Your search keyword '"G. Gettelfinger"' showing total 14 results

1. Status and Plans for the National Spherical Torus Experimental Research Facility

Author

W. Heidbrink, Manfred Bitter, R. Marsala, Choong-Seock Chang, R.J. Akers, Kevin Tritz, J. R. Wilson, Luca Guazzotto, R.I. Pinsker, D. Mueller, Nobuhiro Nishino, J.M. Bialek, David R. Smith, I. Semenov, M. G. Bell, Brentley Stratton, M.J. Schaffer, T. Gibney, D. Pacella, C. Domier, B. LeBlanc, M. Kalish, J. Manickam, Fred Levinton, Vlad Soukhanovskii, Stanley Kaye, E. Perry, G. Rewoldt, S. Bernabei, T.S. Bigelow, L. Dudek, Hyeon K. Park, Thomas Jarboe, S. F. Paul, K. Shinohara, R. Feder, A. von Halle, P. Roney, K. W. Hill, S. G. Lee, J. Schmidt, G. Gettelfinger, David A Rasmussen, Yueng Kay Martin Peng, S. Ramakrishnan, Masayoshi Nagata, Yuichi Takase, E.D. Fredrickson, Mark D. Carter, K. C. Lee, S. J. Zweben, David W. Johnson, M. Ono, T. Peebles, J.R. Ferron, J. Lawson, John B Wilgen, Brian Nelson, M.M. Menon, G. Oliaro, E. Mazzucato, I. Zatz, D.S. Darrow, S. Krasheninnikov, C. Jun, Zhehui Wang, J. Robinson, C. K. Phillips, N.N. Gorelenkov, C. Neumeyer, P.M. Ryan, Alan H. Glasser, J. L. Lowrance, E. Ruskov, S. J. Diem, M. R. Wade, M. Williams, Xian-Zhu Tang, Osamu Mitarai, J. Timberlake, Xueqiao Xu, Tobin Munsat, D.W. Swain, G. A. Wurden, Rajesh Maingi, Clarisse Bourdelle, D. Mastravito, W. Zhu, A. R. Field, J.E. Menard, C. E. Kessel, C.E. Bush, Roger Raman, D.A. Gates, Dan Stutman, E. Fredd, M. H. Redi, J.C. Hosea, T. Stevenson, R. Kaita, D.A. Humphreys, W. R. Blanchard, Wayne A Houlberg, W. Davis, R.J. Maqueda, P. Sichta, D. P. Stotler, Ker-Chung Shaing, P. C. Efthimion, J. Chrzanowski, J. Boedo, R. Hatcher, R. Parsells, Guoyong Fu, Robert James Goldston, J. Foley, G.D. Porter, William R. Wampler, L.L. Lao, Abhay K. Ram, Aaron Sontag, N. C. Luhmann, T. M. Biewer, R. J. Hawryluk, Michael Finkenthal, C.H. Skinner, S. S. Medley, T. K. Mau, Jayhyun Kim, S.A. Sabbagh, Wonho Choe, L. R. Grisham, R. Woolley, Richard Ellis, G. Labik, E. J. Synakowski, S. Kubota, R. W. Harvey, G. Taylor, A. L. Roquemore, P. J. Heitzenroeder, Peter Beiersdorfer, R. E. Bell, A. Pigarov, H.W. Kugel, P.T. Bonoli, and H. Schneider

Subjects

Engineering, Tokamak, business.industry, Magnetic confinement fusion, Context (language use), Torus, Fusion power, Experimental research, law.invention, law, Component (UML), Beta (plasma physics), Systems engineering, Electrical and Electronic Engineering, business, Simulation

Abstract

An overview of the research capabilities and the future plans on the MA-class National Spherical Torus Experiment (NSTX) at Princeton is presented. NSTX research is exploring the scientific benefits of modifying the field line structure from that in more conventional aspect ratio devices, such as the tokamak. The relevant scientific issues pursued on NSTX include energy confinement, MHD stability at high beta, non-inductive sustainment, solenoid-free start-up, and power and particle handling. In support of the NSTX research goal, research tools are being developed by the NSTX team. In the context of the fusion energy development path being formulated in the US, an ST-based Component Test Facility (CTF) and, ultimately a high beta Demo device based on the ST, are being considered. For these, it is essential to develop high performance (high beta and high confinement), steady-state (non-inductively driven) ST operational scenarios and an efficient solenoid-free start-up concept. We will also briefly describe the Next-Step-ST (NSST) device being designed to address these issues in fusion-relevant plasma conditions.

