H.-R. Froechtenigt scite author profile

An analysis of the dependence of the minimum ignition energy MIE of a given explosive atmosphere on voltage and capacitance has shown that the charge Q transferred by a spark is a more suitable criterion than the MIE to describe its incendivity because it much less depends on voltage and gap width. Tables are presented which allow the determination of the minimum transferred charge Q min necessary to achieve spark ignition for a number of different explosive atmospheres. It was found that the values for spark discharges are identical with the values for brush discharges determined up to now.In the case of single brush or spark discharges, Q can be easily obtained by charging a product as highly as possible in dry climate. Then a discharge to a ball electrode connected to the input of a coulombmeter is provoked. After removal of the electrode from the remaining electric field the displayed value is read and compared with the threshold value for Q.In the case of multiple discharges, e.g. from high voltage electrodes or textile materials, a high frequency shunt resistance connected to a quick oscilloscope is placed in the earth line of the ball electrode and the value for Q = ∫ ∫ ∫ ∫ I dt is read. The proposed method is not suitable for determining the incendivity of permanent electric arc discharges.

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H.-R. Froechtenigt

Determining the Incendivity of Electrostatic Discharges Without Explosive Gas Mixtures

Determining the incendivity of electrostatic discharges without explosive gas mixtures

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