Abstract
The Deutsch concept for electrostatic precipitator efficiency calculations makes no allowance for a direct influence of duct spacing on effective migration velocity. Such an effect must now be accepted as existing in view of large-scale and pilot precipitator test results. By and large, a proportionality between effective migration velocity and spacing seems to apply. Various possibilities are available to explain this independent influence. The most straightforward explanation appears to rest in the increased field strength at the collector surface at large spacing? when space charge is taken into account.
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