JPH01159503A - Steam generator - Google Patents

Abstract

PURPOSE: To realize the generation of steam of various quality on site by instantaneously evaporating water spray by combustion gas in an instant steam generator for hardening precast concrete and the like. CONSTITUTION: This steam generator comprises a burner 11 at one end of a combustion chamber 10 and a water spray nozzle 12 at the other end thereof. The chamber 10 is equipped with a water jacket 15, which has an entrance 16 and an exit 17. The burner 11 comprises an introduction tube 30 having a large-diameter air vent 31 for compressed air, and a small-diameter fuel pipe 32 is connected to the air vent 31. The burner 11 can be ignited by means of a pilot 49. Steam is generated by mixing water spray from the water spray nozzle 12 with combustion gas from the burner 11 in the bottom part of the chamber 10. The amount of steam supplied from a steam exit line 24 can be determined by adjusting the output of the burner 11 and the nozzle 12.

Description

[Detailed description of the invention] (Industrial application field) The present invention relates to instantaneous steam generators.

The present invention is a simple gas generator unit that does not include a boiler, and provides an apparatus that can generate steam of various qualities on-site in accordance with various uses.

(Problems to be Solved) For example, the present invention is applicable to prestressed (presLres)
sed) concrete or precast
) can be applied to harden concrete,
It can be applied to the standard curing process for concrete products such as blocks and pipes. During the curing of a concrete product, it is desirable to maintain a uniform temperature throughout the concrete and to maintain the concrete surface at +ooist.

The heat generated by the hardening action of concrete tends to be higher inside the concrete product.

Stacking items such as concrete blocks indoors and blowing steam over them accomplishes the dual purpose of maintaining the blocks at a uniform curing temperature and keeping the concrete surface moist. By curing the block in this way, it has been possible to
Concrete with the same strength as concrete that takes days to harden can be obtained within 24 hours.

In the case of instantaneous steam generators, the amount of carbon monoxide generated is required to be at a low level. Where the steam generator is operated in a closed room, for example in an installation or facility such as a concrete production plant or a mine 6, - in order to comply with the acceptance criteria for the carbon oxide content - to reduce the amount of carbon oxide produced. is particularly important.

The present invention utilizes a combustion chamber with a unique structure to generate water vapor. The combustion chamber is cooled by circulating water flowing through a jacket installed around it, and the water coming out of the jacket is collected at one end of the chamber. 9 The apparatus of the present invention, which is adapted to be vaporized by the combustion gases of a burner provided therein, differs from the 1980s in that it introduces a water spray in a direction opposite to the flow of the combustion gases leaving the combustion chamber.
This is different from the device described in U.S. Pat.

In the case of the device of the invention, large turbulence is created in the area surrounding the water spray, and the spray is instantaneously and fully vaporized by the combustion gases.

In contrast, in the conventional Wyatt device, water flows through a jacket around the combustion chamber and exits through an annulus around the flame shield. Therefore, water flows simultaneously through the combustion chamber with the hot gases. However, in reality, it has been found that if water flows around the flame at the same time, the flame becomes unstable and may even go out.

As a result, if the location of the generator is poorly ventilated, - the amount of carbon oxide can far exceed acceptable levels.

The problem of flame extinguishing can be overcome by spraying water onto areas that the burner flame cannot reach. Water-cooled jacketing of the combustion chamber not only eliminates the need to lay refractory material in the chamber, but also provides an additional preheating effect when vaporizing water.

In the steam generator according to the present invention, a combustion chamber is surrounded by a water-cooled jacket, and the chamber is provided with an inlet and an outlet for circulating water in the jacket. The combustion chamber has a first end and a second end, and a burner is provided at the first end of the combustion chamber. Means is provided for supplying compressed air and fuel to the burner from which a flame can be generated towards the second end of the combustion chamber. A water spray nozzle is provided at the second end of the combustion chamber and is spaced from the burner flame. The nozzle is connected to the outlet of the jacket and allows water to be sprayed in a direction opposite to the flow of hot gases emerging from the burner flame. In this way, steam can be reliably generated without extinguishing the flame. An exhaust pipe for conveying the generated steam is connected to the second end of the combustion chamber. Thus, the invention is configured such that water is sprayed in a direction opposite to the hot gas flow.