Published

2005

2. Camera for imaging hard x rays from suprathermal electrons during lower hybrid current drive on PBX‐M

Author

F. Paoletti, W. Stodiek, P. Roney, H. Fishman, W. Davis, F. Rimini, D. Ignat, S. von Goeler, R. Kaita, Stephen E. Jones, G. Gettelfinger, G. Petravich, J. E. Stevens, and S. Bernabei

Subjects

Physics, Tokamak, business.industry, Bremsstrahlung, Image intensifier, Particle detector, law.invention, Nuclear physics, Optics, law, Temporal resolution, Pinhole camera, Plasma diagnostics, business, Instrumentation, Image resolution

Abstract

During lower hybrid current drive on tokamaks, suprathermal electrons are generated that emit hard x‐ray bremsstrahlung. A pinhole camera has been installed on the PBX‐M tokamak that records 128×128 pixel images of the hard x‐ray plasma bremsstrahlung emitted in the 30–200 keV photon energy range. The camera has a temporal resolution of 3 ms and a spatial resolution of 3–4 cm in the plasma. The detector is a 230‐mm‐diam hard x‐ray image intensifier. This instrument has identified hollow radiation profiles on PBX‐M, indicating off‐axis current drive. A detailed account of the construction of the hard x‐ray camera, its operation, and its performance is given.

Published

1994

3. Testing of compact bolted fasteners with insulation and friction-enhanced shims for NCSX

Author

K. Freudenberg, J. Chrzanowski, S. Jurczynski, M. Viola, L. Dudek, G. Gettelfinger, and P.J. Heitzenroeder

Subjects

Engineering, Fabrication, business.industry, Tension (physics), Flatness (systems theory), National Compact Stellarator Experiment, Torque, Structural engineering, Cryogenics, business, Contact area, Envelope (mathematics)

Abstract

The fastening of the National Compact Stellarator Experiment's (NCSX) modular coils presented a number of engineering and manufacturing challenges due to the high magnetic forces, need to control induced currents, tight tolerances and restrictive space envelope. A fastening method using high strength studs, jack nuts, insulating spacers, bushings and alumina coated shims was developed which met the requirements. A test program was conducted to verify the design. The tests included measurements of flatness of the spacers, determination of contact area, torque vs. tension of the studs and jack nuts, friction coefficient tests on the alumina and G-10 insulators, electrical tests, and tension relaxation tests due to temperature excursions from room temperature to liquid nitrogen temperatures. This paper will describe the design and the results of the test program.

Published

2009

4. Conceptual Design of a Plasma Exhaust and Fuel Recovery System for an Inertial Fusion Energy (IFE) Power Reactor

Author

J. Wermer, T. Dodson, T. Kozub, Arthur Nobile, C. Priniski, K. Sessions, L. Ciebiera, B. Paul, A.E. Robson, Charles Gentile, John D. Sethian, G. Gettelfinger, and S.W. Langish

Subjects

Engineering, Conceptual design, Waste management, business.industry, Fuel cycle, Batch processing, Redundancy (engineering), Vacuum pumping, Plasma, Power reactor, Fusion power, business, Process engineering

Abstract

A conceptual design has been developed for the recovery of un-expended fuel, ash, and associated post-detonation products from a ~ 2 GW IFE power reactor. The conceptual design incorporates systems for the safe, efficient collection, processing, and purification of IFE plasma exhaust fuel components. The system has been designed and sized such that tritium bred within blankets can also be collected, processed, and introduced into the fuel cycle. The system is nominally sized to process ~2 kg of tritium per day and is designed to link directly to the target chamber mechanical pumping system. The plasma exhaust can be directly processed from the exhaust of the vacuum pumping system or can be processed in batch mode from buffer vessels in the receiving and analysis system (RAS). Systems for the accurate measurement of material in-process (MIP) have been included. Design emphasis is on safety, reliability, redundancy, and efficiency in order to maximize availability. The primary goal of the fuel recovery system (FRS) design is to economically recycle components of IFE fuel back to the target manufacturers in a fashion by which fuel components are rapidly made available for re-use thus lowering the total active inventory. The FRS design is presented as a facility sub-system in the context of supporting the safe and efficient operation of the IFE target chamber.

