• Title/Summary/Keyword: 마이크로파 플라즈마 토치

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Development and Characterization of Helium Microwave Plasma Torch (헬륨 마이크로파 플라즈마 토치의 개발과 특성에 관한 연구)

  • Jo, Kyung Hyun;Pak, Yong Nam
    • Journal of the Korean Chemical Society
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    • v.44 no.6
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    • pp.573-580
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    • 2000
  • MPT, which has been developed recently, is very tolerant to aqueous samples. Several types of MPT have been investigated and is found that the double concentric tube could sustain a stable plasma at a low plasma gas flow rate. However, the tip of torch is easily ruined. Triple concentric torch has shown the best stability and the plasma shape, much like that of ICP, especially when the central channel is quartz. The plasma is exposed and mixed with air as is suggested from the background spectrum, which leads to quenching of He MPT. Sensitivity of helium MPT equipped with a membrane desolvator has shown 10 times lower than that of Argon MPT for most of elements except for the ones with relatively high excitation energy. He MPT requires small plasma flow rate (about 1.6 L/min), stable and simple to use. Excitational temperature and electron number density measured are 4950 K and 3.28 ${\times}$ $10^{14}cm^{-3}$, respectively.

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Aerosol Particle Analysis Using Microwave Plasma Torch (마이크로파 플라즈마 토치를 이용한 에어로졸 입자 분석)

  • Kim, Hahk-Joon;Park, Ji-Ho
    • Journal of the Korean Chemical Society
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    • v.55 no.2
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    • pp.204-207
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    • 2011
  • A particle counting system that can also provide sensitive, specific chemical information, while consuming very less power, occupying less space, and being inexpensive has been developed. This system uses a microwave plasma torch (MPT) as the excitation source for atomic emission spectrometry (AES). Emission from a single particle can be detected, and the wavelength at which the emission is observed indicates the elements present in the particle. It is believed that correlating the particle size and emission intensity will allow us to estimate the particle size in addition to abovementioned capabilities of the system. In the long term, this system can be made field-portable, so that it can be used in atmospheric aerosol monitoring applications, which require real-time detection and characterization of particles at low concentrations.

Development and spectroscopic characteristics of the high-power wave guide He Plasma (도파관식 고출력 헬륨 플라즈마의 개발과 분광학적 특성 연구)

  • Lee, Jong-Man;Cho, Sung-Il;Woo, Jin-Chun;Pak, Yong-Nam
    • Analytical Science and Technology
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    • v.25 no.5
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    • pp.265-272
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    • 2012
  • Okamoto cavity was modified to generate high power (2.45 GHz, 2 kW) He, N2 and Ar plasmas with WR-340 waveguide. Many factors which influence to the plasma generation were optimized and investigated for the spectroscopic properties of the He plasma generated. Some of the important factors are the diameter of the inner conductor, the distance between the inner and outer conductors and the distance between the tip of the inner conductor and the torch. After optimization for the He, two torches (a commercial mini torch for ICP and a tangential flow torch made locally) were compared and showed similar results for the helium plasma gas flow of 25 L/min~30 L/min. A tall torch (extended) was used to block the air in-flow and reduced the background intensity at 340 nm region (NH band). Emission intensity was measured for determination of halogen element in the aqueous solution with power and carrier gas flow rate. Electron number density and the excitation temperature were on the order of $3.67{\times}10^{11}/cm^3$ and 4,350 K, respectively. These values are similar or a bit smaller than other microwave plasmas. It has been possible to analyze aqueous samples. The detection limit for Cl (479.45 nm) was obtained to be 116 mg/L and needs analytical optimization for the better performance.

Electrodelss Plasma Torch Powered by Microwave and Its Applications (무전극 마이크로웨이브 플라즈마 토치와 응용)

  • Hong, Yong-Cheol;Jun, Hyung-Won;Lho, Tai-Hyeop;Lee, Bong-Ju;Uhm, Han-Sup
    • 한국신재생에너지학회:학술대회논문집
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    • 2009.06a
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    • pp.889-892
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    • 2009
  • A microwave plasma torch at the atmospheric pressure by making use of magnetrons operated at the 2.45 GHz and used in a home microwave oven has been developed. This electrodeless torch can be used to various areas, including industrial, environmental and military applications. Although the microwave plasma torch has many applications, we in the present work focused on the microwave plasma torch operated in pure steam and several applications, which may be used in future and right now. For example, a high-temperature steam microwave plasma torch may have a potential application of the hydrocarbon fuel reforming at one atmospheric pressure. Moreover, the radicals including hydrogen, oxygen and hydroxide molecules are abundantly available in the steam torch, dramatically enhancing the reaction speed. Also, the microwave plasma torch can be used as a high-temperature, large-volume plasma burner by injecting hydrocarbon fuels in gas, liquid, and solid into the plasma flame. Lastly, we briefly report an underway research, which is remediation of soils contaminated with oils, volatile organic compounds, heavy metals, etc.

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