• Title/Summary/Keyword: 원자력수소시스템

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Study of a Method for Measuring Hydrogen Gas Concentration Using a Photon-counting Raman Lidar System (광 계수 방식의 라만 라이다 시스템을 이용한 원격 수소 가스 농도 계측 방법에 대한 연구)

  • Choi, In Young;Baik, Sung Hoon;Cha, Jung Ho;Kim, Jin Ho
    • Korean Journal of Optics and Photonics
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    • v.30 no.3
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    • pp.114-119
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    • 2019
  • This paper discusses the development of a Raman lidar system for remote detection and measurement of hydrogen gas by using a photon counter. The Raman signal of the hydrogen gas is very weak and has a very low signal-to-noise ratio. The photon counter has the advantage of improving the signal-to-noise ratio, because it has a discriminator to eliminate the background noise from the Raman signal of the hydrogen gas. Therefore, a small and portable Raman lidar system was developed using a low-power pulsed laser and a photon-counter system to measure the hydrogen gas concentration remotely. To verify the capability of measuring hydrogen gas using the developed photon-counting Raman lidar system, experiments were carried out using a gas chamber in which it is possible to adjust the hydrogen gas concentration. As a result, our photon-counting Raman lidar system is seen to measure a minimum concentration of 0.65 vol.% hydrogen gas at a distance of 10 m.

Nuclear Hydrogen Production Technology Development Using Very High Temperature Reactor (초고온가스로를 이용한 원자력수소생산 기술개발)

  • Kim, Yong-Wan;Kim, Eung-Seon;Lee, Ki-yooung;Kim, Min-hwan
    • Transactions of the KSME C: Technology and Education
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    • v.3 no.4
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    • pp.299-305
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    • 2015
  • Nuclear hydrogen production technology is being developed for the future energy supply system. The sulfur-iodine thermo-chemical hydrogen production process directly splits water by using of the heat generated from very high temperature gas-cooled reactor, a typical Generation IV nuclear system. Nuclear hydrogen key technologies are composed of VHTR simulation technology at elevated temperature, computational tools, TRISO fuel, and sulfur iodine hydrogen production technology. Key technology for nuclear hydrogen production system were developed and demonstrated in a laboratory scale test facility. Technical challenges for the commercial hydrogen production system were discussed.

다목적 가속기용 대전류, 저에미턴스 양성자 이온원 개발 연구

  • 홍인석;엄규섭;황용석;조용섭;감상신;정기석;최병호
    • Proceedings of the Korean Nuclear Society Conference
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    • 1998.05b
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    • pp.946-950
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    • 1998
  • 다목적 양성자 가속기(Korea Multi-purpose Accelerator Complex; KOMAC)를 위한 Duoplasmatron이온원이 설계 및 제작되었다. 빔인출을 위한 60㎸ 고전압시스템의 테스트가 수행되었으며 50㎸인출전압에서 20㎃의 수소 빔을 인출 할수 있었다. 이 이온원은 30㎸ 인출전압에서 20㎃이상의 빔전류와 90% 빔전류에서 0.5$\pi$mm mrad정도의 낮은 수준의 빔에미턴스와 약 50% 양성자분을을 얻었다. 고밀도 고주파 플라즈마 원(예를들어 헬리콘와 Transformer coupled plasma;TCP 플라즈마원)이 양성자 및 수소 음이온원으로의 유용성에 대한 연구가 진행중이다.

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