CS234792B1 - Regenerative air heater - Google Patents

Abstract

The purpose of the invention is to utilize the direct reverse movement of the heat exchanger surfaces from the heat accumulation area to the heat emission area and vice versa. This purpose is achieved by the flue gas pipe, divided into two branches and the air pipe, opening into the exchanger space, in which a trolley with heat accumulation filling is placed on rails. The flue gas pipe is equipped with flaps before and after the branching, allowing individual branches to be opened and closed simultaneously with the movement of the trolley. The invention can be used in the energy industry in combustion equipment, as well as in the chemical and pharmaceutical industries, in large-scale agricultural production, etc.

Description

The invention relates to a regenerative air heater for industrial purposes utilizing the waste heat of flue gases leaving industrial plants or the flue gas heat from the media burned for this purpose.

Conventional regenerative heaters manufactured under license from the Swedish company Ljungstrom use rotary motion for this purpose and their design is a source of a number of problems (for example, complicated and not very effective sealing of all contact areas, sagging centrally mounted rotor, complicated transition pieces into circular sections etc.).

These drawbacks are largely eliminated by the regenerative air heater according to the invention, which consists of a flue gas duct divided into two branches with an air duct between them and a common heat exchanger space in which a trolley is placed on the rails. with heat storage charge, connected with reversible drive with double time switch.

The regenerative air heater of the invention advantageously utilizes the direct return movement of the heat exchanger surfaces from the heat storage areas to the heat emitting areas and vice versa. Its advantage is also simple and unpretentious design arrangement.

An exemplary embodiment of a regenerative air heater according to the invention is shown schematically in the accompanying drawing, in FIG. 1 in front view and in FIG. 2 in side view.

The limit switches 12 are located on the side walls of the heat exchanger compartment 5. The two branches of the flue gas duct 1, provided with guide vanes 13 and a common shut-off flap 14, are connected again. An air duct 15 with guide vanes 16 is introduced between the two branches of the flue gas duct 1.

The media flows through the flue gas duct 1 and the air duct 5 in the direction of the arrows. In the extreme position of the flaps 2 and flaps 14, one flue gas branch is closed and the other flows hot flue gas and heats the carriage's heat storage charge 7. The other half transfers heat to the air through the air duct 15. At the time specified by the timer, the carriage 7 it moves to the second limit position while simultaneously adjusting the flaps 2 and flaps 14 and the drive is switched off by the limit switch 12. This cycle is repeated continuously.

The invention can be used in power engineering for combustion plants, in the chemical, pharmaceutical industry, as well as in large-scale agricultural production and the like.

Claims (3)

SUBJECT Regenerative air heater, characterized in that it consists of a flue gas duct (1) divided into two branches between which an air duct (15) is arranged and a common heat exchanger space (5) in which a trolley is placed on the rails (6) (7) with a heat storage charge, connected to a reversing drive (11) with a timing switch connected. 2. A regenerative air heater according to claim 1, characterized in that the flue gas duct (1) is provided with joint-operated flaps (2) and flaps (14) at the point of branching and reconnection. Regenerative air heater according to claim 1, characterized in that end switches (12) defining the path of the carriage (7) are located in the side walls of the heat exchanger space (5).