RU2745057C1 - Object heating installation - Google Patents

Abstract

FIELD: heating systems.

SUBSTANCE: installation for heating objects includes a unit for connecting to an exhaust gas source, an air inlet and distribution unit, an air heater unit, a heated air outlet unit, a power supply and control unit, while the air inlet and distribution unit consists of a mixing chamber with an inlet valve and an air filter, a fan driven by an electric motor installed between the mixing chamber and the heat exchanger, an inlet duct connecting the fan and the air circuit of the heat exchanger, an air duct after the air heater that connects the air circuit of the heat exchanger and the heated air outlet, a bypass air duct of the heat exchanger, the connection point of which is in the inlet duct between the fan and the heat exchanger, the heated air supply duct to the mixing chamber, the connection point of which is located in the duct after the air heater, and in the duct after the air heater, bypass duct, and in the mixing chamber-leading heated air duct dampers are installed, and the air heater unit consists of a gas-to-gas heat exchanger, an inlet flue, an outlet flue, a bypass flue of the heat exchanger and dampers installed in the inlet and bypass flue, and the power supply and control unit is electrically connected to consumers electric power and sensors installed in the nodes and units of the apparatus, and the heated air outlet unit is located outside the high-temperature zone of the air heater unit and has outlets for connecting flexible air ducts, and all nodes and units of the apparatus are installed on a common frame and protected from precipitation by a canopy.

EFFECT: invention provides for obtaining thermal energy without using fuel, increasing reliability, fire safety of the thermal energy source.

8 cl, 1 dwg

Description

Installation of object heating (UOO) refers to air heaters of atmospheric air with forced circulation and can be used in heating and ventilation systems, for heating technological equipment, machines, materials, premises, engine compartments and as a mobile unit for heating and ventilation.

Known mobile air heater (see RU No. 2244221, F24H 3/00, publ. 10.01.2005), which is a device on a self-propelled chassis of a car and made in the form of a fan connected through a diffuser with a heat generator, consisting of a combustion chamber with a heater and having outlet for removal of heated air and connection of flexible hoses for supplying air to the consumer.

The disadvantage of the known device is the relative energy consumption and inefficiency, due to the need to ensure the operation of the device for supplying air from the engine of the self-propelled chassis; for heating the air, it is necessary to use liquid fuel. Lack of filtration of the inlet air can lead to clogging of the air path and deterioration of heat transfer in the heat generator.

There is a known device for a mobile air heater described in the technical description "Unified motor heater UMP-350 model 350" (2000), produced by the Priluksky rental plant "Pozhmashina". The device is mounted on a self-propelled chassis and contains a heat generator installed in the body with an air supply device and an air outlet. The heat generator contains a power take-off box, a combustion chamber with a spark plug and an air damper, starting and working nozzles for spraying fuel and a heater installed along the direction of the air flow with an outlet of heated air to the front wall of the body. The air supply device is a fan for supplying air to the heater and to the combustion chamber through the bell. Fuel from the tanks is sucked in by a pump and pumped under pressure into the fuel lines of the air heater. The pump is driven by a belt drive from the fan shaft. The air is drawn in by the fan through the open tailgate. Flexible hoses of the outlet air duct are also located in the body, equipped for servicing the air heater with a small door in one of the lateral sides.

The disadvantage of the known device is the relative energy consumption and inefficiency, due to the need to ensure the operation of the device for supplying air from the engine of the self-propelled chassis; for heating the air, it is necessary to use liquid fuel. Lack of filtration of the inlet air can lead to clogging of the air path and deterioration of heat transfer in the heat generator.

The closest to the proposed in this application in terms of technical essence is a device for heating objects with a gas heat generator (see RU No. 164564, F24H 3/00, publ. 09/10/2016). The device includes a unit for connecting to the fuel network, an air heater unit consisting of a heat generator and a power source, preheating units and heated air outlet. The heat generator includes a burner and a heat exchanger with a closed combustion chamber. In this case, indirect heating of the heat exchanger is carried out, which separately removes the combustion products into the external environment with a chimney. The air heater block is additionally equipped with a mixing chamber for preheating air with an internal air duct, an electric fan of the air pressure placed between the mixing chamber and the heat generator. The mixing chamber mixes the outside air with a part of the heated air taken from the internal air line through the air line for the removal of a part of the heated air, equipped with a damper for adjusting the amount of bleed air. In this case, the temperature of the air mixture provides the temperature of the operational capabilities of the heat generator. The heated air outlet unit consists of a branch pipe and air ducts with directing outlets for supplying heated air to the heated object. In this case, the external air ducts can be made of flexible elements and with thermal insulation, and as an electrical power unit, the device can be equipped with an autonomous power source.

