Progress of Design and Development for the ITER Radial Neutron Camera

被引：0

作者：

B. Esposito

D. Marocco

G. Gandolfo

F. Belli

L. Bertalot

J. Blocki

D. Bocian

G. Brolatti

M. Cecconello

C. Centioli

R. C. Pereira

S. Conroy

F. Crescenzi

N. Cruz

L. de Bilbao

A. Domenicone

Q. Ducasse

G. Di Mambro

D. Dongiovanni

I. Eletxigerra

B. Etxeita

A. Fernandez

O. Ficker

P. Gallina

T. Giacomin

G. Ginoulhiac

J. Godlewski

A. Hjalmarsson

M. Imrisek

R. Kantor

K. Kasprzak

J. Kotula

V. Krasilnikov

M. Lewandowska

A. Maffucci

U. Marotta

D. Marzullo

G. Mazzitelli

G. Mazzone

R. Miklaszewski

K. Mikszuta-Michalik

W. Maciocha

S. Magagnino

M. Misano

J. Mlynar

C. Monti

F. Moro

R. Ortwein

M. Passeri

T. Pinna

机构：

[1] ENEA,Fusion and Technology for Nuclear Safety and Security Department

[2] Institute of Nuclear Physics Polish Academy of Sciences,Dipartimento di Ing. Civile ed Ing. Informatica

[3] Physikalisch-Technische Bundesanstalt,Instituto de Plasmas, Fusão Nuclear Instituto Superior Técnico

[4] Consorzio CREATE,Department of Physics and Astronomy

[5] Universita` di Roma Tor Vergata,Dipartimento di Ingegneria e Architettura

[6] Institute of Plasma Physics and Laser Microfusion,Sustainability Department, Casaccia Research Centre

[7] Universidade de Lisboa,Dipartimento di Ing. Elettrica e dell’Informazione

[8] Uppsala University,Dipartimento di Ing. Elettrica e delle Tecnologie dell’Informazione

[9] Institute of Plasma Physics of CAS,undefined

[10] AVS Added Value Solutions,undefined

[11] IDOM,undefined

[12] ITER Organization,undefined

[13] Università degli Studi di Trieste,undefined

[14] ENEA,undefined

[15] Università di Cassino e del Lazio Meridionale,undefined

[16] Università di Napoli Federico II,undefined

[17] DES,undefined

[18] IRESNE,undefined

[19] Nuclear Measurement Laboratory,undefined

[20] CEA Cadarache,undefined

来源：

Journal of Fusion Energy | 2022年 / 41卷

关键词：

Neutron detector; Neutron camera; Tomography; ITER;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

The paper presents an overview of the design status of the Radial Neutron Camera (RNC), that, together with the Vertical Neutron Camera, will provide, through reconstruction techniques applied to the measured line-integrated neutron fluxes, the time resolved measurement of the ITER neutron and α-source profile (i.e. neutron emissivity, neutrons emitted per unit time and volume). The RNC is composed of two subsystems, the In-Port RNC and Ex-Port RNC located, respectively, inside and outside the Plug of Equatorial Port #01. The In-Port subsystem is in a more advanced design stage since it has recently undergone the Final Design Review in the ITER procurement process. The paper describes the diagnostic layout, the interfaces, the measurement capabilities and the main challenges in its realization. Prototyping and testing of neutron detectors and electronics components were carried out and led to the choice of the component solutions that can match the environmental and operational constraints in terms radiation hardness, high temperature and electromagnetic compatibility. The performance of the RNC in terms of neutron emissivity measurement capability was assessed through 1D and 2D reconstruction analysis. It is proven that the neutron emissivity can be reconstructed in real-time within the measurement requirements: 10% accuracy, 10 ms time resolution and a/10 (a = plasma minor radius) space resolution.

引用

共 28 条

[1]

Bertalot L(2019)Present status of ITER neutron diagnostics development J. Fusion Energ. 38 283-1702

[2]

Sasao M(2008)Chapter 9 fusion product diagnostics Fusion Sci. Technol. 53 604-290

[3]

Rodionov R(2021)Optimization of the ITER vertical neutron camera detectors and collimators Fusion Eng. Des. 166 378-undefined

[4]

Dongiovanni D(2018)Design space exploration for architecture selection: radial neutron camera nuclear fusion diagnostic study case Fusion Eng. Des. 137 236-undefined

[5]

Moro F(2019)The ITER radial neutron camera in-port system: nuclear analyses in support of its design development Fusion Eng. Des. 146 2049-undefined

[6]

Cecconello M(2019)Strategy and guidelines for the calibration of the ITER radial neutron camera Fusion Eng. Des. 146B C03033-undefined

[7]

Scholz M(2019)Conceptual design of the high resolution neutron spectrometer for ITER Nucl Fusion 59 156-undefined

[8]

Nocente M(2017)Conceptual design of the radial gamma ray spectrometer system for a particle and runaway electron measurements at ITER Nucl. Fusion 57 1-undefined

[9]

Tardocchi M(2021)Interface definition and integration in the equatorial port 01 of the ITER In-port radial neutron camera Fusion Eng. Des. 172 901-undefined

[10]

Centioli C(2011)Combined unfolding and spatial inversion of neutron camera measurements for ion temperature profile determination in ITER Nucl. Fusion 51 1310-undefined

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