Title: Experimental investigation into performance characteristics of reversed flow cyclone separators
Authors: Omer Sendogan; Irfan Karagoz; Atakan Avci; Ali Surmen
Addresses: Department of Mechanical Engineering, Uludag University, 06059 Bursa, Turkey ' Department of Mechanical Engineering, Uludag University, 06059 Bursa, Turkey ' Department of Mechanical Engineering, Uludag University, 06059 Bursa, Turkey ' Department of Mechanical Engineering, Uludag University, 06059 Bursa, Turkey
Abstract: Cyclone separators have been extensively used both for particle sampling and particle removal from fluids, air or process gases in the field of air pollution control and in industry. In this experimental study, effects of inlet velocity, inlet shape and cyclone length on the cyclone collection efficiency and pressure losses were investigated. A new cyclone design without conical part and its performance were also presented. Experiments show that optimum inlet size and cyclone length can be found for better collection efficiency at a specified flow rate. Experimental results from the tests on the new cyclone are evaluated and compared with the results in conventional cyclone. Results show that the new cyclone gives better efficiency comparing to the conventional cyclone for the same cyclone diameter and inlet velocity.
Keywords: particle collection efficiency; pressure drop; reversed flow cyclone separators; air pollution control; inlet velocity; inlet shape; cyclone length; pressure loss.
International Journal of Global Warming, 2014 Vol.6 No.2/3, pp.339 - 349
Received: 10 Oct 2012
Accepted: 03 Jun 2013
Published online: 02 Jul 2014 *