RU2684675C1 - Heating and ventilation system of the room by utilization of waste smoke gases of the boiler house with a dependent temperature control system - Google Patents

Abstract

FIELD: power engineering.SUBSTANCE: invention relates to energy saving and can be used for heating and ventilation of residential premises, premises with temporary stay of people and non-residential premises. Essence of the proposed invention consists in the fact that the room heating and ventilation system comprises a collector system laid in the structure of the floor of the room, combined with it at least one flue duct, air duct laid in collector system plane with installed in it at least one axial channel fan and check valve, smoke exhauster located in flue, gates installed in separate sections of chimney and in each air duct, holes for intake and discharge of air, as well as automation system with controller.EFFECT: object of the invention is to optimize the process of heating and ventilation of rooms using flue gases of a nearby boiler house by creating a gas mode of the room that satisfies the conditions of human being in it.1 cl, 2 dwg

Description

The invention relates to the field of energy saving and can be used for heating and ventilation of residential premises and premises with the temporary stay of people.

The known system of heating and ventilation of the room using the heat of the outgoing flue gases by feeding them into the chimney placed in the floor structure, maintaining a comfortable temperature mode of the room and the joint removal of the exhaust flue gases and air into the atmosphere. At the same time, the room temperature is carried out according to the parameters of flue gases (Boiler installations. Volume II. Edited by E.I. Roma. M. —L .: Gosenergoizdat, 1946, pp. 487-497, fig.532, 541, 544 ).

The disadvantage of this system is the inefficient regulation of the temperature of the room and the violation of its gas regime, by combining the internal volume of the room and the volume of the flue.

The closest technical solution is the heating system of non-residential premises near gas boilers, described in the method of heating and ventilation of non-residential premises (see patent RU 2473845 C1, F24D 10/00, published Jan. 27, 2013) using a traditional ventilation system and heating by supplying in the floor construction there is a chimney of flue gases from a nearby boiler house and subsequent heating of the room with their heat. At the same time, temperature control is carried out by controlling the flow of gases and air supply to the chimney from the room.

The disadvantage of this system is the combination of the internal volume of the room with the volume of the chimney and as a consequence of the violation of the gas regime in it, which does not allow to use it for a permanent stay of people.

 The objective of the invention is to optimize the process of heating and ventilation of premises using the heat of flue gases of the nearby boiler house by creating a gas mode of the room that satisfies the conditions of human stay in it.

 The technical result is the exception of the receipt of the volume of hazards, leading to a violation of the gas mode of the room, is achieved by creating a coaxial system.

 To optimize the operation of the heating and ventilation system using flue gases, a coaxial system is created by introducing into the cavity of the chimney an air duct with a high tightness class. What allows to regulate temperature of a stream of gases the air given from the room to an air duct. At the same time, there is no actual communication of the internal volume of the room with the chimney system, which makes it possible to speak of a gas mode acceptable for a person’s temporary or permanent stay.

The technical result is achieved due to the fact that the heating and ventilation system of the room contains a collector system laid in the design of the floor of the room; at least one chimney combined with a collector system; an air duct laid in the plane of the collector system with at least one axial duct fan and a check valve installed in it; exhaust fan located in the chimney after the collector system; gates installed in individual sections of the chimney and in each duct; openings for air intake and discharge, as well as an automation system with a controller and temperature and gas sensors inside the room.

This technical solution is aimed at:

- optimization of the process of heating and ventilation of the room using the heat of the outgoing flue gases, taking into account compliance with the condition of inadmissibility of communicating the internal volume of the room with the volume of the chimney, is obtained by creating a coaxial system (duct located in the chimney) to control the temperature of the flue gas stream, as well as the introduction of a number of measures to prevent the increase in the level of hazards in the premises served:

- placement of places for air intake and discharge, taking into account the zone of the aerodynamic wake and the distance satisfying the design conditions;

- maintaining the pressure difference in the duct and in the chimney;

- installation of an air duct with a high class of tightness;

- placement of a check valve system and gates in the duct.

 FIG. 1 shows a general view of the chimney system and serviced premises.

FIG. 2 horizontal section AA.

 The heating and ventilation system of the room contains a collector system 1, laid in the design of the floor of the room 2; at least one chimney 3 combined with a collector system 1; laid in the plane of the collector system 1 duct 4, installed therein, at least one axial duct fan 5 and a check valve 6; exhauster 7; the gates 8, installed on separate sections of the chimney 3 and in each duct 4; openings for the intake of 9 and the release of 10 air, as well as the automation system 11 with the controller 12.

 The automation system 11 is connected to the controller 12 and contains the following elements:

- indoor temperature sensor 13;

- sensor gas 14 inside the room.

The system works as follows:

The temperature sensors 13 and gas content 14 analyze the state of the internal environment of the room 2, transmit information to the controller 12 of the automation system 11, which, according to a given mode of operation, relative to the data, regulates the opening degree of the gates 8, the speed of rotation of the impellers of the fan 5 and the exhauster 7. As a result which controls the flow of gases entering the collector system 1, and the air supplied to the duct 4, through the air intake port 9, which allows you to adjust the temperature of the gas flow and the corresponding etstvenno indoor temperature 2.

