SU1606817A1 - System for radiation heating of rooms - Google Patents

Abstract

The invention relates to heat engineering and reduces the energy costs of the system. Groups 4 and 5 of heat-radiating elements 6 are communicated by a bypass pipeline (PT) 7, with the outlet (P) 3 of the heat generator 1 connected to group 4, and its input P 2 through adjustable louvers 8 and the fan 9 with the bypass duct 10 to group 5 The heat generator 11 is installed in the UT 7, and its input and output P 12 and 13 are communicated by the bypass PT 16 with an adjustable element 17. This embodiment provides for posonny regulation of the degree of heating of various building premises, reduces the load on the heat generators and creates the possibility of shutting off part of the heat log generators while maintaining system performance. 2 Il.

Description

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The invention relates to heat engineering and can be used for radiant heating of industrial buildings,

The purpose of the invention is to reduce energy costs.

FIG. 1 is a schematic diagram of a radiant room heating system; in fig. 2 is a plot of pressure distribution along the length of the radiant room freeze system.

The radiant room heating system contains a heat generator 1 (for example, a contact gas heater) with inlet 2 and outlet 3 nozzles (Fig. 1) and at least two groups 4 and 5 of radiating elements 6 communicated with each other by means of an overflow pipe 7.

The outlet 3 of the heat generator 1 is connected to one group (4) of heat-emitting elements 6, and the inlet 2 2 through adjustable louvers 8 and the fan 9 with the exhaust gas flue 10 to another group (5) of elements 6.

In the bypass pipeline 7 between each respective pair of groups 4 and 5, an additional heat generator 11 is installed, having an inlet 17 and an outlet 13 branch pipes with adjustable elements 14 and 15, communicated with each other by means of a bypass pipeline 16 with an adjustable (Element 17. the duct 10 is located element 18.

The system of radiant heating works as follows.

From the heat generator 1, the gas-air mixture with a given temperature enters through the outlet nozzle 3 into the first group 4 of heat-insulating elements 6.

Cooled in the first group of 4 elements 6, the gas-air mixture through the bypass pipeline 7 through the adjustable element 14 with the open adjustable element 15 enters an additional heat generator 11, where the mixture is heated to the calculated temperature, and then the subsequent group 5 of heat-radiating elements 6 is fed.

The gas-air mixture, cooled in the subsequent group 5 of elements 6, is again supplied by the fan 9 through the adjustable louver B and the inlet 2 to the heat generator 1.

In this case, part of the gas-air mixture is discharged through the exhaust duct 10 a

atmosphere, and the use of adjustable louvers 8 provides the calculated distribution of overpressure and vacuum over the length of the heating system (Fig. 2).

At minimum values of the heat loss of the premises, the entire flow rate of the gas-air mixture heated in the heat generator 1 is bypassed after the first group 4 of the elements 6 with the open regulated element 17 and the closed elements 14 and 15 through the bypass pipeline 16 without using an additional heat generator

With average values of heat loss of the premises, one part of the gas-air mixture heated in the heat generator 1 is bypassed through a bypass pipeline 16, and the other part of the mixture with heated adjustable elements 14 and 15 is heated in the additional heat generator 11.

At the maximum calculated values of heat loss from the premises, the entire flow rate of the gas-air mixture heated in the heat generator 1 is heated in the additional heat generator 11 with the adjustable element 17 closed.

The use of the invention significantly reduces the energy costs of heating during multi-stage heating of the heat carrier gas-air mixture, provides a poson regulation of the degree of heating of various premises of the building, reduces the load on the heat generators, and makes it possible to turn off part of the heat generators while maintaining the efficiency of the heating system.

Claims (1)

Invention Formula A radiant room heating system containing a heat generator with inlet and outlet nozzles and at least two groups of heat insulating elements, interconnected by means of an overflow pipe, the outlet nozzle of the heat generator connected to one group of elements, and the inlet through the adjustable louver and fan with the exhaust duct - to another, characterized in that, in order to reduce energy costs, the system is equipped with at least one additional heat generator installed in the bypass pipe and having a water inlet and outlet port, communicating with each other by a bypass pipe with adjustable elements. CF omucfnu ecf oe pressure FIG. 2 UroVe b atmospheres // 0 oa8 / 7effu / f 8 rto / eufe / t / u