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199 results on '"Raftopoulos, S."'

1. Experimental and numerical study of error fields in the CNT stellarator

Author

Hammond, K. C., Anichowski, A., Brenner, P. W., Pedersen, T. S., Raftopoulos, S., Traverso, P., and Volpe, F. A.

Subjects
Physics - Plasma Physics
Abstract

Sources of error fields were indirectly inferred in a stellarator by reconciling computed and numerical flux surfaces. Sources considered so far include the displacements and tilts (but not the deformations, yet) of the four circular coils featured in the simple CNT stellarator. The flux surfaces were measured by means of an electron beam and phosphor rod, and were computed by means of a Biot-Savart field-line tracing code. If the ideal coil locations and orientations are used in the computation, agreement with measurements is poor. Discrepancies are ascribed to errors in the positioning and orientation of the in-vessel interlocked coils. To that end, an iterative numerical method was developed. A Newton-Raphson algorithm searches for the coils' displacements and tilts that minimize the discrepancy between the measured and computed flux surfaces. This method was verified by misplacing and tilting the coils in a numerical model of CNT, calculating the flux surfaces that they generated, and testing the algorithm's ability to deduce the coils' displacements and tilts. Subsequently, the numerical method was applied to the experimental data, arriving at a set of coil displacements whose resulting field errors exhibited significantly improved quantitative and qualitative agreement with experimental results., Comment: Special Issue on the 20th International Stellarator-Heliotron Workshop

Published
2016
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2. A Holistic Approach to Assessment of Population Exposure to Radiation: Challenges and Initiatives of a Regulatory Authority

Author

Askounis, P., Boziari, A., Carinou, E., Drikos, G., Economides, S., Hourdakis, C.J., Housiadas, C., Kalathaki, M., Kamenopoulou, V., Karabetsos, E., Kehagia, K., Kolovou, M., Koukorava, C., Lasithiotakis, M., Makridakis, T., Maltezos, A., Mitrakos, D., Nikolaki, M., Nikolaou, M., Nicolaou, P., Petri, A., Potiriadis, C., Raftopoulos, S., Simantirakis, G., Tafili, V., Veltsos, C., Vogiatzi, S., Xarchoulakos, D.C., and Zourari, K.

Published
2018
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3. Plasma-surface interactions in TFTR DT experiments

Author

Owens, DK, Adler, H, Alling, P, Ancher, C, Anderson, H, Anderson, JL, Ashcroft, D, Barnes, Cris W, Barnes, G, Batha, S, Bell, MG, Bell, R, Bitter, M, Blanchard, W, Bretz, NL, Budny, R, Bush, CE, Camp, R, Caorlin, M, Cauffman, S, Chang, Z, Cheng, CZ, Collins, J, Coward, G, Darrow, DS, DeLooper, J, Duong, H, Dudek, L, Durst, R, Efthimion, PC, Ernst, D, Fisher, R, Fonck, RJ, Fredrickson, E, Fromm, N, Fu, GY, Furth, HP, Gentile, C, Gorelenkov, N, Grek, B, Grisham, LR, Hammett, G, Hanson, GR, Hawryluk, RJ, Heidbrink, W, Hermann, HW, Hill, KW, Hosea, J, Hsuan, H, Janos, A, Jassby, DL, Jobes, FC, Johnson, DW, Johnson, LC, Kamperschroer, J, Kugel, H, Lam, NT, LaMarche, PH, Loughlin, MJ, LeBlanc, B, Leonard, M, Levinton, FM, Machuzak, J, Mansfield, DK, Martin, A, Mazzucato, E, Majeski, R, Marmar, E, McChesney, J, McCormack, B, McCune, DC, McGuire, KM, McKee, G, Meade, DM, Medley, SS, Mikkelsen, DR, Mueller, D, Murakami, M, Nagy, A, Nazikian, R, Newman, R, Nishitani, T, Norris, M, O'Connor, T, Oldaker, M, Osakabe, M, Park, H, Park, W, Paul, SF, Pearson, G, Perry, E, Petrov, M, Phillips, CK, Pitcher, S, Raftopoulos, S, Ramsey, A, Rasmussen, DA, Redi, MH, Roberts, D, and Rogers, J

Subjects
Materials Engineering, Energy
Abstract

TFTR has begun its campaign to study deuterium-tritium fusion under reactor-like conditions. Variable amounts of deuterium and tritium neutral beam power have been used to maximize fusion power, study alpha heating, investigate alpha particle confinement, and search for alpha driven plasma instabilities. Additional areas of study include energy and particle transport and confinement, ICRF heating schemes for DT plasmas, tritium retention, and fusion in high βp plasmas. The majority of this work is done in the TFTR supershot confinement regime. To obtain supershots, extensive limiter conditioning using helium fueled ohmic discharges and lithium pellet injection into ohmic and neutral beam heated plasmas is performed, resulting in a low recycling limiter. The relationship between recycling and core plasma confinement has been studied by using helium, deuterium and high-Z gas puffs to simulate high recycling limiter conditions. These studies show that confinement in TFTR supershots is very sensitive to the influx of neutral particles at the plasma edge. © 1995, All rights reserved.

