An analysis of the ignition of coal dust clouds

## Abstract The electrostatic ignitibilities of a number of varied substances in the form of dust clouds or powders have been determined under a variety of conditions; the work is divided into three pans. Results for dust clouds of magnesium, aluminium, ferro‐manganese, zinc and silicon are given;

by previous workers 2-4, around 50 kcal. mole-1 for fuel-rich and 20 kcal. mole-1 for oxygen-rich mixtures, and that the trend with mixture strength is n~versed. That the present temperature coefficients are of general applicability was shown by studies in the presence of homogeneous and hetero~,ne

Experiments are reported giving visual observations of ignition--the emission of light or flashing--and the changes of gas composition--O:, CO:, and NO--in a laboratory drop-tube furnace fed continuously with pulverized coal and air in near-stoichiometric proportions. As the furnace is slowly heated

Dust explosion hazard exists in plants and facilities wherever combustible dusts are handled. The minimum ignition temperature of dust clouds is an important factor requiring special attention for the design of any explosion preventive measures. The present paper is confined to a study of the minimu

The critical energy required to initiate dust detonations in tubes of finite diameter depends on the structure of the reaction zone, and especially upon the length of the induction zone, which, in turn, is determined by the ignition delay time of the dust particles. To establish the induction zone l