FI119125B - Method and input device for feeding solid fuel - Google Patents

Description

119125

A method and feed arrangement for feeding solid fuel

The invention relates to a method for feeding solid fuel 5 to a process space, such as a furnace, gasification chamber or the like, by means of a feed arrangement comprising an intermediate container which is closed and opened by the supply means and discharging means. The fuel is discharged from the intermediate tank by means of unloading means for bringing it into a process space with the intermediate container closed by the feed means. The flow of process gas from the Proses-15 through the fuel feed arrangement to the environment is prevented by pressurizing the intermediate tank and discharge means to a substantially higher pressure than the process space.

In the above use it is known to use e.g. lock-hopper-type equipment consisting of an intermediate tank with a shut-off valve * * * * · * · * at the top and bottom. Such equipment is operated either by opening the upper valve • · * .V 25, after which the intermediate tank is filled with fuel. The upper valve is then closed, after which *: * the fuel can be discharged into the process space through the open lower valve • · · ·. The lower valve is then closed.

30 * · ♦. ···, Another alternative way in this context is to * · * · * produce the desired amount of fuel in the upper valve.

• · · t t f «» I I

t. * lm, then open the top valve and ··· * ... · allow the charge to drop into the intermediate tank. The upper valve 35 is then closed, whereupon the fuel drops into the process space after the lower valve is opened, and the lower valve is then closed.

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Due to its operating principle, lock-hopper apparatus of the above type cannot be completely gas-tight. Therefore, an amount of 5 gases corresponding to the volume of fuel to be fed into the intermediate tank is transferred from the process space during each feed cycle. This gas is released into the open air when the intermediate tank is filled with the following fuel charge. Another problem relates to the mode of operation of the lock-hopper apparatus, in which the fuel charge is first taken on the valve, from which it is expected to fall through when the valve opens. However, the solids supply, as described above, generally requires very large orifice valves (at least DN 250), which are very expensive due to the clogging problem. Thus, the type of operation described above has proved to be unreliable in practice. A third problem related to the above-mentioned type of equipment arises in this connection from the obligatory batch-type fuel supply to the process space. In this regard, the combustion process, in particular the gasification process, requires in practice optimum operation of a continuous fuel supply of * · · * · * following continuous combustion process efficiency. However, such solutions do not succeed with conventional lock-hopper-type hardware, but require sophisticated hardware solutions that are difficult to adjust in practice to achieve a satisfactory gasification process ··· # *: ** *: si.

• · · 30 On the other hand, it is also known per se to prevent the combustion gases from entering the supply duct by pressurizing • «* 1 * the supply space to a pressure higher than the combustion chamber. One such application is described, for example, in U.S. Patent No. 4,619,209, which discloses a process gas flow from the 35 process spaces through a fuel supply arrangement to prevent the flow of process gas from being pressurized substantially above the process space. Ko. however, unlike the present invention, solution 119125 3 is based on a so-called "fuel". below the input to the process space.

The purpose of the method of the present invention is to provide a decisive improvement on the above problems and thus to substantially improve the state of the art. To accomplish this purpose, the method 10 of the invention is essentially characterized in that solid fuel is fed into the process space by top-down transfer conveyors and open-close type unloaders 15 belonging to the unloading members.

The most important advantages of the method according to the invention are the simplicity and efficiency of its operation and use. The method according to the invention is capable of providing the long-desired over-pressurized solid fuel supply technically with a relatively simple feed arrangement • · *. ·. * Sufficiently reliably. The process stream: Y: 25 from the process space through the fuel feed arrangement to the environment is completely eliminated by the invention, with the pressure levels of the intermediate tank and discharge • * * being substantially higher than the process space, which * * *. • · there is no access to the event. Overpressure,. 30, the solid fuel supply arrangement used is preferably pressurized from the combustion or gasification air arrangement of the combustion process: ·: with the air supplied to the intermediate tank • · essentially the fuel fed into the process space • * * 3 5 at the corresponding flow rate. In this case, the intermediate tank * · · *. in practice, air flow through the conveyor conveyor through an open unloader into the process space, and in no case vice versa.

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Advantageous embodiments of the method of the invention are set forth in the dependent claims.

The invention relates to a feed arrangement operating according to a method, which is further defined in the preamble of the independent claim therein. The features of the feed arrangement according to the invention are mainly characterized in the characterizing part of the corresponding claim.

By means of the feed arrangement according to the invention, it is possible to carry out the supply of fuel above the fuel 15 of a technically demanding incineration process on the one hand and on the other hand so that process gases cannot escape from the process space to the environment. This is made technically possible by a very simple feed arrangement by pressurizing the intermediate tank and discharge members to substantially higher pressures than the process space, and by supplying fuel to the discharge members with a substantially gas-tight transfer conveyor: open and open. A · · · · · · · · · ·. it is possible to pressurize the feed arrangement to the intermediate tank by means of a volume flow substantially • supplied by a flow corresponding to the fuel fed into the process space, through the transfer conveyor and the unloader in the open position to the process space, and vice versa .