Published
1995

4. COLD SNARE POLYPECTOMY (CSP)/COLD EMR (C-EMR) FOR MEDIUM-SIZED (10-19MM) SESSILE COLONIC POLYPS: A PROSPECTIVE MULTICENTRE STUDY

Author

Mangira, D., additional, Raftopoulos, S., additional, Hartley, I., additional, Mack, A., additional, Gazelakis, K., additional, Nalankilli, K., additional, Trinh, A., additional, Metz, A., additional, Appleyard, M., additional, Grimpen, F., additional, Elliott, T., additional, Brown, G., additional, and Moss, A., additional

Published
2022
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31. Effects of large area liquid lithium limiters on spherical torus plasmas

Author

Kaita, R., Majeski, R., Boaz, M., Efthimion, P., Gettelfinger, G., Gray, T., Hoffman, D., Jardin, S., Kugel, H., Marfuta, P., Munsat, T., Neumeyer, C., Raftopoulos, S., Soukhanovskii, V., Spaleta, J., Taylor, G., Timberlake, J., Woolley, R., Zakharov, L., Finkenthal, M., Stutman, D., Delgado-Aparicio, L., Seraydarian, R.P., Antar, G., Doerner, R., Luckhardt, S., Baldwin, M., Conn, R.W., Maingi, R., Menon, M., Causey, R., Buchenauer, D., Ulrickson, M., Jones, B., and Rodgers, D.

Published
2005
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34. NCSX Construction Progress and Research Plans

Author

Neilson, G., primary, Heitzenroeder, P., additional, Lyon, J., additional, Nelson, B., additional, Reiersen, W., additional, Zarnstorff, M., additional, Brooks, A., additional, Brown, T., additional, Cole, M., additional, Chrzanowski, J., additional, Fogarty, P., additional, Gettelfinger, G., additional, Goranson, P., additional, Raftopoulos, S., additional, Schmidt, J., additional, Stratton, B., additional, Simmons, R., additional, Strykowsky, R., additional, Viola, M., additional, Williams, M., additional, and Williamson, D., additional

Published
2005
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35. Prototype Coil Evaluation for NSTX-U Replacement Inner Poloidal Field Coils

Author

Zhai, Y., Neumeyer, C., Dellas, J., Greenough, N., Kalish, M., Petrella, J., Que, W., and Raftopoulos, S.

Abstract

AbstractThe National Spherical Torus eXperiment Upgrade (NSTX-U) is an innovative magnetic fusion device constructed at the Princeton Plasma Physics Laboratory (PPPL). In 2016, because of the failure of the PF-1a upper divertor coil, which experienced a coolant blockage, the NSTX-U operation was suspended. A postmortem investigation indicated that an undetected gradual deterioration of coil inductance preceded the coolant blockage leading up to the operational suspension. The project team decided that all inner poiloidal field (PF) upper and lower coil pairs, denoted PF-1a, PF-1b, and PF-1c, shall be replaced with new coils of improved design and manufacture. The new prototype inner PF coils from four suppliers across the globe were evaluated at PPPL following a prototype technical evaluation procedure. Mechanical inspection and electrical testing were performed to qualify each supplier.This paper discusses the details of the mechanical and electrical tests and measurements performed on the complete coils. The test results were used to assess quality of turn-to-turn and turn-to-ground insulations of the prototype coils. Two prototype coils were power tested at PPPL for five pulses to reach its rated current and maximum temperature following the completion of low-power electrical testing. During pulses, the conductors experience a near adiabatic temperature rise and hoop stress. Between pulses, cold water enters the inlet, and a cooling wave propagates through the coils as slugs of cold water heat up to the conductor temperature and then pass through the coil to the outlet. Results show that full power testing did not change coil electrical characteristics. Each prototype coil was then sectioned into two halves to permit examination of the internal insulation, conductor spacing, and vacuum pressure impregnation quality. The high-voltage breakdown test of sectioned coils was performed to evaluate turn and ground insulation breakdown voltage. The estimate for the production coils is based largely on the experience learned from the prototype coil program. The first production coil will be delivered to PPPL for testing by January 2020.

