RU2675956C1 - Liquid fuel air heating unit - Google Patents

Abstract

FIELD: heating.

SUBSTANCE: invention relates to the air heaters for the supply air indirect heating in the rooms inlet ventilation and autonomous air heating systems, located in the oil wells immediate vicinity, with the crude oil using as fuel. It contains housing with the air intake inlet, fan, combustion chamber and the recuperative heat exchanger, burner, fuel supply system with the filtration system and the heated air outlet. In front of the fan an air filters system is installed. Fuel filtration system includes dirt collector, self-cleaning coarse and fine filters. Heat-generating installation is made with removable panels, the combustion chamber is equipped with the removable cover, the heat exchanger is equipped with front and rear removable covers.

EFFECT: technical result is the soot formation reduction and possibility of its removal from the unit internal parts, which enables increase in the device operation efficiency with the oil using as fuel.

1 cl, 4 dwg

Description

The invention relates to autonomous air heating, in particular, to air heating devices for indirect heating of fresh air in fresh air systems and autonomous air heating of industrial premises for various purposes. The invention is applicable to air heating units operating on liquid fuel. In addition, the invention may be applicable for heating industrial premises located in close proximity to oil wells and crude oil may be used as fuel.

A known air-heating unit according to the patent of the Russian Federation for utility model No. 141423, F24H 3/00, 2014, comprising a housing, an air intake unit, a heating unit, an output unit for removing heated air. A fan is installed in the air intake unit. The heating unit includes a combustion chamber and a heat exchanger interconnected. The combustion chamber is connected to the burner device, and a heat exchanger of exhaust flue gas heat, connected in the form of a tubular recuperative heat exchanger, is connected to the heat exchanger. The burner device and the waste heat heat recovery unit are located inside the heat-insulated compartment. The disadvantage is the appearance of soot on the internal surfaces of the combustion chamber and heat exchanger, which changes the degree of heating of the air, reduces the efficiency of the device.

Known heater for use in cold climates according to the application of Germany for the invention No. 102006037607, F24H 3/00, 2006. The air heating device contains an air duct, at one end of which there is at least one inlet for supplying fresh air, at the other end - at least one outlet for the release of hot air. The device has at least two blower devices for transporting air through the duct, two combustion chambers with burners located in them, and a heat exchanger with two air channels for transferring heat to the atmosphere and exhaust means. The disadvantage is the difficulty of servicing the combustion chamber and heat exchanger due to the inaccessibility of their internal surfaces, the appearance of soot, which reduces the efficiency of the device.

The heat generator according to the utility model patent of the Russian Federation No. 107575, F24H 3/00, 2011 is selected as the closest analogue to the claimed technical solution. The heat generator comprises a housing with openings for air inlet and outlet of heated air connected by at least one air channel stage and at least one fan. The heating stage includes a combustion chamber with a burner, a heat exchanger located inside the air channel and connected to the smoke pipe. The disadvantage is the inability to use oil as fuel, because, as a result of oil combustion, soot is formed on the inner surface of the convective beam of the heat exchanger and the combustion chamber, which reduces the efficiency of heating the air. The design of the heat generator does not provide for the possibility of cleaning the internal surfaces.

The technical task of the invention is to expand the operational capabilities of the unit.

The technical result consists in ensuring the efficient operation of the unit when using fuel quality products selected from the range: oil, gas condensate, diesel fuel.

The technical result is achieved due to the fact that in a liquid fuel air-heating unit comprising a housing with an air intake inlet, at least one fan and at least one heat-generating installation in which a combustion chamber and a regenerative heat exchanger are installed, at least one burner connected to the fuel supply system and at least one outlet of heated air according to the invention, an air filter system is installed in front of the fan, a system is installed on the fuel supply pipe and the fuel filter consisting of a filter dirt collection container, a self-cleaning of the coarse filter, fine filter self-cleaning, the heating unit is provided with a removable cover, a combustion chamber is provided with a removable cover, the heat exchanger is provided with a detachable front and rear covers. The removable cover of the combustion chamber is made in the form of a polygon with flanging and sealing.

The technical result is achieved due to the fact that between the inlet air intake and the fan is installed a system of air filters, which is a filter unit for cleaning incoming air from dust. This ensures the purification of the incoming air, part of which in the mixture with fuel enters through the burner into the combustion chamber. A filtration system has been installed on the fuel supply pipe inside the unit: self-cleaning fuel filters of coarse and fine cleaning and a filter with a dirt collector for cleaning all possible types of fuel, especially oil, from mechanical impurities. This allows you to clean the filter without stopping the operation of the heater. Purification of air and purification of fuel entering the combustion contribute to the formation of combustion products entering the convection heat exchanger from the combustion chamber, without impurities and soot, or with a minimum amount thereof. The implementation of the heat-generating installation of the heating unit with removable panels allows access to the combustion chamber and convective heat exchanger for cleaning them from soot. The implementation of the combustion chamber with a removable cover allows you to clean the inner surface of carbon deposits. Due to the fact that the cover of the combustion chamber has a large diameter, it is possible to access both its inner side parts and the rear end part. The heat exchanger is equipped with front and rear removable covers, which allows you to clean the tube bundle of the heat exchanger and remove all carbon deposits that got there when cleaning it from the back. Reducing the formation of soot, as well as the possibility of its removal from the internal parts of the unit allows you to use oil extracted from a nearby well as fuel without reducing the efficiency of the unit.

