RU93133U1 - OFFLINE HEATING FURNACE - Google Patents

Abstract

 A self-contained heating furnace containing a fuel combustion chamber, a heat exchanger and a fuel hopper, characterized in that a screw is located in the lower part of the hopper, which feeds fuel portionwise into an air duct connected to the fuel combustion chamber, and a heat exchanger made in the form of a casing covering the combustion chamber so so that the coolant fills the space between the casing and the combustion chamber.

Description

The utility model relates to the field of alternative energy and, in particular, to autonomous heating devices for industrial, domestic and other premises.

Currently, various types of autonomous heating devices operating on liquid fuel or gas are known. The main disadvantage of such systems is their explosiveness, and in addition the high cost of fuel. Closest to the claimed utility model are solid fuel stoves, for example coal, peat, wood, etc. [one]. The disadvantages of such furnaces are the complexity of organizing the automation of fuel supply, the inability to use production waste without special conversion.

The inventive utility model is aimed at improving the operational characteristics of heating furnaces, in particular the organization of automatic operation of the furnace and the heating system as a whole, reducing operating costs, and the use of cheap fuels, in particular production wastes such as sawdust, shavings, husks of various cereals, finely chopped straw. The specified technical result is achieved in that the furnace containing the fuel combustion chamber, a heat exchanger and a fuel hopper has a screw in the lower part of the hopper, which supplies fuel portionwise to the duct connected to the fuel combustion chamber. In this case, the heat exchanger is made in the form of a casing covering the combustion chamber so that the coolant fills the space between the casing and the combustion chamber. Air, water, argon, etc. can be used as a heat carrier. (fig. 1). Waste from production in the form of sawdust, wood shavings, grain husks, and finely chopped straw is used as fuel.

The principle of operation of the device is as follows (Fig. 1). The electric motor (1) rotates the screw (2), which provides a continuous supply of fuel, such as sawdust, from the hopper (3) into the duct (4). Through the air duct, fuel enters the combustion chamber (5). The combustion products exit the furnace into the atmosphere through a pipe (6). Around the combustion chamber of the fuel there is a casing (7), inside of which, between the casing and the combustion chamber, there is a coolant in the form of air, water, argon, etc., which, after heating, is supplied to the heated room through a pipe (8).

The main feature of this device is that when fuel is mixed with air in the duct, a fuel mixture is formed that completely burns in the combustion chamber. At the same time, a high temperature is formed in the combustion chamber, which ensures fast heating of the coolant, for the active transfer of heat to heated rooms. The presence of an auger for fuel supply ensures automatic operation of the furnace for a long time, because the amount of fuel for continuous operation of the furnace with its complete combustion is small.

Consider the following examples:

Example 1. Continuous operation of the furnace for a month on one load of fuel for heating a room with a volume of 22 m ³ (remote security point) to a temperature of 22 ° C, at an ambient temperature of 25 ° C, is ensured by the volume of a hopper for sawdust of 2 m ³ at a frequency screw rotation 2-3 revolutions per minute. The total power of electric motors to ensure automatic operation of the furnace should be no more than 200 W or 150 kW / month, or 225 rubles / month at a cost of 1.5 rubles / kW.

Heating the same room with a heater from 3 kW will cost 3348 rubles, i.e. almost 10 times more.

Example 2. Heating in the winter month of the hangar (a room with a volume of 30,000 m ³ , 100 × 20 × 15) according to the current standards of centralized heating will cost 1.2 million rubles / month.

In the case of using the claimed utility model, the cost of heating one cube per month will be no more than 10 rubles. per m ³ per month or 0.3 million rubles per month per hangar, i.e. four times less.

Example 3. For heating in the winter season a room with a volume of 5000 m ³ (garage, warehouse, workshop), the proposed furnace requires electricity of about 28.8 kW per day, or 864 kW / month. If the cost of electricity is 1.5 rubles per kilowatt, the cost of electricity will amount to 1296 rubles. Additional operating costs (cost of transportation and loading of fuel) - no more than 3500 rubles / month. Total total cost of heating will be no more than 5000 rubles per month.

When the heating of the premises of the heating plant according to the standards for residential (heating value of 1 m ³ -. 11.45 RUR / m ³⁾ the total cost of heating during this month will be about 57 thousand rubles, which is almost 10 times more compared with using heating claimed utility model.

The considered examples show that the claimed utility model gives a tangible economic effect, and in particular when used on separate or remote objects.

The proposed utility model can be used as an autonomous heating system for industrial and domestic premises, such as cottages, hangars, warehouses, etc.

Bibliographic data

[1] Stoves and fireplace. Lin A.V. Moscow, ed. Aleant, 2000

Claims (1)

A self-contained heating furnace containing a fuel combustion chamber, a heat exchanger and a fuel hopper, characterized in that a screw is located in the lower part of the hopper, which feeds fuel portionwise into the duct connected to the fuel combustion chamber, and a heat exchanger made in the form of a casing covering the combustion chamber so that the coolant fills the space between the casing and the combustion chamber.