Publication detail

Generated heat by different targets irradiated by 660 MeV protons

SVOBODA, J. ADAM, J. FORAL, Š. GUSTOV, S. KATOVSKÝ, K. KUSHVATOV, J. KRÁL, D. SOLNYSHKIN, A. TICHÝ, P. TYUTYUNNIKOV, S. ZEMAN, M.

Original Title

Generated heat by different targets irradiated by 660 MeV protons

English Title

Generated heat by different targets irradiated by 660 MeV protons

Type

journal article in Web of Science

Language

en

Original Abstract

Calorimetric experiments have been performed to analyze different thick targets of natU, C, Pb material, irradiated by 660 MeV protons at the Phasotron accelerator facility, Joint Institute for Nuclear Research (JINR) in Dubna, Russia. The method of online temperature measurement has been compared with MCNPX 2.7.0 simulation and selected with Ansys Transient Thermal Simulation to compare measured temperature with the simulated one. Thermocouples type T and E have been used as a temperature probe. Many different positions have been measured for each target. Temperature results are following very well the processes inside of the cylinders. Changes of heat deposition caused by drops of the proton beam intensity are displayed very well as a jagged line shown in almost every chart. Accurate temperature changing measurement is a very modest variation of how to observe inner macroscopic behavior online.

English abstract

Calorimetric experiments have been performed to analyze different thick targets of natU, C, Pb material, irradiated by 660 MeV protons at the Phasotron accelerator facility, Joint Institute for Nuclear Research (JINR) in Dubna, Russia. The method of online temperature measurement has been compared with MCNPX 2.7.0 simulation and selected with Ansys Transient Thermal Simulation to compare measured temperature with the simulated one. Thermocouples type T and E have been used as a temperature probe. Many different positions have been measured for each target. Temperature results are following very well the processes inside of the cylinders. Changes of heat deposition caused by drops of the proton beam intensity are displayed very well as a jagged line shown in almost every chart. Accurate temperature changing measurement is a very modest variation of how to observe inner macroscopic behavior online.

Keywords

ADS; MCNPX; ANSYS; Temperature measurement; Heat deposition; Thick target; Proton irradiation

Released

30.04.2020

Publisher

Council of Scientific & Industrial Research - National Institute of Science Communication and Information Resources

Location

Dr K S Krishnan Marg, New Delhi 110 012, India

ISBN

0975-1041

Periodical

INDIAN JOURNAL OF PURE & APPLIED PHYSICS

Year of study

58

Number

4

State

IN

Pages from

246

Pages to

254

Pages count

9

URL

Full text in the Digital Library

Documents

BibTex


@article{BUT164282,
  author="Josef {Svoboda} and Jindřich {Adam} and Štěpán {Foral} and S.A. {Gustov} and Karel {Katovský} and J. {Kushvatov} and Dušan {Král} and Alexander A. {Solnyshkin} and Pavel {Tichý} and S. {Tyutyunnikov} and Miroslav {Zeman}",
  title="Generated heat by different targets irradiated by 660 MeV protons",
  annote="Calorimetric experiments have been performed to analyze different thick targets of natU, C, Pb material, irradiated by 660 MeV protons at the Phasotron accelerator facility, Joint Institute for Nuclear Research (JINR) in Dubna, Russia. The method of online temperature measurement has been compared with MCNPX 2.7.0 simulation and selected with Ansys Transient Thermal Simulation to compare measured temperature with the simulated one. Thermocouples type T and E have been used as a temperature probe. Many different positions have been measured for each target. Temperature results are following very well the processes inside of the cylinders. Changes of heat deposition caused by drops of the proton beam intensity are displayed very well as a jagged line shown in almost every chart. Accurate temperature changing measurement is a very modest variation of how to observe inner macroscopic behavior online.",
  address="Council of Scientific & Industrial Research - National Institute of Science Communication and Information Resources",
  chapter="164282",
  howpublished="online",
  institution="Council of Scientific & Industrial Research - National Institute of Science Communication and Information Resources",
  number="4",
  volume="58",
  year="2020",
  month="april",
  pages="246--254",
  publisher="Council of Scientific & Industrial Research - National Institute of Science Communication and Information Resources",
  type="journal article in Web of Science"
}