Innovative technologies combating with dust emission releasing into the atmosphere

Abstract

An examination of various approaches, methods, and technologies recommended as optimal for safeguarding atmospheric air against dust pollution has led to the identification of the distinct advantages associated with vortex inertial dust collectors utilizing swirling currents. These collectors, referred to as Cyclone Separation Fans (CSF), have been determined to serve as primary and auxiliary equipment in dust removal systems within the production of building materials and other industries. Traditionally employed circuit designs for dust collection systems were also subject to analysis, revealing two prevalent types: open and partially closed air circulation systems. In the latter, a portion of the cleaned airflow is reintroduced into the system, representing a key feature of the design. This assessment underscores the significance of vortex inertial dust collectors, specifically CSFs, as instrumental components in dust removal systems across various industrial sectors. Their effectiveness in mitigating dust pollution, coupled with their versatility as both primary and supplementary equipment, positions them as recommended technologies for atmospheric air protection in the production of building materials and other related industries. The recognition of open and partially closed air circulation systems in traditional dust collection circuit designs further contributes to refining and optimizing dust removal processes for enhanced environmental protection.