• Title/Summary/Keyword: Non-Thermal Plasma

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The Experimental Study on the Removal of Diesel Engine Pollutant Emissions Using DC Non-Thermal-Plasma(NTP) (DC 저온플라즈마를 이용한 디젤엔진 유해 배기가스 저감에 관한 실험적 연구)

  • Chae, Jae-Ou;Hwang, Jae-Won;Jung, Jee-Yong;Han, Jung-Hee;Hwang, Hwa-Ja;Kim, Seok
    • Transactions of the Korean Society of Automotive Engineers
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    • v.9 no.2
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    • pp.35-42
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    • 2001
  • The diesel engine exhaust gas is know as one of the causes to produce photochemical smog, which causes damage on environmental. However, due to the high thermal efficiency and low carbon dioxide emission, the usage of a diesel engine is prevailed. In this study, the DC non-thermal plasma technology used to the particulate matter (PM) aftertreatment. The exhaust gas characteristics and energy density were investigated on the dynamometer test bed and chassis dynamometer with CVS-75 mode in a passenger diesel car. It was reported that the smoke removal efficiency has around the 70% in the dynamometer test with 80W energy consumption and the PM removal efficiency has the 68% in the real car test. The NOx also reduced the 20% according to electrode type respectively. Considering these results, plasma technology is one of the ways to simultaneously removing method the particulate matter (PM) and NOx.

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The Study of NOx Removal Experiment and Numerical Analysis Modeling using Chemical Addition with Non-thermal Plasma (저온 플라즈마와 첨가제를 이용한 NOx 제거실험 및 수치해석)

  • Chae, J.O.;Moon, S.I.;Kim, K.Y.;Kim, S.W.;Park, Y.K.;Lee, C.M.
    • Proceedings of the KSME Conference
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    • 2000.11b
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    • pp.720-725
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    • 2000
  • To remove harmful gases from combustion exhaust gases. fundamental study on NOx removal using pulse corona discharge has been performed through experiments and simulations. The energy consumption should be decreased in order to apply non-thermal plasma technology to industry process. This work summarized the effects of $H_2O$ and Hydrocarbon additive in NOx removal efficiency. The Radical program is used to simulate high voltage discharge and the process of NOx removal. At last, experimental results were compared with simulation results to verify the reliability of this program.

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Non-thermal Plasma and $NH_3$ SCR Hybrid Process for Treating Diesel Engine Exhaust (저온 플라즈마와 $NH_3$ SCR 복합공정을 이용한 디젤엔진 배기가스의 NOx 저감 기술)

  • Cha, Min-Suk;Lee, Jae-Ok;Kim, Yong-Ho;Song, Young-Hoon
    • 한국연소학회:학술대회논문집
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    • 2002.11a
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    • pp.89-95
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    • 2002
  • A hybrid De- NOx technique of non-thermal plasma and $NH_3$ SCR process has been investigated to remove NOx from 300 hp marine engine exhaust under the low temperature conditions, i.e. $100-200^{\circ}C$. Fundamental investigation with Diesel-like simulant gas was also conducted. The performance of the present technique has been demonstrated by treating real diesel exhaust gases, in which high contents of soot, water vapor, $SO_2$, NOx, and unburned HC are included. Detailed engineering data for evaluating the feasibility of the technique are provided in the present investigation.

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The Removal of Flue Gas by Using Bidirectional Pulse Generator (양방향 펄스 전원에 의한 배기가스의 제거)

  • Jeon, Jae-Ryong;Seong, Ki-Bum;Ko, Kwang-Cheol;Kang, Hyung-Boo
    • Proceedings of the KIEE Conference
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    • 1999.07e
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    • pp.2224-2226
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    • 1999
  • Non-thermal plasma techniques is applied in many fields. Recently acid rain, global warming, ozone depletion, and smog are preeminent environmental problems. The cause for this environmental problems is the flue gas. Non-thermal plasma techniques has an attention for the solution of flue gas. Non-thermal plasma is used for the removal of flue gas composed of NOx, etc. This field has grown dramatically. This experiment is performed by using cylinder type reactor under the condition of room temperature and atmosphere pressure. NO gas is used instead of flue gas. Bidirectional pulse generator is used instead of the unidirectional pulse generator to increase the efficiency.