That is, the water spray nozzle is placed directly towards the burner. Conventionally, it was thought that water should be sprayed in a direction away from the flame to prevent the flame from going out, but the present invention contradicts this idea.

(Effect) In fact, it has been found that the steam generation rate can be greatly improved by spraying water directly in the direction of the combustion gas coming out of the burner flame. This is believed to be due to the enhanced turbulence between the water spray and the hot exhaust gas stream, which causes instantaneous transfer of heat from the water spray to generate steam. Furthermore, it is surprising that when steam is generated by the device of the present invention, the flame does not go out even when the steam generation pressure is much higher than that of conventional devices. This is because the water spray is sprayed at a distance from the flame of the burner, and the water spray does not interfere with the combustion process of the burner. Since the fuel burns without being adversely affected by the water spray of the present invention, the carbon monoxide produced by the burner attached to the device is low enough to be suitable for use in enclosed work areas. .

(Embodiments) Preferred embodiments of the present invention will be described below with reference to the drawings.

Note that although the examples show structures suitable for natural gas or propane gas burners, experts in the field may
It should be understood that suitable modifications to the air supply means and fuel supply means may be made to suit oil burners.

The steam generator of the present invention has a burner (11) at one end of the combustion chamber (lO) and a water spray nozzle (12) at the other end.
) has been established. The chamber (10) is equipped with a water jacket (15) (see Figure 2), which has a jacket inlet (15) near the lower end of the chamber (10).
6) A jacket outlet (1) is provided at the top of the chamber (10), that is, near the burner end. Water circulates within the jacket (15) and its circulation rate is controlled by a hydraulic regulator (19) located in the water inlet line (20). Water leaving the jacket (15) is sent through the jacket outlet (17) and piping (22) to the water spray nozzle (12). The nozzle (12) is provided inside the steam outlet line or discharge pipe (24). The combustion chamber (10) is formed in a size that allows complete combustion of the fuel by the flame of the burner (11) within the space of the chamber (10). As shown in FIG. 2, when fuel is burned at the maximum capacity of the burner (11) in the upper zone 26) of the chamber (10), the zone 25 for high-temperature combustion exhaust gas is removed from the combustion chamber (10). It is desirable to provide it at the bottom of the

The burner (11) may be an oil burner, but preferably is a burner that burns a mixture of air and a compressed gaseous fuel such as natural gas or propane gas. In the latter case, burners (11
) is provided with an inlet pipe (30). The introduction pipe (30) includes a large diameter air pipe (31) for compressed air, and a small diameter fuel pipe (32) is connected to the large diameter air pipe. Air pipe (
The junction (33) between the fuel pipe (31) and the fuel pipe (32) is immediately upstream of the venturi pipe (35). The gaseous fuel mixture passes through the venturi tube (35), is thoroughly mixed, and uniform combustion takes place in the burner head (11), resulting in a heat output (I).
+eat output) can be well controlled.

The air drawn through the filter (40) is pressurized by passing it through a blower (41) or other known compression means and is supplied to the air inlet pipe (31). The pressure inside the air introduction pipe (31) is controlled by a suitable pneumatic valve (42).
The pressure in the fuel ↑1 pipe (32) can be controlled by a conventional fuel valve (43).

By adjusting the valves (42) (43), the pressure and composition of the hot fuel can be varied as required.

Ignition of the burner (11)/\ can be easily carried out using a pilot (49) provided near the head of the burner (11). The fuel mixture is sent to the pilot (49) through supply lines (50, 51) connected to the main fuel pipe (32) and air inlet pipe (31), respectively.

The supply lines (50)<51) are respectively connected to valves (42) (4
3), it branches from the air pipe (31) and the fuel pipe (32). The supply line (5G) (51) is further equipped with a valve (
53) and (54) are provided, respectively, so that the combustion gas mixture at the desired pressure is supplied to the pilot (49).

Those skilled in the art will appreciate that the invention can be accomplished using different types of burners. The steam generated by the device according to the invention is
Since carbon monoxide is contained in the exhaust gas of 1), it is particularly desirable for applications where the amount of carbon monoxide generated by the burner (11) is required to be at a low level.

With the device of the invention, the carbon oxide level in the burner (11) is maintained low while steam is being generated.

