OZONE GENERATION IN POSITIVE CORONA ELECTROSTATIC PRECIPITATORS

Ozone generation is one of the most important limitations in the design of an efficient electrostatic precipitator for use in air-conditioning systems. An experimental formula is derived for calculation of the amount of ozone generated by a positive corona discharge between a round wire and a coaxial cylinder. The formula uses a dimensionless constant multiplying the following design parameters of an electrostatic precipitator: the total corona current, the product of the average electric field in the corona sheath with the radius of the wire (corona potential function), and the inverse of the total air flow. For a clean wire in air at constant pressure, temperature, and humidity, the dimensionless constant can be used for all values and combinations of these design parameters encountered in practice. A practical application of the formula is given for a prototype electrostatic precipitator, and the limitations are discussed. Copyright © 1969 by The Institute of Electrical and Electronics Engineers, Inc.