Published
2019
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38. Cerebellar hemorrhage after supratentorial burr hole drainage of a chronic subdural hematoma

Author

Kollatos, C., Konstantinou, D., Raftopoulos, S., Klironomos, G., Lambros Messinis, Zampakis, P., Papathanasopoulos, P., and Panagiotopoulos, V.

Subjects
Case Report
Abstract

Cerebellar hemorrhage is an unusual, but increasingly recognized complication after supratentorial surgery. Even rarer are the cases of cerebellar hemorrhage after supratentorial burr-hole drainage of a chronic subdural hematoma (CSDH). The pathophysiology of this rare complication still remains unclear. Hypertension and overdrainage of cerebrospinal fluid seem to be causative factors of postoperative cerebellar hemorrhage. The most important key to minimize this hazardous sequel is to be aware of this potential complication and its pathogenetic mechanisms. We report our case of a 43-year old man who developed cerebellar hemorrhage after burr hole trephination for supratentorial CSDH.

Published
2011

39. Lessons Learned During the Manufacture of the NCSX Modular Coils

Author

Chrzanowski, James H., Raftopoulos, S., Paul, J. F., Meighan, Thomas G., Dudek, L., Fogarty, Paul J., and James H. Chrzanowski,Thomas G. Meighan, Steven Raftopoulos and Lawrence Dudek Paul J. Fogarty

Abstract

The National Compact Stellarator Experiment's (NCSX) modular coils presented a number of engineering and manufacturing challenges due to their complex shapes, requirements for high dimensional accuracy and high current density requirements due to space constraints. Being the first of their kind, these coils required the implementation of many new manufacturing and measuring techniques and procedures. This was the first time that these manufacturing techniques and methods were applied in the production of coils at the laboratory. This resulted in a steep learning curve for the first several coils. Through the effective use of procedures, tooling modifications, involvement and ownership by the manufacturing workforce, and an emphasis on safety, the assembly team was able to reduce the manufacturing times and improve upon the manufacturing methods. This paper will discuss the learning curve and steps that were taken to improve the manufacturing efficiency and reduce the manufacturing times for the modular coils without forfeiting quality.

Published
2009

43. Comparison of noninvasive models of fibrosis in chronic hepatitis B

Author

Raftopoulos, S. C., primary, George, J., additional, Bourliere, M., additional, Rossi, E., additional, de Boer, W. B., additional, Jeffrey, G. P., additional, Bulsara, M., additional, Speers, D. J., additional, MacQuillan, G., additional, Ching, H. L. I., additional, Kontorinis, N., additional, Cheng, W., additional, Flexman, J., additional, Fermoyle, S., additional, Rigby, P., additional, Walsh, L., additional, McLeod, D., additional, and Adams, L. A., additional

Published
2011
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44. Engineering Accomplishments in the Construction of NCSX

Author

Neilson, G. H., primary, Heitzenroeder, P. J., additional, Nelson, B. E., additional, Reiersen, W. T., additional, Brooks, A., additional, Brown, T. G., additional, Chrzanowski, J. H., additional, Cole, M. J., additional, Dahlgren, F., additional, Dodson, T., additional, Dudek, L. E., additional, Ellis, R. A., additional, Fan, H. M., additional, Fogarty, P. J., additional, Freudenberg, K. D., additional, Goranson, P. L., additional, Harris, J. H., additional, Kalish, M. R., additional, Labik, G., additional, Lyon, J. F., additional, Pomphrey, N., additional, Priniski, C. D., additional, Raftopoulos, S., additional, Rej, D. J., additional, Sands, W. R., additional, Simmons, R. T., additional, Stratton, B. E., additional, Strykowsky, R. L., additional, Viola, M. E., additional, Williamson, D. E., additional, and Zarnstorff, M. C., additional

Published
2009
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48. Progress in NCSX Construction

Author

Reiersen, W., primary, Nelson, B., additional, Heitzenroeder, P., additional, Brooks, A., additional, Brown, T., additional, Cole, M., additional, Chrzanowski, J., additional, Dudek, L., additional, Fan, H.-M., additional, Fogarty, P., additional, Gettelfinger, G., additional, Goranson, P., additional, Kalish, M., additional, Labik, G., additional, Lyon, J., additional, Neilson, G. H., additional, Raftopoulos, S., additional, Stratton, B., additional, Strykowsky, R., additional, Viola, M., additional, Williams, M., additional, Williamson, D., additional, and Zarnstorff, M., additional

Published
2007
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49. NCSX Modular Coil Fabrication

Author

Chrzanowski, J.H., primary, Meighan, T., additional, Raftopoulos, S., additional, Fogarty, P.J., additional, Heitzenroeder, P.J., additional, Nelson, B., additional, and Williamson, D., additional

Published
2007
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