D. Purohit
ITER
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Publication
Featured researches published by D. Purohit.
Fusion Science and Technology | 2011
F. Gandini; T. S. Bigelow; B. Becket; J. B. O. Caughman; D. Cox; C. Darbos; T. Gassmann; M. Henderson; O. Jean; Ken Kajiwara; N. Kobayashi; C. Nazare; Yasuhisa Oda; T. Omori; D. Purohit; D.A. Rasmussen; D. Ronden; G. Saibene; K. Sakamoto; Michael A. Shapiro; K. Takahashi; Richard J. Temkin
Abstract The transmission line (TL) subsystem associated with the ITER electron cyclotron heating and current drive system has reached the conceptual design maturity. At this stage the responsibility of finalizing the design has been transferred from the ITER Organization to the U.S. Domestic Agency. The purpose of the TL is to transmit the microwaves generated by the 170-GHz gyrotrons installed in the radio-frequency building to the launchers located in one equatorial and four upper tokamak ports. Each TL consists of evacuated HE11 waveguides, direct-current breaks, power monitors, mitre bends, polarizers, switches, loads, and pumping sections and will have a typical length that ranges from 100 to 160 m. Overall transmission efficiency could be as high as 92% depending on the specific path between a given gyrotron and launcher. All components are required to be 2-MW compatible, and their layout and organization have been optimized for simplifying the maintenance accessibility and monitoring the primary tritium barrier integrity. Two different TL layouts are at the moment under study, to accommodate the two alternative options for the European sources: four 2-MW units or eight 1-MW units. In this paper the actual design is presented and the technical requirements are discussed.
Physics of Plasmas | 2015
M. Henderson; G. Saibene; C. Darbos; D. Farina; L. Figini; Mario Gagliardi; F. Gandini; T. Gassmann; G. Hanson; A. Loarte; T. Omori; E. Poli; D. Purohit; K. Takahashi
A 24 MW Electron Cyclotron (EC) system operating at 170 GHz and 3600 s pulse length is to be installed on ITER. The EC plant shall deliver 20 MW of this power to the plasma for Heating and Current Drive (H&CD) applications. The EC system is designed for plasma initiation, central heating, current drive, current profile tailoring, and Magneto-hydrodynamic control (in particular, sawteeth and Neo-classical Tearing Mode) in the flat-top phase of the plasma. A preliminary design review was performed in 2012, which identified a need for extended application of the EC system to the plasma ramp-up, flattop, and ramp down phases of ITER plasma pulse. The various functionalities are prioritized based on those applications, which can be uniquely addressed with the EC system in contrast to other H&CD systems. An initial attempt has been developed at prioritizing the allocated H&CD applications for the three scenarios envisioned: ELMy H-mode (15 MA), Hybrid (∼12 MA), and Advanced (∼9 MA) scenarios. This leads to the ...
symposium on fusion technology | 2011
T. Omori; M. Henderson; F. Albajar; S. Alberti; U. Baruah; T. S. Bigelow; B. Beckett; R. Bertizzolo; T. Bonicelli; A. Bruschi; J. B. O. Caughman; R. Chavan; S. Cirant; A. Collazos; D. Cox; C. Darbos; M. de Baar; G. G. Denisov; Daniela Farina; F. Gandini; T. Gassmann; T. P. Goodman; R. Heidinger; J.P. Hogge; S. Illy; O. Jean; J. Jin; Ken Kajiwara; W. Kasparek; Atsushi Kasugai
symposium on fusion technology | 2011
T. Gassmann; B. Arambhadiya; B. Beaumont; U.K. Baruah; T. Bonicelli; C. Darbos; D. Purohit; Hans Decamps; F. Albajar; F. Gandini; M. Henderson; F. Kazarian; P. Lamalle; T. Omori; D. Parmar; Anjali Patel; D. Rathi; Namita Singh
Journal of Infrared, Millimeter, and Terahertz Waves | 2016
C. Darbos; F. Albajar; T. Bonicelli; Giuseppe Carannante; M. Cavinato; F. Cismondi; G.G. Denisov; Daniela Farina; Mario Gagliardi; F. Gandini; T. Gassmann; T. P. Goodman; Gregory R. Hanson; M. Henderson; Ken Kajiwara; Karen McElhaney; Risto Nousiainen; Yasuhisa Oda; T. Omori; Alexander Oustinov; D. Parmar; Vladimir L. Popov; D. Purohit; S.L. Rao; D.A. Rasmussen; Vipal Rathod; D. Ronden; G. Saibene; K. Sakamoto; F. Sartori
Fusion Engineering and Design | 2015
T. Omori; F. Albajar; T. Bonicelli; Giuseppe Carannante; M. Cavinato; F. Cismondi; C. Darbos; G.G. Denisov; Daniela Farina; Mario Gagliardi; F. Gandini; T. Gassmann; T. P. Goodman; Gregory R. Hanson; M. Henderson; Ken Kajiwara; Karen McElhaney; Risto Nousiainen; Yasuhisa Oda; Alexander Oustinov; D. Parmar; Vladimir L. Popov; D. Purohit; S.L. Rao; D.A. Rasmussen; Vipal Rathod; D. Ronden; G. Saibene; K. Sakamoto; F. Sartori
18th Joint Workshop on Electron Cyclotron Emission and Electron Cyclotron Resonance Heating (EC-18) | 2015
F. Albajar; G. Aiello; S. Alberti; F. Arnold; Konstantinos A. Avramidis; M. Bader; R. Batista; R. Bertizzolo; T. Bonicelli; F. Braunmueller; C. Brescan; A. Bruschi; B.von Burg; K. Camino; Giuseppe Carannante; V. Casarin; A. Castillo; F. Cauvard; C. Cavalieri; M. Cavinato; R. Chavan; J. Chelis; F. Cismondi; D. Combescure; C. Darbos; D. Farina; D. Fasel; L. Figini; M. Gagliardi; F. Gandini
Fusion Engineering and Design | 2011
D. Purohit; T. S. Bigelow; D. Billava; T. Bonicelli; J. B. O. Caughman; C. Darbos; G.G. Denisov; F. Gandini; T. Gassmann; M. Henderson; J.Y. Journeux; Ken Kajiwara; N. Kobayashi; C. Nazare; Yasuhisa Oda; T. Omori; S.L. Rao; D.A. Rasmussen; D. Ronden; G. Saibene; K. Sakamoto; F. Sartori; K. Takahashi; Richard J. Temkin
16th Joint Workshop on Electron Cyclotron Emission and Electron Cyclotron Resonance Heating | 2011
M. Henderson; B. Becket; D. Cox; C. Darbos; F. Gandini; T. Gassman; O. Jean; C. Nazare; T. Omori; D. Purohit; A. Tanga; V.S. Udintsev; F. Albajar; T. Bonicelli; R. Heidinger; G. Saibene; S. Alberti; R. Bertizzolo; R. Chavan; A. Collazos; T.P. Goodman; J.-P. Hogge; Jean-Daniel Landis; I. Paganakis; L. Porte; F. Sanchez; O. Sauter; M.Q. Tran; C. Zucca; U. Baruah
Fusion Engineering and Design | 2015
Giuseppe Carannante; M. Cavinato; F. Gandini; G. Granucci; M. Henderson; D. Purohit; G. Saibene; F. Sartori; C. Sozzi
