RU2320929C2 - Method of self-contained air heating and hot-water supply of dwelling house and air heating system for implementing proposed method - Google Patents

Abstract

FIELD: heat and hot water supply systems.

SUBSTANCE: invention relates to heat and heat water supply systems of dwelling houses and production complexes. Proposed self-contained heating and hot-water supply of dwelling house includes use of heat of combustion products of heat generator for heating air and water heat carriers. In summer and in heating periods, combustion products are cooled in water heater consisting of convection, condensing stages and contact chamber to temperature at which vapors are condensed on heating surface of condensing stage. In summer these vapors are removed through contact chamber, and water designed for hot water supply is heated. Said water is heated by counterflow in succession in condensing and conversion stages of water heater by heat of combustion products. In heating period, contact chamber is disconnected, and heating of water for hot water supply is carried out as in summer period, and through air heater in form of tube-in-tube recuperative heat exchanger consisting of set of sections of heat exchanger elements of convection and condensing stages and contact chamber in between, combustion products heat successively air heat carrier by counterflow. Amount of heat received by each heat carrier is regulated by bypass gas line connecting convection and condensing stages of water heater. Air heating system for implementing proposed method is described in invention.

EFFECT: elimination of heat losses from air heater owing to arrangement of all devices and communications inside house, reduced cost of heating and hot water supply.

3 cl, 1 dwg

Description

The invention relates to systems for heat supply and hot water supply for residential and industrial complexes.

The closest analogue to the claimed method of autonomous heating and hot water supply of a residential building is [1]. Heat for heating and hot water supply is obtained by pyrolysis of household waste, combustible waste and materials in autoclaved gas generators. Heating and pyrolysis of combustible materials is carried out by the heat of the exhaust gases of internal combustion engines and heat electric heaters powered by the energy of an electric generator of the engine. Pyrolysis products - combustible and flue gases are used as a heat carrier in a heat exchanger of a room air ventilation system and then condensed into liquid fuel in a boiler with water heating. Liquid fuel is used to operate the engine in operating mode. The exhaust gases of the engine after the gas generators are used as a coolant for radiators of batteries, and then sent to the accumulation of heat in heat-sensitive materials, then to the boiler for heating water and through the catalyst for harmful gases into the atmosphere.

The considered technology of autonomous heating and hot water supply is not effective enough, since the temperature of the exhaust gases is at least 150 ° C and the latent heat of vaporization of water vapor is not used. This scheme of autonomous heating and hot water supply is not adapted to the summer period and it is not clear how to maintain a constant temperature in the room at a variable outdoor temperature.

The closest analogue to the claimed air heating system of a residential building is [2], including the supply and exhaust ducts, made in the form of a heat exchanger-heat exchanger type pipe in the pipe. At the opposite walls near the floor level of the room are located the outlet of the supply and the entrance of the exhaust manifolds. The inlet and outlet of the exhaust manifolds are connected to the supply and exhaust ducts. The exhaust duct of the local exhaust is connected to the input through the cooling line of the additional heat exchanger, the output of which is connected to the exhaust manifold in the same line, and the heating line of the additional heat exchanger is connected to the supply air duct and collector by the input and output, respectively.

In this case, the placement of the exhaust duct outside the room, which is designed to transfer heat from the removed warm air from the room to the supply air, is inefficient, since a significant part of the heat of the exhaust air is lost in the surrounding environment. The placement of the supply and exhaust air collectors above the floor in the room is not suitable for use in residential premises.

The noted disadvantages in the method of autonomous heating and hot water supply of a residential building are eliminated as follows. In the summer and heating periods, the combustion products are cooled to a temperature at which water vapor condenses from them. Moreover, in the summer, they countercurrently heat only the water coolant in series in the condensation and convective steps of the water heater. During the heating period, the combustion products are also countercurrently heated first, with the contact chamber of the heater turned off, the water coolant in the condensation and convective steps, and then the air coolant in series in the condensation sections, the contact chamber and the convective sections of the air heater. At the same time, the amount of heat received by each heat carrier is regulated by the bypass gas pipeline.