The disadvantage of the known device is the relative energy consumption due to the need to use gaseous fuel to heat the air. Lack of filtration of the inlet air can lead to clogging of the air path and deterioration of heat transfer in the heat generator.

The purpose of the invention is to create a device for generating thermal energy without using fuel, with low operating costs, inexpensive, with high reliability and fire safety characteristics.

The stated goal is achieved by the fact that the unit uses the heat of exhaust gases of power plants, gas turbines (GT) of all types and piston engines.

The object heating installation (UOO) includes a unit for connecting to an exhaust gas source, an air inlet and distribution unit, an air heater unit, a heated air outlet unit, a power supply and control unit.

The air inlet and distribution unit consists of a mixing chamber with an inlet valve and an air filter installed in it, designed to clean the air, displace the inlet and heated air to prevent the filter from freezing or obtain the required air temperature at the inlet to the air heater unit; a fan driven by an electric motor installed between the mixing chamber and the heat exchanger; an inlet duct connecting the fan and the air circuit of the heat exchanger; an air duct after the air heater supplying heated air to the heated air outlet unit; bypass air duct of the heat exchanger, the connection point of which is located in the inlet duct between the fan and the heat exchanger, supplying air bypassing the heat exchanger; a duct for supplying heated air to the mixing chamber, the connection point of which is located in the duct after the air heater, designed to supply heated air to the mixing chamber. In the duct after the air heater, the bypass duct, the duct for supplying heated air to the mixing chamber, dampers are installed that regulate the air flow through the ducts. The air heater unit consists of a gas-to-gas heat exchanger, an inlet gas duct, an outlet gas duct, a bypass gas duct of the heat exchanger and dampers installed in the inlet and bypass gas ducts. The power supply and control unit is electrically connected with electricity consumers and sensors installed in the units, units of the installation and ensures the operation of the installation with the specified parameters. The heated air outlet unit is located outside the high-temperature zone of the air heater unit and has outlets for connecting flexible air ducts. All units and units of the installation are installed on a common frame and protected from atmospheric precipitation by a canopy.

The claimed invention has the following modifications listed below, characterizing particular cases of its implementation:

- Installation of object heating (UOO) is made in a separate closed block.

- Installation of object heating (UOO) is a part of gas turbine, gas piston, diesel power plant.

- Installation of object heating (UOO) is located in the block of gas turbine, gas piston, diesel power plant.

- Installation of object heating (UOO) is installed on the block of gas turbine, gas piston, diesel power plant.

- In the object heating installation (UOO), the air inlet and distribution unit is made in the form of a ventilation unit.

- In the object heating installation (UOO), the fan is driven by an internal combustion engine.

- The air ducts connected to the unit are rigid and thermally insulated.

The technical result obtained in the implementation of the claimed invention consists in obtaining an easy-to-use, reliable, fireproof, inexpensive, efficient source of thermal energy.

The greatest economic effect is achievable at production facilities that use container diesel, gas piston and gas turbine electric generator sets as sources of electrical energy.

The inventive air heater differs from the prototype in such essential features as the presence of a connection unit to the exhaust gas source; an air inlet and distribution unit with an air filter, which ensures a reliable supply of cleaned air in all weather conditions; lack of a device for obtaining thermal energy from fuel; complete separation of the hot exhaust circuit and the cold air circuit; the possibility of creating an installation as an external, separate device, as well as the option of including the installation in the composition of power plants.

The exhaust gas circuit does not contain a source of pressure increase, for example, a fan, has a low hydraulic resistance, the flow of exhaust gases is due to the energy of the exhaust gases at the outlet of the gas source. On the contrary, the air circuit has a source of air pressure in front of the heat exchanger, a fan, therefore, the pressure in the air circuit is always higher than in the exhaust gas circuit. In the event of a leakage of the circuits in the heat exchanger, the exhaust gases will not enter the air circuit. This ensures the safety of heating the air.

The claimed installation for heating objects (UOO) can be widely used in heating and ventilation systems, for heating technological equipment, machines, materials, premises, engine compartments and as a mobile unit for heating and ventilation.

The essence of the invention is illustrated by a schematic drawing of the installation

(see figure 1)

The object heating installation (UOO) includes a unit for connecting to an exhaust gas source (17), an air inlet and distribution unit (1), an air heater unit (2), a heated air outlet unit (3), a power supply and control unit (16).