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Characteristics of $CH_4$ Decomposition by Plasma (플라즈마 이용 메탄 분해 특성)

  • Kim, Kwan-Tae;Lee, Dae-Hoon;Cha, Min-Suk;Ryu, Jeong-In;Song, Young-Hoon
    • Journal of the Korean Society of Combustion
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    • v.10 no.4
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    • pp.24-32
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    • 2005
  • Various types of plasma source applied in $CH_4$ decomposition process are compared. DBD by pulse and AC power, spark by pulse and AC power, rotating arc and hollow cathode plasma are chosen to be compared. The results show that $CH_4$ conversion per given unit power is relatively high in hollow cathode plasma and rotating arc that induces rather high temperature condition and that is why both thermal dehydration and plasma induced decomposition contribute for the overall process. In case of DBD wherein high temperature electron and low temperature gas molecule coexist, the process shows low conversion rate, for in rather low temperature condition the contribution of thermal dehydration is lowered. Selectivity of $C_2H_6$ and $C_2H_2$ is shown to be a good parameter of the relative contribution of plasma chemistry in the overall process. From the results we concluded that required condition of plasma source for a cost effective and high yield $CH_4$ decomposition is to have characteristics of both thermal plasma and non thermal plasma in which temperature is high above a certain threshold state for thermal dehydration and electron induced collision is maximized in the same breath.

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Application of Non-Thermal Plasma for the Simultaneous Removal of Odor and Sludge (무기악취와 슬러지 동시처리를 위한 저온플라즈마의 적용)

  • Hwang, Hyun-Jung;Ann, Hae-Young;Shin, Seung-Kyu;Song, Ji-Hyeon
    • Journal of Korean Society of Water and Wastewater
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    • v.24 no.1
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    • pp.85-92
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    • 2010
  • In this study, odorous compounds emitted from various wastewater treatment were treated with using the non-thermal plasma reaction, and the effluent gas from the plasma reactor was introduced to a waste sludge reactor to achieve simultaneous sludge reduction. Hydrogen sulfide, the model odorous compound, was removed at 70% using the plasma reaction, and greater than 99% removal efficiency was observed when treated by the sludge reactor. In addition, the sludge reactor showed a high efficiency of ozone removal. As ozone reacted with sludge, oxidation with organic matters took place, and total COD decreased by 50~60% and soluble COD increased gradually. As a result, the integrated process consisting of the non-thermal plasma and the sludge reactor can be successfully applied for the simultaneous treatment of malodorous gas and waste sludge.

Inactivation of Mycobacteria by Radicals from Non-Thermal Plasma Jet

  • Lee, Chaebok;Subhadra, Bindu;Choi, Hei-Gwon;Suh, Hyun-Woo;Uhm, Han. S;Kim, Hwa-Jung
    • Journal of Microbiology and Biotechnology
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    • v.29 no.9
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    • pp.1401-1411
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    • 2019
  • Mycobacterial cell walls comprise thick and diverse lipids and glycolipids that act as a permeability barrier to antibiotics or other chemical agents. The use of OH radicals from a non-thermal plasma jet (NTPJ) for the inactivation of mycobacteria in aqueous solution was adopted as a novel approach. Addition of water vapor in a nitrogen plasma jet generated OH radicals, which converted to hydrogen peroxide ($H_2O_2$) that inactivated non-pathogenic Mycobacterium smegmatis and pathogenic Mycobacterium tuberculosis H37Rv. A stable plasma plume was obtained from a nitrogen plasma jet with 1.91 W of power, killing Escherichia coli and mycobacteria effectively, whereas addition of catalase decreased the effects of the former. Mycobacteria were more resistant than E. coli to NTPJ treatment. Plasma treatment enhanced intracellular ROS production and upregulation of genes related to ROS stress responses (thiolrelated oxidoreductases, such as SseA and DoxX, and ferric uptake regulator furA). Morphological changes of M. smegmatis and M. tuberculosis H37Rv were observed after 5 min treatment with $N_2+H_2O$ plasma, but not of pre-incubated sample with catalase. This finding indicates that the bactericidal efficacy of NTPJ is related to the toxicity of OH and $H_2O_2$ radicals in cells. Therefore, our study suggests that NTPJ treatment may effectively control pulmonary infections caused by M. tuberculosis and nontuberculous mycobacteria (NTM) such as M. avium or M. abscessus in water.

