RU2019123807A - VORTEX DUST COLLECTOR WITH FIRE AND EXPLOSION PROTECTION SYSTEM - Google Patents

Claims (1)

A vortex dust collector with a fire and explosion safety system, containing a cylindrical chamber, located in its lower part, dust-collecting and axial inlet of dusty gas with a baffle plate, located in the upper part of the chamber, peripheral inlet of the secondary flow and an axial branch pipe for removing purified gas, installed along the axis of the chamber and equipped with a rotation drive a rotor in the form of a body of revolution, which is equipped with a blade fixed on its surface, having a winding direction coinciding with the direction of gas rotation, the free end of the rotor is located in the axial inlet, being a swirler and fairing for the primary flow of dusty gas, and in the axial branch pipe for the purified gas, a filter element is placed, made in the form of a washer, fixed with its outer surface on the inner surface of the pipe, while the dust collector is connected to a fine filter with a built-in fire and explosion safety system for the dust collection process, containing a frame structure with a fence a support part with a dust collection hopper and a dust-collecting trolley installed on the base, as well as the inlet and outlet ducts of the filter section of the dust collector with bag-type filters, respectively, with inlet and outlet nozzles, while a collector with system nozzles is installed in the inlet duct of the dust collection device fire and explosion safety with a control unit electronically connected to a common microprocessor, a bag filter regeneration system with a pulse blowing mechanism, which is equipped with a control unit for each solenoid valve of the purge nozzles and is connected to a common regeneration control unit, electronically connected to a common microprocessor, while in the input box a temperature sensor is installed in the filter section, an emergency dust level sensor is installed in the dust collection bin, and an automatic thermal sensor-detector is installed in the outlet box of the filter section, the outputs from which are connected to a common microprocessor located m in a control cabinet, characterized in that each of the nozzles of the system for ensuring fire and explosion safety of the device is made in the form of an acoustic nozzle with a double inlet of a liquid containing a body with a glass and a rod with a conical collar placed inside, forming a generator of acoustic oscillations in the form of a nozzle and a resonator made in the form of concentric annular slots, a ring with a conical surface connected to the body, and an atomizer fixed in the body by means of a ring and made in the form of an annular cavity bounded by a cylindrical sleeve in which holes for fluid supply are evenly located, the resonator is made in the form of at least one, spherical cavity located in the body of the central rod, coaxially located in the glass, coaxial with the body, and the spherical cavity is connected by a calibrated hole with an annular slot formed by the end planes of the glass and the rod from the side of the conical surface of the collar, and the rod ny is located with the possibility of fixed movement along the axis of the body by means of a threaded connection, fixed by locknuts, while the resonator is configured to regulate the generated frequency of acoustic vibrations by adjusting the width of the annular slot formed by the end planes of the glass and the rod from the side of the conical surface of the collar, by installing between the bottom glass and the end of the rod on the side opposite to the conical surface of the collar, calibrated spacers, the thickness of which corresponds to a given frequency of acoustic vibrations, the resonator is made in the form of a toroidal cavity, the axis of which is located coaxially with the body, and the cavity is connected by at least one calibrated hole with an annular slot formed by the end planes of the glass and the rod on the side of the conical surface of the collar, while in the body of the central rod with the head, coaxially located in the glass, coaxial with the body, there is a tube for the central liquid injection with at least three branches located perpendicular to the conical surface of the central rod head, and an external diffuser of the atomizer is coaxially attached to the lower part of the nozzle body, and an internal perforated diffuser is attached to the center of the end surface of the central rod head, so that the outlet sections of the external and internal diffusers lie in the same plane perpendicular to the axis of the resonator, and an additional resonator is attached to the center of the end surface of the head of the central rod by means of a rod, which is made in the form of a cylinder, on the side surface of which at least three calibrated resonant choke, and the frequencies of acoustic vibrations are regulated by selecting the diameters of the chokes, while to the bottom of the additional resonator, which is made in the form of a cylinder, on the side surface of which there are at least three calibrated resonant chokes, axisymmetric o a resonator of a larger volume is attached, made in the form of a truncated cone with a rigid base, and a resonant choke located opposite to the base, connecting the cavities of the resonators, while coaxially with the external diffuser of the atomizer, a cylindrical annular shell is additionally attached to it, in which to create a directed finely dispersed two-phase flow , at least two diametrically located Helmholtz resonators in the form of spherical shells with resonator necks, the parameters of which are selected depending on the required dispersion of a finely dispersed two-phase flow.