RU2019130267A - METHOD FOR RECOVERY OF HEAT OF HEATED AIR AND HEAT RECOVERY - Google Patents

Claims (2)

1. A method for utilizing the heat of heated air, which consists in the fact that fans are installed in the channels for the supply and exhaust air, and the chamber with the regenerative heat exchanger is placed perpendicular to these channels, the chamber is made in the form of a housing, the walls of which are lined with insulated panels and connected to the channels for supply and exhaust air, and the regenerative heat exchanger is made in the form of a retractable frame, divided by a partition into two cavities connected to the channels, and in the partition the supports of the drum core are fixed, formed by ribbons of corrugated aluminum foil tightly wound on the core, characterized in that the peripheral part a drum, made in the form of a ring, is rigidly connected to the core and at least two screw blades are fixed on it, and air purification filters are placed in the channels for the supply and exhaust air, the corrugations of the aluminum foil tape of the drum are made in cross-section along the curve of the second and higher orders, orpolygonal shape, both one-sided and double-sided, and the grooves of the corrugation in the previous layer of the tape fall on the top of the corrugation of the next layer of the tape, and the drum is formed by one tape wound on the core with a gap along the Archimedes spiral, rigidly connected along both edges by round-shaped nets or perforated round aluminum plates, and a dispersed material with open pores and with a high coefficient of heat absorption is placed in the gap between the side surfaces of the tape. 2. The heat exchanger of heated air, containing a housing, channels for supply and exhaust air with fans, a chamber with a regenerative heat exchanger located perpendicular to the channels, the body is made in the form of a parallelepiped, the walls of which are made of insulated panels interconnected by quick-acting locks, and a regenerative heat exchanger is a retractable frame, divided into two cavities by a partition, in which the supports of the drum core are fixed, formed by ribbons of corrugated aluminum foil tightly wound on the core, and on the peripheral part of the drum, made in the form of a ring, rigidly connected to the core by means of three radial spokes, at least two screw blades are fixed for its rotation by air flows, and the partition of the frame, with a drum attached to it, forms channels connected to channels for supply and exhaust air, each of which contains air purification filters, which differ the fact that the dispersed material with open pores and with a high coefficient of heat assimilation is made in the form of a perforated shell of an ellipsoid of revolution with a perforation coefficient of not more than 70%, the cavity of which is filled with inert bodies in the form of at least twelve, connected in a block of three-blade propellers, projection which on the plane of the drawing fits into a circle with a center coinciding with the center of one of them, while in the center of the shell of the ellipsoid of revolution there is a perforated spherical shell with a perforation coefficient of not more than 70%, the cavity of which is filled with inert bodies in the form of a ball, on the surface of which blind holes of a hemispherical shape, while the dimensions of inert bodies are 10% larger than the dimensions of perforations, or in the form of a perforated shell of an ellipsoid of revolution, in which, along with a nozzle in the form of three-blade propellers and a perforated spherical shell with inert bodies in the form of a ball, bodies in the form of a ball are placed, on the surface spine of which blind holes of hemispherical shape are made, having smaller dimensions, allowing the most compact filling of the perforated shell of the ellipsoid of revolution.