Deficiencies in the air heating system of rooms are eliminated if the air heating channel, horizontal, vertical, floor piping are arranged inside a residential building and placed in a monolith of vertical and horizontal building structures. Moreover, the local exhaust hood is installed in the upper part of the window frames, the fan is mounted in the attic of the apartment building, and the smoke exhaust after the upper condensation section of the air heater is inside the air heating channel.

The claimed method of autonomous heating, hot water supply of an apartment building and an air heating system are shown in the drawing, where 1 is a fan; 2 - smoke exhaust; 3 - local hood; 4 - the outer shell of the air heater; 5 - window frame; 6 - floor pipe wiring; 7, 8 - vertical and horizontal main air ducts; 9, 17 - contact chambers of the air heater and water heater; 10, 11 - convection and condensation sections of the air heater; 12 - heat generator; 13 - fuel supply; 14 - combustion air; 15, 26 - bypass gas pipelines; 16, 18 - convective and condensation stages of the water heater; 19 - a water pump; 20-25, 29 - shutoff valves; 27 - water heater; 28 - air heater; 30 - distribution grid.

The heat generator 12 is located in the basement of a residential building and, as a rule, approximately in the center. The types of heat generators depend on the type of fuel burned, which can be natural gas, liquid or solid fuel. The power of the heat generator is determined by the value of the total heat load on heating and hot water supply. It is designed to produce combustion products whose heat is used to heat water and air. Fuel burning should be organized without the formation of CO, soot for the entire range of the total heat load for heating and hot water supply. The regulated supply of heated air is carried out through the combustion air duct 14.

The water heater 27 is designed to heat the water that enters the hot water supply system of a residential building. It consists of convective 16, condensation 18 stages and a contact chamber 17. During the summer period in the water heater 27, the combustion products are cooled to a temperature close to the ambient temperature. In this case, water vapor condenses on the heating surface of the condensation stage. Condensate is removed from the contact chamber 17 (not shown). During the heating period, the combustion products from the convection stage 16 are sent by bypass 15, bypassing the contact chamber 17, to the condensation stage 18. Both stages operate by the convective type of heat exchange. At the same time, the shutoff valves 22 and 23 are closed, and 24 is open.

The air heater 28 consists of a set of sections of the heat exchange elements of the convective 10 and condensation 11 stages of the air heater. Between them is a contact chamber 9. All sections are placed inside the outer shell 4 of the air heater. Flanges are welded at the ends of the heat exchange section. From the outside, it has longitudinal ribs. Combustion products pass inside the pipe. They move from bottom to top. Air is blown by fan 1 in the opposite direction. It washes the outer part of the convective 10 and condensation 11 sections of the air heater 28 with longitudinal ribs, which are enclosed in the outer shell of the air heater 4. The number of sections and the geometric dimensions of the heat exchange section is determined by the thermal calculation and the height of the building. Installation of the sections of the air heater 28 is carried out from top to bottom. Sections are interconnected using flanges. Condensate removal from the contact chamber 9 is not shown. The smoke exhaust is attached to the upper condensate section 11.

Vertical 7 and horizontal 8 main ducts, the outer shell of the air heater 4, floor pipe wiring 6 can be performed, for example, from cast iron pipe elements. They are monolithic in the horizontal and vertical structural elements of the building. Floor pipe wiring 6 through distribution grids 30 leads heated air to all heated residential and auxiliary premises of the building (stairwells).

Autonomous heating, hot water supply of a residential building and heating system operate as follows.