Published

2007

5. Control system for the NSTX lithium pellet injector

Author

H.W. Kugel, R. Gernhardt, G. Gettelfinger, J. Dong, and P. Sichta

Subjects

Engineering, Materials science, business.industry, Nuclear engineering, Electrical engineering, Pellets, Computer control system, chemistry.chemical_element, Injector, law.invention, Data acquisition, chemistry, law, Control system, Pellet, Limiter, Lithium, business, National Spherical Torus Experiment

Abstract

The lithium pellet injector (LPI) is being developed for the National Spherical Torus Experiment (NSTX). The LPI will inject 'pellets' of various composition into the plasma in order to study wall conditioning, edge impurity transport, liquid limiter simulations, and other areas of research. The control system for the NSTX LPI has incorporated widely used advanced technologies, such as LabVIEW/spl trade/ and PCI bus I/O boards, to create a low-cost control system which is fully integrated into the NSTX computing environment. This paper will present the hardware and software design of the computer control system for the LPI.

Published

2006

6. NCSX Construction Progress and Research Plans

Author

George H. Neilson, M. Williams, J. F. Lyon, J. A. Schmidt, R. Strykowsky, G. Gettelfinger, B.E. Nelson, P.L. Goranson, W. Reiersen, P.J. Fogarty, M. C. Zarnstorff, S. Raftopoulos, J. Chrzanowski, R. Simmons, Thomas Brown, P. Heitzenroeder, M. Viola, D. Williamson, M.J. Cole, A. Brooks, and B. Stratton

Subjects

Engineering, business.industry, National Compact Stellarator Experiment, Magnetic confinement fusion, Mechanical engineering, Oak Ridge National Laboratory, law.invention, Magnetic field, Complex geometry, law, Electromagnetic coil, business, Realization (systems), Stellarator

Abstract

Stellarators use 3D plasma and magnetic field shaping to produce a steady-state disruption-free magnetic confinement configuration. Compact stellarators have additional attractive properties-quasi-symmetric magnetic fields and low aspect ratio. The National Compact Stellarator Experiment (NCSX) is being constructed at the Princeton Plasma Physics Laboratory (PPPL) in partnership with the Oak Ridge National Laboratory (ORNL) to test the physics of a high-beta compact stellarator with a low-ripple, tokamak-like magnetic configuration. The engineering challenges of NCSX stem from its complex geometry requirements. These issues are addressed in the construction project through manufacturing R&D and system engineering. As a result, the fabrication of the coil winding forms and vacuum vessel are proceeding in industry without significant technical issues, and preparations for winding the coils at PPPL are in place. Design integration, analysis, and dimensional control are functions provided by system engineering to ensure that the finished product will satisfy the physics requirements, especially accurate realization of the specified coil geometries. After completion of construction in 2009, a research program to test the expected physics benefits will start

Published

2005

7. Supersonic gas injector for plasma fueling

Author

Vlad Soukhanovskii, H.W. Kugel, Richard Majeski, R. Kaita, P. Sichta, T. Provost, W. R. Blanchard, Roger Raman, A. L. Roquemore, R. Gernhardt, J.E. Menard, T.K. Gray, G. Gettelfinger, M. G. Bell, and C.E. Bush

Subjects

Jet (fluid), Materials science, Toroid, business.industry, Nozzle, Injector, Plasma, law.invention, symbols.namesake, Optics, Mach number, law, symbols, Langmuir probe, Supersonic speed, Atomic physics, business

Abstract

A supersonic gas injector (SGI) has been developed for fueling and diagnostic applications on the National Spherical Torus Experiment (NSTX). It is comprised of a graphite converging-diverging Laval nozzle and a commercial piezoelectric gas valve mounted on a movable probe at a low field side midplane port location. Also mounted on the probe is a diagnostic package: a Langmuir probe, two thermocouples and five pick-up coils for measuring toroidal, radial, vertical magnetic field components and magnetic fluctuations at the location of the SGI tip. The SGI flow rate is up to 4times1021 particles/s, comparable to conventional NSTX gas injectors. The nozzle operates in a pulsed regime at room temperature and a reservoir gas pressure up to 0.33 MPa. The deuterium jet Mach number of about 4, and the divergence half-angle of 5deg - 25deg have been measured in laboratory experiments simulating NSTX environment. In initial NSTX experiments reliable operation of the SGI and all mounted diagnostics at distances 1-20 cm from the plasma separatrix has been demonstrated. The SGI has been used for fueling of ohmic and 2-4 MW NBI heated L- and H-mode plasmas. Fueling efficiency in the range 0.1-0.3 has been obtained from the plasma electron inventory analysis

