RU2083925C1 - Boiler plant - Google Patents

Abstract

FIELD: arrangement of boilers and furnaces provided with air preheaters. SUBSTANCE: air preheater is located under boiler and economizer. EFFECT: reduced losses of heat into surrounding medium, increase of boiler plant efficiency by 1 to 1.5 percent with no increase in overall dimensions. 4 cl, 1 dwg

Description

 The invention relates to a power system, in particular, to the layout of a boiler plant and an air heater and can be used in boiler plants and furnaces with forced air supply.

 A BM 35 RF boiler plant is known, including a boiler, a chamber furnace, a gas duct with an economizer and an air heater, the walls of the chamber furnace being completely screened by the tubes of the boiler evaporation surface, except for the boiler bottom. Three gas-oil burners are installed on the front wall of the chamber furnace in two tiers in height, which are connected by air ducts to the air heater. The boiling-type economizer is made of four packages located in the lowering shaft of the gas duct in front of the air heater. The air heater is tubular, made of vertical pipes with a diameter of 40 x 1.5 mm and consists of six pipe sections, which have tube boards and lens compensators. It is installed last along the products of combustion in the lowering shaft of the gas duct and contains two moves through the air. Gases pass inside the vertical pipes of the air heater, and the air washes these pipes from the outside.

 The disadvantages of the known analogue are the large metal consumption of the air heater, significant dimensions, high aerodynamic resistance of vertical pipes to the air flow, installation complexity, the possibility of overflow of heated air and gas medium due to leaks of tube plates and lens expansion joints, the presence of insulated air ducts increases the cost of heating the air.

 Closest to the proposed technical solution is a boiler plant (P-57 boiler unit), which has a furnace with burners, a lowering duct, in the convective part of which an economizer and an air heater are placed, while the boiler installation has a single-body layout with a small gap between the furnace and the convective part of the duct . Screens are located in the upper part of the furnace and in the rotary part of the gas duct above the pass from the furnace; In the outlet gas duct, a convective primary superheater and two stages of a superheater are installed, and under them there is a transition zone and an economizer. Behind the boiler installation, four regenerative air heaters (RVP) with a diameter of 9.6 m are installed with rotating rotors and a cooling system connected to the boiler installation by gas ducts and air ducts with burner burner devices.

 The disadvantages of the prototype are, the need for electricity consumption for rotation of the rotor R.V.P. increased flow of heated air into the gas environment, the presence of rotating elements with a water cooling system of the rotor shaft and its bearings, as well as the complexity and metal consumption of the design of the air heater.

 The purpose of the proposed technical solution is to increase the efficiency of the boiler installation by lowering the temperature of the combustion products (flue gases) and more efficient heat recovery under the furnace of the boiler installation, due to the presence of a system of flow pipes under the furnace and in the convection duct.

 This goal is achieved by the fact that the proposed boiler installation contains a furnace with a burner, a gas duct, in the convective part of which there is an economizer and an air heater connected by the air duct on one side to the air intake and, on the other hand, to the burner, while the proposed boiler installation may have a system of flow pipes made of steel arranged horizontally or obliquely and a system of flow pipes is laid in a layer of heat-resistant heat-conducting material under flow channels can be made in the furnace, as well as in the layer under the furnace, and the system of flow pipes can be placed under the convective gas duct and connected to these channels. In addition, the pipes of the flow system, placed under a convective gas duct, can be perforated to recirculate the combustion products of the fuel.

 The drawing shows a General view of the proposed installation.

 The boiler installation includes a firebox 1 with a burner 2, the gas duct in the convective part of which contains an economizer 3 and an air heater 4, connected by the air duct on one side to the intake 5, and on the other to the burner devices 6, a flow pipe system (air heater duct) under the furnace laid in a layer of heat-resistant heat-conducting material 7, and in the convective part under the economizer, the air path of the air heater does not lie in the layer and is washed by the combustion products leaving the economizer .

 The operation of the boiler plant.

 Active air supply to the air heater is provided by a blower fan (not shown), while the air passing through the flow pipes located under the economizer and the boiler utilizes the heat of the combustion products leaving the boiler and the heating heat received from the torch of the burner device, while the heating air enters burner devices.

Claims (5)

 1. A boiler installation containing a furnace with a burner, a gas duct, in the convective part of which there is an economizer and an air heater, connected by the air duct on the one hand to the air intake, and on the other to the burner, characterized in that it is equipped with a layer of heat-resistant heat-conducting material, and the air duct of the air heater is made in the form of a system of flow pipes placed under the firebox in this layer and under the economizer.  2. Installation according to claim 1, characterized in that the system of flowing pipes is horizontal or inclined.  3. Installation according to claim 1, characterized in that the flow pipe system is made of steel pipes.  4. Installation according to claims 1 to 3, characterized in that flow channels are made in the layer under the furnace, and the system of flow pipes is placed under the convective gas duct and connected to these channels.  5. Installation according to claims 1 to 4, characterized in that the flow pipes placed under the economizer are perforated.