Scaleable inter-digitized tine non-thermal plasma reactor

A scaleable inter-digitized tine non-thermal plasma reactor element includes at least one pair of inter-digitized tine 12 end connectors 10 connected together defining gas passages 34 between the tines 12. The prepared inter-digitized tine reactor element has a scaleable height, width, and length. C...

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Hauptverfasser:	NELSON, DAVID EMIL, SILVIS, THOMAS W, HEMINGWAY, MARK DAVID
Format:	Patent
Sprache:	eng ; fre ; ger
Schlagworte:	BASIC ELECTRIC ELEMENTS ELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR ELECTRICITY PLASMA TECHNIQUE PRODUCTION OF ACCELERATED ELECTRICALLY-CHARGED PARTICLES OR OFNEUTRONS PRODUCTION OR ACCELERATION OF NEUTRAL MOLECULAR OR ATOMICBEAMS
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creator	NELSON, DAVID EMIL SILVIS, THOMAS W HEMINGWAY, MARK DAVID
description	A scaleable inter-digitized tine non-thermal plasma reactor element includes at least one pair of inter-digitized tine 12 end connectors 10 connected together defining gas passages 34 between the tines 12. The prepared inter-digitized tine reactor element has a scaleable height, width, and length. Connectors 10 are defined that enable efficient non-thermal reactor element fabrication for widely varying applications having various flow throughput and constituent reduction requirements. An inter-digitized tine 12 reactor element is provided having several zones that are selectively powered so that the effective length of the reactor can be adjusted during operation for optimal efficiency over a range of operating conditions Structural carrier connectors 10 and structural conductor connectors are provided 26. Structural carrier connectors 10 have tines 12 defined in a side to side basis comprising a high-k dielectric layer 24, electrode layer 22, structural dielectric 20, electrode layer 22, and high-k dielectric layer 24. Structural conductor connectors 26 have tines 12 defined in a side basis comprising a high-k dielectric layer 24, structural conductor 22, and high-k dielectric layer 24. The scaleable reactors include double 32, 48, single 54 or null 56 dielectric barrier inter-digitized tine non-thermal plasma reactors. The double 32, 48 dielectric barrier reactor has plasma cells 34 bounded by a dielectric barrier 24 in the plasma direction. The single dielectric barrier 54 reactor has plasma cells bounded by a dielectric barrier 24 on one side and by an electrode 22 on the opposite side, in the plasma direction. The null dielectric barrier reactor 56 has plasma cells 34 bounded by electrodes 22 on each side, in the plasma direction.
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The prepared inter-digitized tine reactor element has a scaleable height, width, and length. Connectors 10 are defined that enable efficient non-thermal reactor element fabrication for widely varying applications having various flow throughput and constituent reduction requirements. An inter-digitized tine 12 reactor element is provided having several zones that are selectively powered so that the effective length of the reactor can be adjusted during operation for optimal efficiency over a range of operating conditions Structural carrier connectors 10 and structural conductor connectors are provided 26. Structural carrier connectors 10 have tines 12 defined in a side to side basis comprising a high-k dielectric layer 24, electrode layer 22, structural dielectric 20, electrode layer 22, and high-k dielectric layer 24. Structural conductor connectors 26 have tines 12 defined in a side basis comprising a high-k dielectric layer 24, structural conductor 22, and high-k dielectric layer 24. The scaleable reactors include double 32, 48, single 54 or null 56 dielectric barrier inter-digitized tine non-thermal plasma reactors. The double 32, 48 dielectric barrier reactor has plasma cells 34 bounded by a dielectric barrier 24 in the plasma direction. The single dielectric barrier 54 reactor has plasma cells bounded by a dielectric barrier 24 on one side and by an electrode 22 on the opposite side, in the plasma direction. 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The prepared inter-digitized tine reactor element has a scaleable height, width, and length. Connectors 10 are defined that enable efficient non-thermal reactor element fabrication for widely varying applications having various flow throughput and constituent reduction requirements. An inter-digitized tine 12 reactor element is provided having several zones that are selectively powered so that the effective length of the reactor can be adjusted during operation for optimal efficiency over a range of operating conditions Structural carrier connectors 10 and structural conductor connectors are provided 26. Structural carrier connectors 10 have tines 12 defined in a side to side basis comprising a high-k dielectric layer 24, electrode layer 22, structural dielectric 20, electrode layer 22, and high-k dielectric layer 24. Structural conductor connectors 26 have tines 12 defined in a side basis comprising a high-k dielectric layer 24, structural conductor 22, and high-k dielectric layer 24. The scaleable reactors include double 32, 48, single 54 or null 56 dielectric barrier inter-digitized tine non-thermal plasma reactors. The double 32, 48 dielectric barrier reactor has plasma cells 34 bounded by a dielectric barrier 24 in the plasma direction. The single dielectric barrier 54 reactor has plasma cells bounded by a dielectric barrier 24 on one side and by an electrode 22 on the opposite side, in the plasma direction. 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The prepared inter-digitized tine reactor element has a scaleable height, width, and length. Connectors 10 are defined that enable efficient non-thermal reactor element fabrication for widely varying applications having various flow throughput and constituent reduction requirements. An inter-digitized tine 12 reactor element is provided having several zones that are selectively powered so that the effective length of the reactor can be adjusted during operation for optimal efficiency over a range of operating conditions Structural carrier connectors 10 and structural conductor connectors are provided 26. Structural carrier connectors 10 have tines 12 defined in a side to side basis comprising a high-k dielectric layer 24, electrode layer 22, structural dielectric 20, electrode layer 22, and high-k dielectric layer 24. Structural conductor connectors 26 have tines 12 defined in a side basis comprising a high-k dielectric layer 24, structural conductor 22, and high-k dielectric layer 24. The scaleable reactors include double 32, 48, single 54 or null 56 dielectric barrier inter-digitized tine non-thermal plasma reactors. The double 32, 48 dielectric barrier reactor has plasma cells 34 bounded by a dielectric barrier 24 in the plasma direction. The single dielectric barrier 54 reactor has plasma cells bounded by a dielectric barrier 24 on one side and by an electrode 22 on the opposite side, in the plasma direction. The null dielectric barrier reactor 56 has plasma cells 34 bounded by electrodes 22 on each side, in the plasma direction.</abstract><edition>7</edition><oa>free_for_read</oa></addata></record>
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subjects	BASIC ELECTRIC ELEMENTS ELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR ELECTRICITY PLASMA TECHNIQUE PRODUCTION OF ACCELERATED ELECTRICALLY-CHARGED PARTICLES OR OFNEUTRONS PRODUCTION OR ACCELERATION OF NEUTRAL MOLECULAR OR ATOMICBEAMS
title	Scaleable inter-digitized tine non-thermal plasma reactor
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