Published

2005

8. Versatile TV system for PBX‐M plasma control

Author

J. Semler, H.W. Kugel, E. Thorsland, J. Timberlake, and G. Gettelfinger

Subjects

Physics, Viewport, Optical fiber, Tokamak, business.industry, Plasma, Flange, law.invention, Bellows, Optics, law, Control system, Plasma diagnostics, business, Instrumentation

Abstract

In advanced tokamak research involving complex magnetic geometries, midplane visible plasma TV images can indicate the need for tokamak control corrections not evident from other diagnostics. Suitable midplane viewports are often unavailable. The PBX‐M plasma TV system uses four tangential midplane vacuum viewports. One tangential vacuum viewport is on a standard re‐entrant midplane port flange. The other three vacuum viewports are tangentially aligned along the inside vessel wall and connected to port flanges 40 cm from the midplane via 60‐cm‐long re‐entrant bellows. Fiber optic bundles transmit images from the re‐entrant viewports through the off‐midplane ports and out to TV cameras positioned beyond the TF coils. The VCR recorded images from each discharge were used to obtain information not available from other diagnostics.

Published

1995

9. Engineering design description of diagnostic cassettes for Bay J for KSTAR

Author

David W. Johnson, R.A. Ellis, Dongcheol Seo, Myeon Kwon, G. Gettelfinger, K.M. Young, L. Morris, Hyun-Geoun Park, Hoon-Kyun Na, and T. Brown

Subjects

Physics, Ray tracing (physics), Optics, Spectrometer, business.industry, KSTAR, Port (circuit theory), business, Optical lens design, Engineering design process

Abstract

Summary form only given, as follows. This report describes the engineering design of diagnostic cassette and its optical configuration for bay J for KSTAR. Bay J dedicates to a visible optical diagnostic including visible survey spectrometer, H/spl alpha/gonitor, visible Bremsstrahlung array and visible/H/spl alpha/ TV. This cassette design will be a model case as prototype for some other similar port and can be easily modified to a dedicated diagnostics. This report also describes the principal features of the optical lens design and provides some of the calculations for optical transmission made in defining the main components of the optical design.

Published

2003

10. Lithium Pellet Injector Development for NSTX

Author

P. Sichta, J. Timberlake, R. Gernhardt, J. Dong, H.W. Kugel, and G. Gettelfinger

Subjects

Materials science, business.industry, Nuclear engineering, Electrical engineering, Pellets, chemistry.chemical_element, Injector, Plasma, Guide tube, law.invention, Cartridge, Acceleration, chemistry, law, Pellet, Plasma diagnostics, Lithium, business

Abstract

A pellet injector suitable for the injection of lithium and other low-Z pellets of varying mass into plasmas at precise velocities from 5 to 500 m/s is being developed for use on NSTX. The ability to inject low-Z impurities will significantly expand NSTX experimental capability for a broad range of diagnostic and operational applications. The architecture employs a pellet-carrying cartridge propelled through a guide tube by deuterium gas. Abrupt deceleration of the cartridge at the end of the guide tube results in the pellet continuing along its intended path, thereby giving controlled reproducible velocities for a variety of pellets materials and a reduced gas load to the torus. The planned injector assembly has four hundred guide tubes contained in a rotating magazine with eight tubes provided for injection into plasmas. A PC-based control system is being developed as well and will be described elsewhere in these Proceedings. The development path and mechanical performance of the injector will be described.

Published

2003

11. Overview of the TFTR D&D program

Author

R. Lindenberg, P. H. LaMarche, K. Rule, D. Gallagher, J. Chrzanowski, J. Semler, W. Zimmer, E. Gilsenan, G. Barnes, G. Gettelfinger, Robert Parsells, Erik Perry, J. DiMattia, R. Fedder, J. Stacy, J. Laneski, R. Jakober, I. Zatz, M. Viola, and S. Raftopoulos

Subjects

Engineering, Tokamak, law, business.industry, Nuclear engineering, Reactor system, Fusion power, Tokamak Fusion Test Reactor, business, Nuclear decommissioning, law.invention

Abstract

The Tokamak Fusion Test Reactor (TFTR) operated for 15 years, from 1982 to 1997. From November 1993 to April 1997 a mixture of deuterium-tritium (D-T) was used to fuel experiments, leaving the reactor system in an activated and contaminated state. In this condition, the removal of the TFTR and its subsystems is greatly complicated. In 1999, PPPL commenced the TFTR Decontamination and Decommissioning (D&D) Project. The objectives of the D&D projects are to completely remove the TFTR in a safe, efficient and cost effective manner. To date all diagnostics, structural components and ancillary systems have been removed, and the tokamak is in the process of being sectioned into smaller pieces. This paper will describe the criteria, the methods employed and the successes of the D&D Project.

