Your search keyword '"Ernst Wolfgang Stautner"' showing total 4 results

1. Demonstration of liquid nitrogen wicking using a multi-layer metallic wire cloth laminate

Author

Peter deBock, Christopher D. Immer, Tao Zhang, Tao Deng, and Ernst Wolfgang Stautner

Subjects

Propellant, Materials science, Physics::Instrumentation and Detectors, Capillary action, General Physics and Astronomy, Liquid nitrogen, Cryogenic seal, law.invention, Heat pipe, law, Heat transfer, Lamination, General Materials Science, Composite material, Porosity

Abstract

Cryogenic heat transport devices are the most basic and critical component for the thermal integration between the cryogenic component and its cooling source. In space environments, containment of heat transfer fluid inside a capillary structure is critical due to the absence of gravity. Cryogenic heat pipes using the capillary force for circulation may provide a solution for heat transfer in space applications due to its independence of gravity and transport distance. To achieve a high effective capillary performance, several options of wicking structures have been investigated. An efficient wicking flow of liquid nitrogen is demonstrated with a sintered, multi-layer, porous lamination of metal wire (pore size as low as 5 μm) in an open cryogenic chamber. The test data are presented in this paper. This technology has potential for use in development of improved cryogenic heat transfer devices and containment of cryogenic propellants under micro-gravity environment.

Published

2012

2. High power density superconducting rotating machines—development status and technology roadmap

Author

Kiruba S. Haran, Bob B. Buckley, Tabea Arndt, Rod Badcock, Swarn S. Kalsi, Timothy J. Haugan, James William Bray, Haran Karmaker, Philippe Masson, Mitsuru Izumi, Ernst Wolfgang Stautner, and David Loder

Subjects

Superconductivity, Materials science, Metals and Alloys, 02 engineering and technology, High power density, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Engineering physics, Development (topology), Electrically powered spacecraft propulsion, 0103 physical sciences, Materials Chemistry, Ceramics and Composites, Technology roadmap, Electrical and Electronic Engineering, 010306 general physics, 0210 nano-technology

Published

2017

3. ChemInform Abstract: Novel Technologies and Configurations of Superconducting Magnets for MRI

Author

Yuri Lvovsky, Ernst Wolfgang Stautner, and Tao Zhang

Subjects

Cryostat, Cost structure, Chemistry, Magnet, Systems engineering, General Medicine, Superconducting magnet, Clinical imaging, Emerging markets, Patient comfort

Abstract

A review of non-traditional approaches and emerging trends in superconducting magnets for MRI is presented. Novel technologies and concepts have arisen in response to new clinical imaging needs, changes in market cost structure, and the realities of newly developing markets. Among key trends are an increasing emphasis on patient comfort and the need for ?greener? magnets with reduced helium usage. The paper starts with a brief overview of the well-optimized conventional MR magnet technology that presently firmly occupies the dominant position in the imaging market up to 9.4?T. Non-traditional magnet geometries, with an emphasis on openness, are reviewed. The prospects of MgB2 and high-temperature superconductors for MRI applications are discussed. In many cases the introduction of novel technologies into a cost-conscious commercial market will be stimulated by growing needs for advanced customized procedures, and specialty scanners such as orthopedic or head imagers can lead the way due to the intrinsic advantages in their design. A review of ultrahigh-field MR is presented, including the largest 11.7?T Iseult magnet. Advanced cryogenics approaches with an emphasis on low-volume helium systems, including hermetically sealed self-contained cryostats requiring no user intervention, as well as future non-traditional non-helium cryogenics, are presented.

Published

2014

4. Novel technologies and configurations of superconducting magnets for MRI

Author

Yuri Lvovsky, Ernst Wolfgang Stautner, and Tao Zhang

Subjects

Cryostat, Cost structure, Computer science, Metals and Alloys, Nanotechnology, Superconducting magnet, Condensed Matter Physics, Magnet, Materials Chemistry, Ceramics and Composites, Systems engineering, Clinical imaging, Electrical and Electronic Engineering, Emerging markets, Patient comfort

Abstract

A review of non-traditional approaches and emerging trends in superconducting magnets for MRI is presented. Novel technologies and concepts have arisen in response to new clinical imaging needs, changes in market cost structure, and the realities of newly developing markets. Among key trends are an increasing emphasis on patient comfort and the need for ?greener? magnets with reduced helium usage. The paper starts with a brief overview of the well-optimized conventional MR magnet technology that presently firmly occupies the dominant position in the imaging market up to 9.4?T. Non-traditional magnet geometries, with an emphasis on openness, are reviewed. The prospects of MgB2 and high-temperature superconductors for MRI applications are discussed. In many cases the introduction of novel technologies into a cost-conscious commercial market will be stimulated by growing needs for advanced customized procedures, and specialty scanners such as orthopedic or head imagers can lead the way due to the intrinsic advantages in their design. A review of ultrahigh-field MR is presented, including the largest 11.7?T Iseult magnet. Advanced cryogenics approaches with an emphasis on low-volume helium systems, including hermetically sealed self-contained cryostats requiring no user intervention, as well as future non-traditional non-helium cryogenics, are presented.

Published

2013