T. Ohkubo scite author profile

The hydroxyl radical (OH) plays an important role in plasma chemistry at atmospheric pressure. OH radicals have a higher oxidation potential compared with other oxidative species such as free radical O, atomic oxygen, hydroperoxyl radical (HO 2 ), hydrogen peroxide(H 2 O 2 ) and ozone. In this study, surface discharges on liquids (water and its solutions) were investigated experimentally. A pulsed streamer discharge was generated on the liquid surface using a point-to-plane electrode geometry. The primary generation process of OH radicals is closely related to the streamer propagation, and the subsequent secondary process after the discharge has an influence on the chemical reaction. Taking into account the timescale of these processes, we investigated the behavior of OH radicals using two different diagnostic methods. Time evolution of the ground-state OH radicals above the liquid surface after the discharge was observed by a laser-induced fluorescence (LIF) technique. In order to observe the ground-state OH, an OH [A 2 + (v = 1) ← X 2 (v = 0)] system at 282 nm was used. As the secondary process, a portion of OH radicals diffused from gas phase to the liquid surface and dissolved in the liquid. These dissolved OH radicals were measured by a chemical probe method. Terephthalic acid was used as an OH radical trap and fluorescence of the resulting 2-hydroxyterephthalic acid was measured. This paper directly presents visualization of OH radicals over the liquid surface by means of LIF, and indirectly describes OH radicals dissolved in water by means of a chemical method.

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CFC-11 destruction by microwave torch generated atmospheric-pressure nitrogen discharge

Jasiński¹,

Mizeraczyk²,

Zakrzewski³

et al. 2002

J. Phys. D: Appl. Phys.

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A novel plasma method and its application for destruction of Freons using a moderate-power (several hundred watts) microwave torch discharge (MTD) in atmospheric-pressure flowing nitrogen are presented. The capability of the MTD to decompose Freons is demonstrated using a chlorofluorocarbon CCl3F (Freon CFC-11) as an example. The gas flow rate and microwave power (2.45 GHz) delivered to the MTD were 1–3 litre min−1 and 200–400 W, respectively. Concentration of the CFC-11 in the nitrogen was up to 50%. The results show that the decomposition efficiency of CFC-11 is up to 100% with the removal rate of several hundred g h−1 and energy efficiency of about 1 kg kWh−1. This impressive performance, superior to that of other methods, is achieved without generating any significant unwanted by-products. As a result of this investigation, a relatively low-cost prototype system for Freon destruction based on a moderate-power MTD and a scrubber is proposed.

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Measurements of the velocity field of the flue gas flow in an electrostatic precipitator model using PIV method

Mizeraczyk

Kočík

Dekowski

et al. 2001

Journal of Electrostatics

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LIF imaging of OH radicals in DC positive streamer coronas

et al. 2007

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The effect of corona wire heating on the downstream ozone concentration profiles in an air-cleaning wire-duct electrostatic precipitator

Ohkubo

Hamasaki

Nomoto

et al. 1990

IEEE Trans. on Ind. Applicat.

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NO/sub x/ removal by a pipe with nozzle-plate electrode corona discharge system

Ohkubo

Kanazawa

Nomoto

et al. 1994

IEEE Trans. on Ind. Applicat.

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Removal of NOx from flue gas by corona discharge activated methane radical showers

Kanazawa

Chang

Round

et al. 1997

Journal of Electrostatics

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Altitude Variation of Cosmic-ray Neutrons

Nakamura¹,

Uwamino²,

Ohkubo³

et al. 1987

Health Physics

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The altitude variation of the cosmic-ray neutron energy spectrum and the dose equivalent rate was measured at an average geomagnetic latitude of 24 degrees N by using the high-efficiency multi-sphere neutron spectrometer and neutron dose-equivalent counter developed by the authors. The data were obtained from a 2-h flight over Japan on 27 February 1985. The neutron energy spectra measured at sea level and at altitudes of 4,880 m and at 11,280 m were compared with the calculated spectra of O'Brien and with other experimental spectra, and they are in moderately good agreement with them. The dose equivalent rate increases according to a quadratic curve up to about 6,000 m and then increases linearly between 6,000 m and 11,280 m. The dependence of dose equivalent rates at sea level and at an altitude of 12,500 m on geomagnetic latitude also is given by referring to other experimental results.

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T. Ohkubo

Observation of OH radicals produced by pulsed discharges on the surface of a liquid

CFC-11 destruction by microwave torch generated atmospheric-pressure nitrogen discharge

Measurements of the velocity field of the flue gas flow in an electrostatic precipitator model using PIV method

LIF imaging of OH radicals in DC positive streamer coronas

The effect of corona wire heating on the downstream ozone concentration profiles in an air-cleaning wire-duct electrostatic precipitator

NO/sub x/ removal by a pipe with nozzle-plate electrode corona discharge system

Removal of NOx from flue gas by corona discharge activated methane radical showers

Altitude Variation of Cosmic-ray Neutrons

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