SU1416745A1 - Power plant - Google Patents

Abstract

The invention relates to the field of energy converters and allows an increase in the power of the installation. Each section 3 is designed as a series of horizontal pipes 4 placed one above the other. Rows of pipes, bent in a spiral, are located at an angle to the radius of the collector 2 and are oriented in one direction in the circumferential direction. With this arrangement, the heated air coalesces in spirals, forming an upward vortex flow through pipe 1. At the central part of the vortex, a region of reduced pressure is formed, where the air from the surrounding space is sucked in with greater intensity. The collector has a transparent corrugated coating 6, and in the area of depressions corrugation-support posts 7 and drainage holes. 2 hp f-ly. 5 il.

Description

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1

The invention relates to energy converters and relates to devices using upstream airflow energy for operation.

The purpose of the invention is to increase the installation capacity.

FIG. 1 shows a simplified energy installation; in fig. 2 shows the air intake manifold of the installation, top view; Fig. 3 shows an embodiment of the collector; in fig. 4 shows a section of a tubular air preheater; FIG. 5 - collector element with a transparent corrugated coating.

The power plant comprises a exhaust pipe 1, a turbine (not shown), connected to the lower part of the pipe 1 intake manifold 2 and installed in it around the circumference of section 3 of a tubular air preheater. Each section 3 is made in the form of a row of horizontal pipes 4 placed one above the other, with the rows of pipes arranged at an angle to the radius of the collector 2 and oriented in one direction in the circumferential direction. Each row of pipes 4 is bent in a spiral 5, the intake manifold 2 is provided with a transparent corrugated coating 6, having supporting elements 7 and corrugations located in the rows of corrugations of the corrugations on the rows of pipes 4. ribs 9. Dp supply to the pipes 4 of the coolant, preheating the air, they can be connected to the contour of the thermal, nuclear power plant or any other source of heat.

During operation of the installation, the air in the manifold 2, cooling the fins 9 with pipes 4 sections 3, is heated. The heated air in the manifold 2 is coiled in spirals, forming an upward vortex flow through pipe 1. In the central part of the vortex, an obstruction is formed

a low pressure area where air from the surrounding space is sucked in with great intensity. The location in this area of the turbine, which performs useful work, makes it possible to significantly increase the capacity of the installation. Additional air heating and installation power increase

Q is effected by thermal solar radiation penetrating through the coatings 6 inside the collector 2 and absorbed by the walls of the pipes 4, the fins 9 and the elements 7. Atmospheric

5, precipitations in the form of rain, hail or snow deposited on the coating 6 do not load the latter, but are removed in the form of streams and water droplets through the drainage holes 8, thus ensuring reliable operation of the transparent coating 6 and the entire installation.

Claims (3)

Invention Formula 5 1. A power plant containing an exhaust pipe, a turbine, an intake manifold connected to the lower part of the pipe and installed in it around the circumference of the pipe section of the open air preheater, so that, in order to increase power, each section made in the form of a row of horizontal pipes placed one above the other, with the rows of pipes arranged at an angle to the radius of the collector and oriented in one direction in the circumferential direction. 2. Installation according to p. 1, O TL and 1H a5 So that each row of pipes is bent in a spiral. 3. Installation according to claim 1, which means that the air intake manifold is provided with a transparent corrugated coating having supporting elements and drainage holes in the corrugation zone of the corrugations and fixed tops of the corrugations on rows of pipes. fig.Z and 2 figl