In the summer period, only water heating is carried out for the purpose of hot water supply of a residential building. The source water is pumped by the pump 19, is heated in the condensation 16 and convective 18 steps of the water heater 27 and is sent to the consumer. The combustion products sequentially pass the convection stage 16, the contact chamber 17, the condensation stage 18. After the condensation stage 18, their temperature is 5-10 ° C higher than the temperature of the source water. Smoke exhaust 2 they are removed to the atmosphere. Condensate of water vapor from the combustion products accumulates in the contact chamber 17 and is removed (not shown). In this case, the fittings 20, 22, 23, 25 are open, and 21 and 24 are closed.

When the heating period begins, the contact chamber 17 is turned off (valves 21 and 24 are open, and 22 and 23 are closed). Convective 16 and condensation 18 stages of the water heater 27 operate on the convective principle of heat transfer from the combustion products to the source water. Water heating for the needs of hot water supply is carried out in the same way as during the summer mode of operation. To regulate the amount of heat between the water heater 27 and the air heater 28, the bypass 15 is opened (the valve 21 is open). Further, the combustion products transfer their heat through the heat exchange convective 10 and condensation 11 sections of the air heater 28. In the condensation stage 11, water vapor condenses from the combustion products. The exhaust gases of the smoke exhauster 2 at a temperature that is higher than the outside temperature by about 10-15 ° C are removed into the atmosphere. The condensate of water vapor of the combustion products is discharged from the contact chamber 9 (not shown in the drawing).

Outside air is pumped by fan 1 and heated in air heater 28. Through horizontal 8 and vertical 7 main ducts, it is directed to floor pipe distributions 6. Hot air enters each room from distribution grids 30 located at the level of a clean floor and maintains its normalized temperature with its heat indoors. Compliance with the quality of the air in the room according to sanitary standards is supported both by the intake of fresh heated air, and by local exhaust 4 in the upper part of the window frame 5.

This method of autonomous heating, hot water supply of an apartment building and an air heating system has the following advantages:

1. The efficiency of transferring the heat of combustion of fossil fuels in the water heater and air heater is close to 99% of the highest calorific value of the fuel.

2. There is no loss of heat to the environment from the air heater to the heated room, since all devices and communications are located inside the residential building.

3. There is no need for an intermediate coolant (water) and, as a result, in boiler rooms, heating networks, various types of heating units, and a radiator heating system.

4. The cost price of 1 Gcal of released heat is reduced.

Literature

1. Kokarev V.A. The method of autonomous heating and hot water supply of a residential building and an autonomous heating system and hot water supply of a residential building. Patent No. 2258870. 2003 year

2. The heating system of the room. Copyright certificate No. 1695078. 1989 year

Claims (2)

1. The method of autonomous heating and hot water supply of a residential building, including the use of the heat of combustion products of a heat generator for heating air and water heat carriers, characterized in that in the summer and heating periods in a water heater consisting of convective, condensation stages and a contact chamber, the combustion products are cooled to temperature at which vapors condense on the heating surface of the condensation stage, and in summer these vapors are removed through the contact chamber and They only heat the water going to the hot water supply by heating it countercurrently in the condensation and convective steps of the water heater with the heat of the combustion products, and during the heating period, the contact chamber is turned off, they heat the water going to the hot water supply, just like in summer, and through an air heater in the form of a tube-in-tube heat exchanger-heat exchanger, consisting of a set of sections of heat-exchange elements of convective and condensation stages and placed between they contact chamber, sequentially countercurrent combustion products heat the air coolant, and the amount of heat received by each coolant is regulated by a bypass gas pipeline connecting the convective and condensation stages of the water heater. 2. The air heating system of a residential building for air heating in the method according to claim 1, comprising a vertical and horizontal building structures arranged inside the residential building and placed in a monolith, an air heater air heating channel, a horizontal, vertical and floor pipe wiring, a heat generator and a water heater, local hoods installed in the basement of the apartment building, local hoods installed in the upper part of the window frames, fan for supplying air to the air heater, installation a smoke exhauster located in the attic of a residential building, located after the upper condensation section of the air heater inside the air heating channel.