Published

2003

12. Oil as an alternative coolant for use in the TFTR toroidal field coils

Author

J. Walsh, H. Bush, G. Gettelfinger, G.R. Walton, E.D. Perry, and F. Dahlgren

Subjects

Materials science, Tokamak, business.industry, Nuclear engineering, Electrical engineering, Inductor, Oil cooling, Coolant, law.invention, Electromagnetic coil, law, Heat exchanger, Water cooling, Tokamak Fusion Test Reactor, business

Abstract

The Tokamak Fusion Test Reactor (TFTR) has twenty toroidal-field (TF) coils with a maximum current rating of 73 kA for 3.6 s when cooled with water. Operation of the TF array at this maximal current produces a 5.2-T magnetic field at a major radius of 2.48 m. Repetition rate is dependent upon the efficiency of the cooling system for the array. An alternative approach to the water cooling would be to circulate a silicate ester (oil) in the coils. This technique would improve the electrical insulation of a leaking coil because, unlike water, the oil will not dissolve electrolytes and, therefore, retains a high dielectric strength as it wets the insulation. The oil cooling system is composed of a pump, heat exchanger and piping, and associated control and protective action circuits. Due to higher viscosity and lower heat capacity than water, oil removes 0.89 MW (maximum) at 12 L/s for each coil (1.4 MW at 12 L/s for water). This decreases the repetition rate to one maximum power pulse every 900 s, as opposed to one every 300 s for water. A thermal analysis is presented, and the equipment and controls are described. A flow diagram for the system is provided. >

Published

2003

13. PBX-M upgrade for advanced stabilization and profile control studies

Author

G. Barnes, J. Carson, R. Bell, T. Kozub, M. Ono, T. Provost, J. R. Wilson, J. Semler, L. Lagin, T. Meighan, P. Heitzenroeder, J. Chrzanowski, P. Sichta, R. J. Hawryluk, L. Gereg, W Tighe, H.W. Kugel, R. Hatcher, N. Greenough, S. Bernabei, M. Okabayashi, G. Gettelfinger, and R. Kaita

Subjects

Engineering, Plasma heating, business.industry, Nuclear engineering, Electrical engineering, Plasma, Fusion power, Rotation, Reliability (semiconductor), Upgrade, Physics::Plasma Physics, Control system, Physics::Accelerator Physics, Plasma control system, business

Abstract

PBX-M upgrades have been in progress for enhanced capability and reliability. These include upgrades to the vessel O-ring system for impurity control, the Ion Bernstein Wave and Lower Hybrid Current Drive Systems for plasma profile control, a double viewing upper and lower CHERS based Poloidal Rotation Diagnostic, and a new digital plasma control system.

Published

2002

14. The Hard X‐ray Camera on the PBX‐M tokamak (invited) (abstract)a)

Author

Stephen E. Jones, G. Gettelfinger, G. Petravich, P. Roney, R. Kaita, S. Bernabei, D. Ignat, R.E. Bell, W. Davis, and S. von Goeler

Subjects

Physics, Tokamak, business.industry, Bremsstrahlung, Plasma, Photon energy, Electromagnetic radiation, law.invention, Optics, law, Pinhole camera, Plasma diagnostics, business, Instrumentation, Image resolution

Abstract

The modification and control of the plasma current profile by lower hybrid current drive is considered one of the most promising avenues to control MHD instabilities and improve the high beta performance of tokamaks. The Hard X‐ray Camera on PBX‐M records images of the bremsstrahlung emitted by suprathermal electrons that carry part of the plasma current during lower hybrid current drive. The Hard X‐ray Camera is a pinhole camera that uses a 9 in. diam x‐ray intensifier as detector. It provides a tangential view of the tokamak plasma and delivers 64 images with 128×128 pixels per plasma shot. The spatial resolution in the plasma is approximately 2 cm, and the time resolution 3 ms. The camera is sensitive to x rays between 30 and 200 keV. The photon energy (and the energy of the suprathermal electrons) is measured with an absorber foil method. Modeling of the x‐ray emission has reproduced the experimental images with a better than 10% accuracy. In addition, two inversion techniques have been developed: one...

Published

1995