The air inlet and distribution unit (1) consists of a mixing chamber (4), with an inlet valve (5) and an air filter (6) installed in it, designed to clean the air, displace the inlet and heated air to prevent freezing of the filter (6) or obtaining the required air temperature at the inlet to the air heater unit (2); a fan driven by an electric motor (10) installed between the mixing chamber (4) and the heat exchanger (12); an inlet duct (18) connecting the fan and the air circuit of the heat exchanger; an air duct after the air heater (7) supplying heated air to the heated air outlet unit (3); the bypass air duct of the heat exchanger (8), the connection point of which is located in the inlet air duct (18) between the fan (10) and the heat exchanger (12), supplying air bypassing the heat exchanger; the duct for supplying heated air to the mixing chamber (9), the connection point of which is located in the duct after the air heater (7), designed to supply heated air to the mixing chamber (4). In the air duct after the air heater (7), the bypass air duct (8), the air duct for supplying heated air to the mixing chamber (4), there are dampers (11) that regulate the air flow through the air ducts. The air heater unit (2) consists of a gas-to-gas heat exchanger (12), an inlet gas duct (13), an outlet gas duct (19), a heat exchanger bypass gas duct (14) and dampers (15) installed in the inlet and bypass gas ducts. The power supply and control unit (16) is electrically connected with electricity consumers and sensors installed in the units, units of the installation and ensures the operation of the installation with the specified parameters. The heated air outlet unit (3) is located outside the high-temperature zone of the air heater unit (2) and has outlets for connecting flexible air ducts. All units and units of the installation are installed on a common frame and protected from atmospheric precipitation by a canopy.

The object heating installation (UOO) works as follows.

Atmospheric air, under the action of a vacuum created by an electric fan (10), passes through the inlet valve (5) into the mixing chamber (4), where it is mixed, to prevent freezing of the filters or to obtain the required temperature of the inlet air, with heated air supplied to the mixing chamber through the duct (9). Then the air passes the air filter (6) and enters the electric fan (10). The electric fan supplies air to the air heating circuit of the gas-to-gas heat exchanger (12). Then the heated gas is supplied to the technological needs of the facility, part of the air is supplied to the mixing chamber (4). The exhaust gases are fed into the gas circuit of the gas-to-gas heat exchanger (12), transfer heat through the gas-tight heat exchange surfaces of the heat exchanger (12) and are discharged into the atmosphere. Adjustment and maintenance of the air temperature at the outlet of the unit is carried out by partial or complete bypassing of air past the heat exchanger through the bypass air duct (8) and mixing "cold" and "hot" air flows in the air duct after the air heater (2) or by adjusting the amount of heat transferred from the exhaust gases by bypassing the exhaust gases past the heat exchanger through the bypass gas duct (14). Distribution, controlled dampers (11, 15) are used to distribute air and exhaust gases through air ducts and gas ducts.

The use of waste gases from power plants as a source of thermal energy makes it possible to obtain a significant amount of thermal energy without fuel consumption.

Claims (8)

1. Installation of object heating (UOO), including a unit for connecting to a source of exhaust gases, an inlet and air distribution unit, an air heater unit, an outlet for heated air, a power supply and control unit, characterized in that the unit for inlet and distribution of air consists of a mixing chamber with installed in it an inlet valve and an air filter, a fan driven by an electric motor installed between the mixing chamber and the heat exchanger, an inlet duct connecting the fan and the air circuit of the heat exchanger, an air duct after the air heater connecting the air circuit of the heat exchanger and the heated air outlet unit, bypass air duct of the heat exchanger, the connection point of which is located in the inlet duct between the fan and the heat exchanger, the air duct for supplying heated air to the mixing chamber, the connection point of which is in the duct after the air heater, and in the air duct after the air heater, bypass dampers are installed in the air duct, the heated air supply duct to the mixing chamber, and the air heater unit consists of a gas-to-gas heat exchanger, an inlet flue, an outlet flue, a bypass flue of the heat exchanger and dampers installed in the inlet and bypass flue, and the power supply and control unit is electrically connected with electricity consumers and sensors installed in the units and units of the unit, and the heated air outlet unit is located outside the high-temperature zone of the air heater unit and has outlets for connecting flexible air ducts, and all units and units of the unit are installed on a common frame and protected from precipitation by a canopy. 2. Installation of object heating (UOO) according to claim 1, characterized in that it is made in a separate closed block. 3. Installation of object heating (UOO) according to claim 1, characterized in that it is part of a gas turbine, gas piston, diesel power plant. 4. Installation of object heating (UOO) according to claim 1, characterized in that it is located in the block of a gas turbine, gas piston, diesel power plant. 5. Installation of object heating (UOO) according to claim 1, characterized in that it is installed on the block of a gas turbine, gas piston, diesel power plant. 6. Installation of object heating (UOO) according to claim 1, characterized in that the unit for inlet and air distribution is made in the form of a ventilation unit. 7. Installation of object heating (UOO) according to claim 1, characterized in that the fan is driven by an internal combustion engine. 8. Installation of object heating (UOO) according to claim 1, characterized in that the air ducts connected to the installation are rigid and thermally insulated.

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