Prospects for reducing resistance of ash collecting apparatus

Abstract

Various variations of reducing the aerodynamic resistance of devices with a complex flow-through configuration are considered. About 50% of power plants in the Russian Federation operate on coal, with two-stage cleaning used in the ash collection process. Modern coarse ash collectors allow achieving an efficiency of 55 – 80% depending on their service life. It is advisable to reduce the number of cleaning stages by upgrading them with modern cleaning devices that allow achieving high efficiency of cleaning the dusty flow and subjecting this cleaning complex to less repair work. IVACis an inertial-vacuum ash collector, which can achieve the capture of a wide range of studied particles (1 – 100 μm) with an efficiency of up to 99%. This device was tested at the Omsk CHP Plant, but it was found to feature an increased aerodynamic resistance, as well as high efficiency. The objective of this work is to keep an aerodynamic resistance to 660 Pa (the resistance of the cyclone apparatus so that the apparatus can be used as the first and, consequently, as two stages of purification) while maintaining the efficiency of the apparatus. The results of changing the configuration of the flow part of the IVAC are analyzed, the model submitted for patenting after numerous is considered. The research methodology is the analysis of a numerical experiment in ANSYS CFX using the k-ε mathematical model (ash mass content of 70 g / kg; One-Way Coupling). In conclusion, recommendations are proposed for further prospects of IVAC research.