This is because the flame will not be extinguished even if water is sprayed toward the flame from the nozzle (12). Furthermore, the description of the fuel supply means and air supply means is merely an example;
It can be changed depending on the type of burner used. If you are an expert in the field, you can use central control means;
It will be clear that a comprehensive system can be created that matches the flow rates and relative pressures of fuel, air and water.

Steam is generated by mixing the water spray from the water spray nozzle (12) and the hot combustion gases from the burner (11) at the lower end of the combustion chamber (10). Water spray nozzle (12), burner (
By spraying the water toward the exhaust gas in step 11), the water is violently agitated with the gas flow, creating a turbulent flow and sufficiently mixed, so that the water instantaneously vaporizes. By providing baffles in the combustion chamber (10) and the steam outlet line (24), turbulence and mixing conditions can be altered. The amount of steam coming out of the snunter nozzle line (24) can be determined by adjusting the output of the burner (11) and the output of the water spray nozzle (12). ) must be adjusted so that the water evaporates when it comes into contact with the hot exhaust gas from the burner (11).

S system using the present invention, relatively low pressure, e.g. 5-20 ps
i steam is generated, and most of this water vapor is distributed between the lower end of the combustion chamber (10) and the steam outlet line (24).
) occurs in the exit neck (59) between the

By utilizing the principles of the present invention described above, it is possible to generate steam at a much higher pressure than conventional direct-fired generators. The foregoing disclosure of the preferred embodiments is not intended to limit the scope of the invention, as defined by the claims, to these embodiments.

[Brief explanation of the drawing]

FIG. 1 is a partially exploded, partially cutaway perspective view of the generator of the present invention, and FIG. 2 is a longitudinal sectional view of the combustion chamber and associated elements. (10)...Combustion chamber (11)...Burner (12)...Water spray nozzle (15)...Water jacket (24)...Steam discharge pipe (31)
... Air supply pipe (32) ... Fuel supply pipe (50) ... Air supply line (51) ... Fuel supply line

Claims (8)

[Claims] (1) A combustion chamber having a water jacket having a circulating water inlet and a circulating water outlet so that water can be circulated, and first and second ends, and a combustion chamber provided at the first end of the combustion chamber. a burner; means for supplying compressed air and fuel to the burner for generating a flame directed from the burner to a second end of the combustion chamber; and a means connected to the circulating water outlet for generating steam without extinguishing the flame. A water sprayer located at the second end of the combustion chamber away from the burner flame and capable of spraying water in a direction opposite to the flow direction of the hot gases exiting the burner flame. A steam generator comprising: a nozzle; and a discharge pipe connected to a second end of a combustion chamber for conveying generated steam. 2. The generator of claim 1, further comprising a pilot located at the first end of the combustion chamber for supplying a pilot flame for the burner. (3) The means for supplying air and fuel to the burner includes a blower for compressing atmospheric air, an air supply pipe connected between the blower and the burner, and a fuel supply pipe connected to the air supply pipe. A generator according to claim 1, comprising a supply pipe. (4) a pilot provided at the first end of the combustion chamber for supplying a pilot flame of the burner, and an air supply line for connecting the air supply pipe to the pilot;
4. A generator according to claim 3, further comprising a fuel supply line connecting the fuel supply pipe to the pilot. (5) The air supply pipe, fuel supply pipe, air supply line, and fuel supply line are each equipped with a control valve,
Claim 4: The control valve for the air supply pipe is disposed downstream from the connection part of the compressed air supply line, and the control valve for the fuel supply pipe is disposed downstream from the connection part of the fuel supply line. The generator described in. (6) The water inlet of the water jacket is the second inlet of the combustion chamber.
the water outlet of the water jacket is located near the first end of the combustion chamber, and the water in the water jacket is arranged in a direction opposite to the flow of hot gases in the combustion chamber. 2. A generator as claimed in claim 1 in which the generator is free-flowing. 7. The generator of claim 1, wherein the water spray nozzle is located in an exhaust pipe at the second end of the combustion chamber. (8) A spray nozzle is disposed in the exhaust pipe at the second end of the combustion chamber, and the water sprayed from the spray nozzle in a direction opposite to the flow of hot gas is brought into contact with the hot gas to cause the exhaust pipe to open. 2. The generator according to claim 1, wherein the generator is constructed such that substantially all of the water therein can be vaporized.