 The heating process is carried out as follows: exhaust gas flows from the boilers through the flue duct, while the gates 8, depending on the location on the chimney 3 and the operating mode specified by the automation system 11, are partially or fully open or closed. Flue gases enter the collector system 1, where heat transfer occurs to the internal air of the room 2.

 Smoke exhauster 7 is installed due to the need for safe operation of the system. In case of problems in the system and violation of the gas regime of the room 2, the automation system 11 makes the appropriate adjustments to the system operation mode. The flow of flue gases into the collector system 1 through the chimney 3 is stopped, by completely closing the gates 8 at the site before the collector system 1 and their full opening at the site after, the exhaust fan 7 is started up at full capacity and removes all the hazards from the collector system 1. As a result harmful substances in room 2 is stopped, its gas regime is gradually restored to normal and after the elimination of the malfunction, the operation of the system is resumed

Also, in the collector system 1, the condensate formed on the outer walls of the duct 4 may be discharged due to the water vapor contained in the flue gases as a result of combining hydrogen (H ₂ ) with carbon dioxide (CO ₂ ). Condensate drainage can be carried out using slopes formed by the base of the collector system 1 in the direction of the discharge point, under which the drainage is located. The placement of the condensate removal system is not necessary, since the content of hydrogen (H ₂ ) and carbon dioxide (CO ₂ ) in the exhaust flue gases may vary depending on the quality of the fuel used, as a result of which the volume of water vapor in the flue gases will be low or practically absent. That with sufficient corrosion resistance of the system will not entail a violation of the mode of operation and reduce performance.

 The ventilation system of the room 2 is provided in accordance with the design standards. To improve the reliability of the system, it is necessary to take into account the zone of the aerodynamic wake and the penetration of exhaust gases into the room 2 from the atmosphere. What can happen in case of a close arrangement of places of a fence 9 and emission of 10 air. Additionally, in order to comply with the condition of inadmissibility of communication of the internal volume of the room 2 with the volume of the collector system 1, it is provided to maintain the pressure difference in the duct 4 and the collector system 1, by using the fan 5, which, according to the principle of operation, creates an elevated pressure zone from the discharge side, which to a greater extent causes the loss of air, and not the flow of flue gases from the collector system 1 through leaks at the joints of shaped elements. Also contributes to the installation in the cavity of the duct 4 check valve 6, which prevents the reversal of the flow and the flow of hazards into the room.

 In addition, the execution of the duct 4 is provided with the smallest number of joints or with their absence, directly in the serviced room 2 itself, which leads to the observance of the condition on the inadmissibility of the flow of hazards from the collector system 1 into the internal volume of the room 2. And also, the duct 4 is provided with a round section ( or flat-oval) of galvanized sheet steel, for protection against corrosion, which is due to the presence of forms that promote the flow of gases around the outer surface and, consequently, less The action aimed at pollutant penetration into the duct 4.

 The above measures indirectly contribute to the solution of the problem. The main method of preventing the violation of the gas regime of the room 2 is the tightness of the duct 4, which should be at a high level, to reduce the level of hazardous pollutants entering the duct 4 as a result of weaknesses at the joints of its elements.

Table 1 - Duct Tightness Class

Tightness class Justification BUT Unsatisfying. Excessively high leakage. AT Not recommended. Sufficiently high leakage. WITH Recommended. Optimal for these conditions. Has a high level of feasibility study. D Apply It has a minimal amount of leakage, but is expensive to maintain and install.

Additionally, to intensify the heat exchange process, the duct 4 may be provided with fins, which will contribute to an increase in the area of the convective heating surface.

Thus, the presented system implements a method of heating and ventilation of a room with an effective method of temperature control and compliance with the conditions of inadmissibility of combining the internal volume of a room with the volume of a collector system, by optimizing the method of heating and ventilation by creating a coaxial system with a high tightness class and protecting against leakage , as well as the introduction of automation systems that prevent the violation of the gas regime.

To optimize the process of heating and ventilation with the use of flue gases, an automation system is provided with a controller that reads information from temperature and gas sensors inside the room and, according to the data obtained, controls the degree of flue gas and air consumption by controlling the degree of opening of the gates, and also implements a coaxial system, formed by introducing into the cavity a collector duct system with a high tightness class, which allows you to safely control the temperature gas flow air from the room. At the same time, there is no actual communication of the internal volume of the room with the chimney system, which makes it possible to speak of a gas mode acceptable for a person’s temporary or permanent stay.

Claims (1)

The heating and ventilation system of the room contains a collector system, laid in the design of the floor of the room, combined with it at least one chimney, duct with the at least one axial duct fan and non-return valve installed in the plane of the collector system, a smoke exhauster located in the chimney , gates installed in individual sections of the chimney and in each duct, openings for air intake and discharge, as well as automation systems with a controller.

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