2016
DOI: 10.1002/ctpp.201600011
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Discharge Characteristics of Microwave Plasma in Ethanol Solution

Abstract: An apparatus was designed for generating plasma in ethanol solution. The plasma was generated on the top of the electrode by applying microwave radiation of 2.45 GHz. The results showed that ignition power decreased with increasing temperature of ethanol solution. However, ignition power increased with increasing pressure and point electrode radius of curvature. Plasma and bubbles were generated periodically in the same manner. The electron temperature of the plasma increased with increasing power, while it de… Show more

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Cited by 6 publications
(2 citation statements)
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“…Cross-section of the microwave discharge reactor system with waveguide parts and plasma torch. The following details are numerated: Nozzle with central channel for feeding the aluminium (Al) wire (1); photos of the nozzle with a tip from stainless steel (1a) and molybdenum (1b); inner quartz tube of 30 mm outer diameter and 2.5 mm wall thickness (2); outer quartz tube of 56 mm outer diameter and 3 mm wall thickness (3); cavity for water cooling (4); waveguide slit (25 mm × 4 mm) for plasma observation in vertical orientation (5); zoomed photograph of the active plasma region (6); photograph of the discharge from the top (7); photograph of the plasma source with horizontal orientation of the waveguide slit and in the outer quartz tube (8) containing the characteristically yellow coloured afterglow region of the plasma. The observation region of the active plasma zone is marked as (9) and the afterglow as (10) The image of the discharge center was projected onto the entrance of a light fibre by a quartz lens of focal length 50 mm.…”
Section: Figurementioning
confidence: 99%
See 1 more Smart Citation
“…Cross-section of the microwave discharge reactor system with waveguide parts and plasma torch. The following details are numerated: Nozzle with central channel for feeding the aluminium (Al) wire (1); photos of the nozzle with a tip from stainless steel (1a) and molybdenum (1b); inner quartz tube of 30 mm outer diameter and 2.5 mm wall thickness (2); outer quartz tube of 56 mm outer diameter and 3 mm wall thickness (3); cavity for water cooling (4); waveguide slit (25 mm × 4 mm) for plasma observation in vertical orientation (5); zoomed photograph of the active plasma region (6); photograph of the discharge from the top (7); photograph of the plasma source with horizontal orientation of the waveguide slit and in the outer quartz tube (8) containing the characteristically yellow coloured afterglow region of the plasma. The observation region of the active plasma zone is marked as (9) and the afterglow as (10) The image of the discharge center was projected onto the entrance of a light fibre by a quartz lens of focal length 50 mm.…”
Section: Figurementioning
confidence: 99%
“…This type of plasma has been an object of continuous attention and development. In general, microwave discharges (MWDs) are characterized by high flexibility of design and adaptability to particular applications. The design of MWDs has considerable influence on its operation range, for example, available pressure ranges, types of useable feed gases, power dissipation processes, excited discharge volumes, and also vacuum compatibility, and might strongly influence the discharge parameters, including the plasma composition, gas temperature, and electron energy distribution function.…”
Section: Introductionmentioning
confidence: 99%