* · · • · * · .. * The air used to pressurize the intermediate tank is derived in its simplest form • ·; ***. • * · 35 combustion or gasification of the combustion process, which means that pressurization per se does not require • · · '· *] additional equipment than conventional solutions.

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Advantageous applications of the feed arrangement according to the invention are disclosed in the dependent claims.

In the following description, the invention will be illustrated in detail with reference to the accompanying drawings, in which Fig. 10 shows the operating principle of a prior art Lockhopper type apparatus and Fig. 2 15 illustrates the operating principle of a feed arrangement operating according to the method of the invention.

The invention relates to a method for feeding solid fuel 20 to a process space 1, such as a furnace, gasification chamber or the like, by means of a supply arrangement 2 comprising an intermediate container 2c which is closed and opened by supply means 2a and discharge means 2c; Within the limits, preferably automatically, e.g., controlled by the level adjusting members 2d shown in Fig. 1, by supplying fuel Pa to the intermediate container 2c using the supply means 2a, the intermediate container being closed by the discharge means 2b. The fuel is discharged from the intermediate tank # ·>. Using the discharge means 2b to bring it into process space 1 • · · with the intermediate tank with the supply means • * * "2a closed. From the process space 1 to the process through the fuel supply 2, and pressurizing the intermediate container 2c and the discharge means • ♦ · n ,; to a substantially higher pressure than process space 1.

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Solid fuel Pa is fed into the process space 1 from above by dropping off the conveyor 2bl of the discharge members 2b and the open-closed type discharge device 2b2.

The pressurized solid fuel feed arrangement 2 is pressurized, preferably from the combustion or gasification air blast arrangement of the combustion process from the process space 1, to the intermediate tank 2c, substantially at the flow rate 2b In this connection, it is possible to utilize the air generated from the air blower arrangement of the 15 direct combustion processes, since the air supplied to the combustion process from the corresponding source results in greater pressure drop, resulting in a naturally in relation to.

In a further preferred embodiment, fuel Pa is supplied to process space 1 by means of a continuously operating, preferably continuously adjustable and substantially: ***: environmentally gas-tight conveyor * ·· ··· 2bl, such as a frequency converter-controlled • · * ·. * ·. a bore, screw conveyor or the like, which · · · feeds the fuel discharged from the intermediate tank 2c to process space 1 at the desired flow rate of the combustion process.

The invention also relates to an arrangement for supplying an embodiment of the method described above, which is based firstly on,. 35 saw that the flow of fuel from process space 1 through the fuel supply system 2 to the environment was prevented by arranging the intermediate tank 2c and the discharge means substantially in the process! - 119125 7 laa 1 pressurized to a higher pressure. On the other hand, the unloading members 2b include a transfer conveyor counterblock for the combustion process 2bl and an open-close type unloader 2b2 for supplying solid fuel Pa 5 to the process space 1 by dropping from above.

The pressurized solid fuel supply arrangement 2 is arranged to be pressurized to the intermediate tank 2c by air supplied substantially with a volume flow rate corresponding to the fuel fed into the process space 1, thereby causing the intermediate tank 2c to flow through the conveyor 2bl and the unloader

The air used for pressurizing the intermediate vessel 2c is derived, as a preferred embodiment, from the combustion or gasification air blower arrangement of the combustion process in process space 1. In accordance with the preferred embodiment shown in Figure 2, the intermediate tank 2c is further provided with a spout valve 3, which facilitates the filling of the intermediate tank 9c by discharging air corresponding to the fuel supplied to it,,, ϊ,,, and explosive: Y: 25 Correspondingly, the replacement air duct has • 9 · ***: a shut-off valve 4 provided. The supply means 2a and 9 9 · the spout valve 3 are connected to each other to operate 9 9 · #. * ··. at the same time so that they are in the open position 9 · with the replacement air valve 4 closed and closed. . 30 position with replacement air valve 4 open.

9 9 9 • 9 9 • 9 • 9 9 • 9 * · “A further advantageous practical application is the use of a bore, screw • 9 9 .1 for the continuous operation of the transfer conveyor 2bl that feeds fuel to process space 1. 35 conveyor or equivalent. In addition, the intermediate container 2c and

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9 9 9 •. the transfer conveyor 2bl is preferably implemented with substantially gas-tight structures in relation to the environment.

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In a further preferred embodiment, the transfer conveyor 2bl is provided steplessly, such as a frequency converter, for use in feeding fuel discharged from the intermediate tank 2c to process space 1 at a desired flow rate of the desired combustion process power.

The supply means 2a and the discharge device 2b2 belonging to the discharge means are realized in their simplest form with ball, ball valves or the like, depending on the fuel used, between DN 75 and DN 200, particularly when using chips preferably DN 150. In the feeding arrangement according to the invention This is due to the fact that the feed system transfer conveyor produces solid fuel in a controlled, continuous flow, which, through the unloader 2b2 still open, drops to process space 1. In this way, fuel-fuel wasting problems associated with conventional solutions can be avoided, does not assemble the heap before dropping it into the process state.