A Study on the Operating Characteristics of Commercial Frequency Plasma Jet Torch (상용 주파수 (60Hz) Plasma Jet Torch의 동작특성에 관한 연구)

  • 전춘생;정재웅
    • 전기의세계
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    • v.24 no.1
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    • pp.75-85
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    • 1975
  • In order to develop the commercial frequency (60Hz) plasma torch of small capacity for material cutting, welding and other industrial heating, the A.C plasma jet generator of non-transfered type is made domestically and the electrode configurations of plasma torch are composed of two kinds of electrodes W-C and W-Cu, combined by thermal emission and field emission electrode materials. In this paper, the characteristics of input power, thermal efficiency, electrode consumption, the flame and forms of arc voltage and arc current for A.C plasma torch are investigated in relation to such variables as arc current, argon flow and magnetic field intensity to obtain the basic design data necessary to A.C plasma jet generator. The result are as follows; (1)The input power, thermal efficiency and electrode consumption are influenced greatly by argon flow, magnetic field intensity and nozzle materials. (2)A.C arc voltage and current are non-symmetrial, involving D.C Component. Due to this current of D.C Component, transformer core is saturated and a large abnormal current flows into the primary winding coil. In order to prevent this abnormal current flow, a condenser must be connected in series to the main discharge circuit. (3)The stability and sharpness of jet flame are improved more in the torch of W-C electrode configuration than in the torch of W-Cu electrode configuration.

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Effect of Non-thermal Dielectric Barrier Discharge Plasma by Air Volume against Mycobacterium Tuberculosis (비열 유전체장벽방전 플라즈마 발생기의 풍량에 따른 결핵균 성장억제 효능)

  • Son, Eun-Soon;Kim, Yonghee;Paik, Namwon;Lee, Ilyong;Kim, Eunhwa;Park, Hae-Ryoung;Lee, Jongseok
    • Journal of Korean Society of Occupational and Environmental Hygiene
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    • v.29 no.3
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    • pp.414-419
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    • 2019
  • Objectives: The objective of this study was to evaluate the inhibitory effect of non-thermal dielectric barrier discharge (DBD) plasma by air volume against Mycobacterium tuberculosis (MTB). Methods: Plasma generators (TB-300, Shinyoung Airtec, Seongnam-si, Korea) were operated in a 2A type biosafety cabinet. The plasma generator was set to a wind flow rate of 14 ($80m^3/h$), 18 ($110m^3/h$), and 22 ($150m^3/h$), and exposure times were set to 0 hours, 3 hours, 6 hours, 9 hours, and 24 hours. Results: The inhibitory effects of plasma at air volume 14 with prolonged exposure time of three hours was 20%, 64% at six hours, 82.3% at nine hours, and 100% after 24 hours exposure. With air volume of 18, the inhibitory effects upon plasma exposure were 36% for three hours, and 100% from 24 hours. Greater air volume resulted in greater inhibition of tuberculosis bacterial growth. In particular, the maximum inhibitory effect (100%) was shown in air volume of 22 ($150m^3/h$) after three hours of plasma exposure. Conclusions: The results showed the correlating inhibitory effects of plasma on the growth of MTB in combination with increasing plasma exposure time and air volume.

Research on the Relative Contribution of Two Electron Groups of Ar plasma with Non-thermal Equilibrium Electron Distribution (열적 비평형 전자분포를 갖는 아르곤 플라즈마의 두 전자그룹의 상대적인 기여도에 대한 연구)

  • Lee, Young Seok;Lee, Jang Jae;Kim, Si Jun;You, Shin Jae
    • Journal of the Semiconductor & Display Technology
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    • v.17 no.1
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    • pp.76-83
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    • 2018
  • The electron energy probability function (EEPF) is of significant importance since the plasma chemistry such as the rate of ionization is determined by the electron energy distribution function. It is usually assumed to be Maxwell distribution for 0-D global model. Meanwhile, it has been observed experimentally that the form of EEPF of Ar plasma changes from being two-temperature to Druyvesteyn like as the gas pressure increases. Thus, to apply the 0-D global model of Maxwellian distribution to the non-Maxwellian plasma, we investigated the relative contribution of two distinct electrons with different temperatures. The contributions of cold/hot electrons to the equilibrium state of the plasma have attracted interest and been researched. The contributions to the power and particle balance of cold/hot electrons were studied by comparing the result of the global model considering all combinations of electron temperatures with that of 1-D Particle-in-Cell and Monte Carlo collision (PIC-MCC) simulation and the results of studies were analyzed physically. Furthermore, comparisons term by term for variations of the contribution of cold/hot electrons at different driving currents are presented.