SU1613795A1 - Steam generator - Google Patents

Abstract

The invention relates to industrial energy and can be used to create steam generators directly injection. The purpose of the invention is to increase the steam capacity and improve the ventilation of the combustion chamber. The steam generator contains a pulsating combustion chamber 1 with a resonant tube 2, a heating surface 3, while it is equipped with a separator 4 connected by a steam line 7 with an injection device 5 and a liquid line with an injection device 6. After ignition of the steam generator, water flowing through the heating surfaces of the combustion chamber 1, the aerodynamic valve 9 and the resonant tube 2 are heated and partially evaporated. The steam duct enters the separator 4, where steam and water are separated, steam through the steam line enters the injection device 5. Water heated to boiling through the liquid line 8 and the injection device 6 enters the beginning of the resonant pipe 2, where under the influence of the combustion products in par. 1 il.

Description

The invention relates to industrial energy and can be used to create direct injection steam generators.

The aim of the invention is to increase; steam production and improved ventilation of the combustion chamber.

The drawing schematically shows the proposed steam generator.

The steam generator comprises a pulse chamber 1; burning combustion with a resonance tube 2; and heating surfaces 3. The steam generator is supplied; They are separated by a separator 4 and injection devices: devices 5 and 6. The separator 4 is connected at the inlet to the heating surfaces 3, and its steam line 7 is connected to an injection device 5 installed at the end of the resonance tube 2, and a liquid; naya line 8 - with an injecting mouth; Property 6, installed at the beginning of the resonance tube 2.

In the combustion chamber 1 there is an aerodynamic valve 9, a nozzle 10 and a starting igniter 11. The heating surfaces 3 are formed by cooling shells around the combustion chamber 1, the aerodynamic valve 9 and the resonance tube 2.

The steam generator operates as follows.

Fuel is supplied to the combustion chamber 1 through the nozzle 10 (solarium, fuel oil), the ignition ignition 11 is turned on, starting air is supplied to the aerodynamic valve 9. After ignition of the fuel, the steam generator enters a stable pulsating mode, after which the starting igniter 11 and the air supply are turned off (the steam generator runs on a self-priming). The temperature inside the combustion chamber is 1300–1500 ° С, and the velocity of the combustion products in the resonance tube 2 is 80–100 m / s.

Water is supplied at a temperature of 10–20 ° C, which, passing through the heating surfaces of the combustion chamber 1, the aerodynamic valve 9 and the resonance tube 2, is heated and partially evaporated. The steam-water mixture enters the separator 4, where the separation of steam and water. Steam through the steam line 7 enters the injection device 5 located at the end of the resonance tube 2. The water heated to boiling after the separator 4 passes through the liquid line 8 and the injection device 6 to the beginning of the resonance tube 2, where it turns into steam under the influence of combustion products. A steam jet from the injection device 5 at the end of the resonance pipe 2 creates an ejection effect in the pipe, which improves the ventilation of the combustion chamber.

The use of a steam generator with a pulsating-type 2 ° combustion chamber can increase the productivity and efficiency of fuel combustion (up to 99.9%) and reduce environmental pollution by 50–80% of nitrogen oxides.

Claims (1)

Claim A steam generator comprising a pulsating combustion chamber with a resonant tube, a heating surface, characterized in that 30, in order to increase steam production and improve ventilation of the combustion chamber, it is equipped with a separator and injection devices, the first of which is connected at the inlet to the heating surfaces, moreover, steam and liquid separator lines 35 are connected to injection devices installed respectively at the end and beginning of the resonance tube.