It is understood that the invention is not limited to the foregoing or described applications, but may be modified within the scope of the present invention according to the intended uses and applications. Thus, first, it is possible ··· ♦. ***. equip the feed arrangement to be utilized in the method with a larger number of equipment and automatic ..... 30, such as for example, in the case of stray storage in an intermediate tank, or other such exceptional • · * 1 * disturbances that may be caused. *. · For example from extremely inhomogeneous, wet or ··· ϊ., .Ϊ solid fuel. In addition, it is of course possible to provide an intermediate container e.g.

*** * ..... with temperature and pressure sensors, which can be interrupted if necessary in extreme situations. In addition, it is of course possible to provide 119125 9 with visual monitoring devices such as sight glasses or the like in addition to the intermediate container and / or conveyor.

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Claims (10)

119125 10 A method for supplying solid fuel to a process space (1), such as a furnace, a recovery chamber 5 or the like, by means of a supply arrangement (2) comprising an intermediate container (2c) which can be closed and opened by supply means (2a) and discharge means (2c). maintaining the surface within the set limits by supplying fuel (Pa) to the intermediate container 10 (2c) using feed means (2a), the intermediate container being closed by the discharge means (2b), using the supply means (2b) to bring it into the process space (1); and wherein the process gas (1) is prevented from flowing into the environment through the fuel supply arrangement (2) by pressurizing the intermediate tank (2c) and the discharge means to a substantially higher pressure than the process space (1), characterized in that solid fuel (Pa) p by dropping the conveyor belts (pur.ϊ.ϊ, ϊ la (2bl) and open-close type) of the conveyor belts (2b) of the dismantling means (2b). ·· *; * · * · 25 • · Φ ^ • ·. ***. The method according to claim 1, characterized in that the solid fuel supply arrangement (2) used for pressurization is pressurized, preferably by means of a combustion or gasification fan arrangement in the process space, · With combustion air produced in the intermediate tank (2c) • · '··· * with combustion flow substantially supplied to the process space (1) *** with a volume flow equivalent to the substance (Φ), whereby airflow (w) through · · · · · · · · · · · · · · · · · · · · · · · *** | via the unloader (2b2) to the process space (1). • · 119125 11 Method according to Claim 1 or 2, characterized in that the fuel (Pa) is supplied to the process space (1) by means of a continuous, preferably continuously adjustable and environmentally gas-tight transfer conveyor (2bl), such as a bump, screw conveyor or the like. feeding the fuel discharged from the intermediate tank (2c) to the process space (1) at a flow rate of 10 volumes corresponding to the desired combustion process power. A supply arrangement for supplying solid fuel to a process space, such as a furnace, gasification chamber or the like, wherein the supply system (2) comprises an intermediate container (2c) which can be closed and opened by supply means (2a) and discharge means (2b); within the limits set, by supplying fuel (Pa) to the intermediate container (2c) using feed means (2a) 20, the intermediate container being closed with the discharge means (2b), and from which the fuel is arranged to be discharged by the discharge means (2b); ·: Closed by the feed means (2a), whereby the process-> V; 25 children (1) through the fuel supply arrangement (2) • ·. ** ·. flow of process gas into the environment is prevented by providing an intermediate container (2c) and discharge means ", Y. ' (2b) pressurized to a pressure substantially higher than the process space (1), characterized in that the unloading means (2b) includes a transfer conveyor (2bl) with respect to the combustion process and an open «· Type Discharger (2b2) for supplying solid fuel · * · *. (Pa) to the process space (1) from above by dropping • «. · * ·. ··· 35 The supply system according to claim 4, characterized in that the solid fuel supply arrangement (2) used for pressurized operation is arranged in a pressurized intermediate tank (2c) in a substantially process space (1). air (5c) through the transport conveyor (2bl) and the unloader (2b2) in the open position to the process space (1). 6. A feed arrangement according to claim 5, characterized in that the air used for pressurizing the intermediate tank (2c) is derived from the combustion or gasification fan control of the combustion process in the process space (1). A feed arrangement according to any one of the preceding claims 4 to 15, characterized in that the transfer conveyor (2bl) feeding the fuel (Pa) to the process space (1) is a continuously operated drum, screw conveyor or the like. Feeding arrangement according to claim 7, characterized in that the transfer conveyor (2bl) is arranged steplessly, such as a frequency converter V: operatively used for feeding fuel discharged from the intermediate tank (2c) to the process space (1) at the desired flow rate: Y: 25 . * * • · · • · e · * · The process of any one of the preceding claims 4-8 ···, ···. A supply arrangement according to claim 1, characterized in that an intermediate tank (2c) and a transfer conveyor (2bl) are provided .. with substantially gas-tight structures in relation to the environment. • · a • a A feed arrangement according to any one of the preceding claims 4-9 * a: 1: characterized in that the feed means (2a) and the discharge device belonging to the unloading means • · «*. (2b2) are provided with ball, ball valves or the like having a size between DN 75 and DN 200, and especially DN 150 when using wood chips. 119125 13