Experimental Study on Safe Performance of Nozzle-Type Electrostatic Neutralizer
スポンサーリンク
概要
- 論文の詳細を見る
The safe performance of a nozzle-type electrostatic neutralizer was examined experimentally in inflammable gas (ethylene)–air mixtures. A 100 M$\Omega$-coupled electrode produced ion pairs safely for reducing static charges from polymer materials, and incendiary discharges were suppressed by the resistor and voltage supplied to the electrode. The performance of the neutralizer (flange-type) driven with an AC (50 Hz) or DC high-voltage power source was also evaluated with a full-size pneumatic powder-transport system. It was confirmed that the nozzle-type neutralizer is markedly effective for reducing electrostatic charges from polymer materials; however, several disadvantages were also noted.
- Japan Society of Applied Physicsの論文
- 2005-07-10
著者
-
SUZUKI Teruo
Kasuga Denki Co. Ltd.
-
Yamaguma Mizuki
Independent Administrative Institution Japan National Institute Of Occupational Safety And Health
-
Choi Kwang
Independent Administrative Institution Japan National Institute Of Occupational Safety And Health
-
Yamaguma Mizuki
Independent Administrative Institution, National Institute of Industrial Safety, 1-4-6 Umezono, Kiyose, Tokyo 204-0024, Japan
-
Kodama Tsutomu
Independent Administrative Institution, National Institute of Industrial Safety, 1-4-6 Umezono, Kiyose, Tokyo 204-0024, Japan
-
Mogami Tomofumi
Kasuga Denki Inc., 16-18 Higashi Kamata 2-chome, Ota-ku, Tokyo 144-0031, Japan
-
Choi Kwang
Independent Administrative Institution, National Institute of Industrial Safety, 1-4-6 Umezono, Kiyose, Tokyo 204-0024, Japan
関連論文
- Removal of Fine Powders from Film Surface. I. Effect of Electrostatic Force on the Removal Efficiency
- Electric Spark Ignition Eneries of Coating Polymer Powders
- Ignitability of sprayed liquids due to an electrostatic spark
- Removal of Fine Powders from Film Surface. II. Effect of Operating Parameters on the Removal Efficiency
- Monitoring and Scale-Up of Static Electrification during Solid-Liquid Mixing
- Experimental Study on Safe Performance of Nozzle-Type Electrostatic Neutralizer
- Experimental Study on Electrostatic Spark Ignitability of Coating Polymer Powders in Electric Field with Corona Discharge