-9423
Title:
Manufacturing System Design Analysis of SOFC Stacks
Summary:
This project will perform a comprehensive manufacturing cost analysis of volume manufacturing of SOFC stacks. Design, materials, and fabrication methods will be evaluated to reduce total system cost, enabling penetration into stationary power generation markets, transportation auxiliary power units, and military applications.
Company:
Phycal, LLC
51 Alpha Park
Highland Heights, OH 44143-2202
Title:
Solid Phase Lipid Extraction of Algal Oil
Summary:
This project will develop and demonstrate an economical method for the extraction of oil from algae for biofuels using oil absorbing glass or zerogel. This will help stimulate successful implementation of economical algal oil production for the burgeoning algae biofuels industry promoting U.S. energy security, safeguarding the environment, and stimulating job creation in the biofuels market.
STTR Project
Company:
RNET Technologies, Inc.
240 West Elmwood Drive, Suite 2010
Dayton, OH 45459-4248
Title:
Green Storage for HPC with Solid State Disk (SSD) Technologies
Summary:
This project will develop techniques must be developed to account for these profiles before SSDs can replace HDDs. Solid State Disks (SSDs) are the next generation storage hardware, to replace hard drives. SSDs have lower energy requirements coupled with the potential for better performance.
STTR Project
Company:
RNET Technologies, Inc.
240 West Elmwood Drive, Suite 2010
Dayton, OH 45459-4248
Title:
HPC Application Profiling for Energy Optimization
Summary:
The operating (energy) costs of current and future supercomputers are approaching the procurement costs of these expensive machines. One approach to reducing the energy consumption of supercomputers is to give application developers transparent insight into the application’s power requirements. This allows application developers to make the necessary power/performance tradeoffs.
STTR Project
Company:
UES, Inc.
4401 Dayton-Xenia Road
Dayton, OH 45432-1894
Title:
High Temperature Unique Low Thermal Conductivity Thermal Barrier Coating (TBC) Architectures
Summary:
Gas turbine engines utilized in electric power production and aircraft propulsion need to operate at higher temperatures for enhanced efficiency and lower emission. This project will develop a thermal barrier coating technology with unique architectural design will enable the operation of turbine engines at higher operating temperature.
Company:
UES, Inc.
4401 Dayton-Xenia Road
Dayton, OH 45432-1894
Title:
Improved Current Feeders and Current Distribution System for Accelerator Magnets Using High-Temperature Superconductors
Summary:
This project will develop superconducting current leads based on high temperature superconductors for accelerator magnets and other potential applications with the benefit of lower losses and higher efficiency. Success of this project may lead to the development of new compact and lightweight power transmission devices for accelerators.
STTR Project
Company:
UES, Inc.
4401 Dayton-Xenia Road
Dayton, OH 45432-1894
Title:
Membrane Materials with Improved Properties
Summary:
This project will develop a novel approach in making thin dense pinhole free hydrogen transparent membrane for high separation flux and low materials cost by using commercial technology of filtered cathodic arc deposition.
Company:
UES, Inc.
4401 Dayton-Xenia Road
Dayton, OH 45432-1894
Title:
Novel YBCO Coated Filaments for Superconducting Magnets
Summary:
A novel approach termed fiber coated conductor will bring very high engineering critical current density with extremely low AC loss. Fiber coated conductor will be ideal in making multifilament cable which will be the only viable technology for the next generation magnet, motors, transformers, and generators fabrication.