The figure 1 presents a diagram of an air heating unit.

The figure 2 presents the heat generator.

The figure 3 presents the front part of the heat generator in a disassembled form.

The figure 4 presents the rear of the heat generator in a disassembled form.

The air fuel oil heating unit comprises a housing 1, with inlet windows 2, an air filter system 3, a fan 4, a heating unit 5, including a heat generating unit 17, which is a combustion chamber 6 connected to a heat exchanger 7, a burner 8, a smoke tube 9 connected to an outlet heat exchanger 7, a fuel supply system 10 with a fuel filter 11, an exit window 15 for supplying heated air to a heated room, an automatic control system 16. Combustion chamber 6 of a heat generating installation It is provided with a removable cover 12, a heat exchanger 7 is provided with a removable front cover 13 and rear cover 14. Thermo-generated removable installation 17 is provided with a removable front panel 18 and rear removable panel 19.

Liquid fuel, which can be used as oil, gas condensate, diesel fuel mixed with the required amount of air, is fed to burner 8. External air or air from a room heated in the recirculation mode, i.e., from a heated zone, is fed to combustion. air located behind the heating unit 5. Burner 8 is designed to operate at an ambient temperature of + 5⁰ to + 40ºС. The supply air source is selected using an air valve system (not shown in the drawing). Before heating, the air drawn from the outside through the inlet windows 2 passes through a system of air filters 3, in which it is cleaned of dust. The fan 4 provides air supply to the zone of the heating unit 6. Oil is supplied to the burner 8 from the fuel supply system 10. The oil is preliminarily cleaned in the filtration system 11, equipped with a group of coarse and fine filters and a dirt collector filter. The dirt collector filter, related to the coarse filter, is a metal housing in which a fine-mesh mesh is installed. From the grid, mechanical particles settle due to gravity into a sump, from where they are manually removed. The self-cleaning coarse filter, is a metal housing with a filter cartridge and cleaning brushes, mechanical impurities are trapped on the filter surface. For cleaning the surface, built-in brushes are used, which are driven manually or by an electric motor, the cleaned mechanical impurities settle on the bottom of the filter, this allows the filter to be cleaned without stopping the operation of the air heater. A self-cleaning fine filter is also present in the system.

Special self-cleaning filters, for example, Guliani Anell, purify oil from mechanical impurities. The combustion chamber 6 receives oil in a mixture with the required amount of air. The device of the fuel burner 8 provides for the possibility of heating oil. Fuel lines are also equipped with a heating cable for fuel heating. including oil that thickens when cooled. To spray oil efficiently through the burner nozzles, oil of a certain temperature is required. After fuel combustion in the chamber 6, the resulting combustion products pass through the heat exchanger 7, heating the walls of the tube bundle of the heat exchanger 7. Convective heating of the air flowing around the heat exchanger 7 from the outside occurs. Heated air through the outlet window 15 is fed into a heated room. Flue gases through the smoke pipe 9 are discharged to the outside. Air purification is more necessary for cleaning the air entering the heated room, but the use of oil as a fuel leads to the need to clean the air from dust using air filters 3. The pollution of the filters 3 is visually checked. If a metal filter element is used as a filter element, then it is washed in warm water with the addition of surfactants. In other cases, the filter elements are replaced. When using liquid fuels, especially oil, there is a need to clean the internal parts of the heat generator 17 from soot. To do this, dismantle the front removable panel 18 and the rear removable panel 19 of the heat generator 17, dismantle the removable cover 12 of the combustion chamber 6, dismantle the front removable cover 13 and the rear removable cover 14 of the heat exchanger 7. The removable cover 12 of the combustion chamber 6 is made in the form of a polygon with a flange and seal. From the pipes of the heat exchanger 7, the tape turbulators installed in them are removed, the turbulators are cleaned of carbon deposits. Next, clean the inner surface of the tube bundle of the heat exchanger 7 with a brush on the rod to a metallic luster. The back of the heat exchanger 7 is deaf, when cleaning the tube bundle, all the cleaned carbon deposits fall into the back of the heat exchanger 7. For the possibility of its extraction, the rear removable cover 14. The design of the covers 13 and 14 is the same. Next, inspect and clean the combustion chamber 6. Removal of carbon from the inner surfaces of the chamber 6 is performed with a metal brush on the rod. The elements of the burner and smoke exhaust system are also inspected and cleaned.

Thus, the invention allows to ensure the operation of the unit without deposit on internal surfaces when using oil, gas condensate, diesel fuel as fuel, while ensuring the necessary efficiency.

Claims (2)

1. Air-fuel oil-fuel assembly, comprising a housing with an air intake inlet, at least one fan and at least one heat-generating installation, including a combustion chamber and a regenerative heat exchanger, at least one burner connected to the fuel supply system, and at least one heated air outlet characterized in that an air filter system is installed in front of the fan, a fuel filtration system consisting of a dirt collector filter is installed on the fuel supply pipe a coarse coarse filter, a self-cleaning fine filter, the heat generator is made with removable panels, the combustion chamber is equipped with a removable cover, the heat exchanger is equipped with front and rear removable covers. 2. The liquid fuel heating unit according to claim 1, characterized in that the removable cover of the combustion chamber is made in the form of a polygon with flanging and sealing.

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