DE102011077911A1 - Consistent feed of dusts with controllable restriction in the dust delivery line - Google Patents

Abstract

A device for the constant supply of dusts under ambient or increased pressure has a dust control valve that can be throttled in the dust conveying line connecting the fluidized bed of a dosing vessel with a dust collector. This dust control valve compensates for and also dampens pressure fluctuations, such as those that occur in the dust conveying line, in particular when the dosing vessel is refilled. Special refinements relate to a further equalization through a fixed throttle device and also auxiliary gas feeds into the dust conveyor line.

Description

The invention relates to a device for the constant supply of dusts under ambient or elevated pressure to a dust collector with compensation and also damping of pressure fluctuations in the dust delivery line.

The invention relates to methods and devices for the controlled supply of pneumatically conveyed dusts to a consumer, in particular for the controlled supply of pulverulent fuels in pressure gasification reactors.

Pneumatically conveyed dusts are dust-fine ground coals of varying degrees of coalification, cokes, possibly thermally pretreated biomasses or comminuted residual and waste materials from industry, commerce and household. Furthermore, inorganic dusts, such as those used, for example, for the refining of pig iron and for desulfurization, belong to the possible conveyed goods.

The pneumatic conveying of dust-like fuels is known in the dust gasification for the production of energy and synthesis gases or in the supply of fuel dust in the tuyeres of blast furnaces. The fuel dust is fed via a pressure-lock container to a metering container under process pressure, from which the fuel dust is fed to the consumer as a dust-conveying gas suspension with a high loading density between 250-450 kg / m3 via one or more delivery lines. As consumers, entrainment gasifiers, blast furnace blast furnaces, combustion boilers, or pig iron refining equipment are to be understood, using inorganic dusts.

As stringing gas for the pressure locks and as conveying gases, any gases which are low in oxygen for combustible dusts, in particular inert gases, such as, for example, nitrogen or carbon dioxide, can be used, which are free of condensable constituents, such as, for example, water vapor.

It is desirable in these technologies that the amount of dust flowing in the unit of time is kept constant to a high degree so as not to disturb the process to be charged. In particular, the discontinuous filling of the dosing from the pressure locks generates pressure fluctuations, which affects the serving as a driving force of the promotion between dosing and consumer pressure difference unfavorably. When changing the amount of material to be promoted vibrations occur, which settle and decay only after a long time. In the patent DE 10 205 047 583 B4 It is therefore proposed to compensate for the pressure fluctuations by the controlled supply of auxiliary gas in the immediate vicinity of the feed line inlet in the metering or in the delivery line and to damp occurring vibrations. This technique has been proven, but has the disadvantage that the delivery gas significant amounts of auxiliary gas are supplied. This is also supplied to the consumer and loads the product to be produced. When nitrogen is used as a delivery and auxiliary gas, for example, the nitrogen content of the synthesis gas increases in the combustion gasification.

The object of the invention is to provide a device for constant supply of the material to be conveyed to the consumer, with the differential pressure fluctuations between dosing and consumer and thus volume fluctuations are compensated for reduced amounts of auxiliary gas.

The problem is solved by a device having the features of claim 1.

The proposed solution provides a device for metering and feeding of dusts under pressure to a consumer, for example, from fuel to an entrained flow gasifier before, the dust-like conveyed from an operating bunker, which is under normal pressure, mutually fed via pressure locks a metering, in the Lower part by supplying fluidizing gas over a fluidized bed a dense fluidized bed is formed in the horizontally or vertically immerse one or more delivery pipes through which the conveyed continuously a pressurized customer / consumer 2 , For example, a pressure gasification reactor, is supplied. In order to eliminate or dampen pressure differences between the dosing and the consumer, a controllable and possibly a fixed orifice is installed in the dust delivery line. With the controllable throttle point, for example in the form of a control valve, alone a homogenization is achieved, which often eliminates an additional auxiliary gas supply. This can be dispensed with the auxiliary gas supply or these are at least limited. If auxiliary gas is supplied, it may be expedient to provide a fixed throttle point in order to preclude a superposition of control processes. The optionally arranged fixed throttle point may be positioned in front of or behind an optionally arranged auxiliary gas supply. Also, auxiliary gas can be fed directly via the throttle point of the delivery line.

The dust flow is measured in the delivery pipe, whereby the determined measured value prescribes the controlled variable for the control valve 3.3 to be adjusted amount of fluidizing gas and the position of the control valve 3.8 as well as if necessary via the control valve 3.3 Amount of auxiliary gas to be adjusted. It is also advantageous to measure the flow rate of the dust stream in the delivery lines in the range between 2 to 8 m / s. Since the flow velocity in the throttling points is increased several times, it is recommended to carry out these wear-resistant.

Significant advantages of the invention compared to the prior art are that by installing a cross-section variable dust control valve and optionally a fixed orifice in the delivery line (s) with or without auxiliary gas supply fluctuations in the pressure difference between dosing and dosing or pressure fluctuations serving as a driving force of the dust flow Customers can be compensated. At the same time, a constant flow of dust, for example during refilling operations from the pressure lock to the dosing vessel, can be ensured. The out of the lower part of the dosing outgoing feed lines can be arranged horizontally or vertically. The pressure in the delivery lines can be between 0.1 and 6 MPa (1 and 60 bar). The delivery pipe diameter can be selected between 10 and 80mm depending on the delivery rate and the number of delivery pipes. As a fixed throttle body are particularly suitable cross-sectional generating devices without significant change in the flow direction such as Venturi tubes, diaphragms and the like. In the case of controllable throttle bodies, cavities that lead to dust deposits must be avoided.

If several dust delivery lines fed from a metering, it comes potentially through the dust delivery line individual supply of fluidizing gas to a mutual influence of the dust levels in the dust conveyor lines. The invention counteracts the mutual influence of the amounts of dust in the dust conveyor lines.

Advantageous developments of the invention are specified in the subclaims.

The invention is explained below with reference to 2 figures and 2 examples, wherein an entrainment gasification was selected as the reference object

1 shows the scheme of technology for dust dosing under pressure with a fixed throttle point with and without auxiliary gas supply.

2 shows the scheme of technology with dust control valve.

In the figures, like names denote like elements.

Example 1:

An entrainment gasification reactor 2 to 1 is operated under a pressure of 4 MPa (40 bar) with a power of 500MW. For this purpose, hard coal dust in an amount of 90 mg / h is supplied to a particle size of <200 μm. For this purpose, the fuel dust is supplied from an operating bunker to a plurality of pressure locks (operating bunkers and pressure locks not shown) in order to pressurize the coal dust by pressurizing with an inert gas under process pressure. The dosing vessel 1 is via a fill-in control LIC 3.1 fill level control. Is the level in the dosing vessel 1 dropped to a minimum value, the refill takes place from the pressure lock. Depending on the amount of dust to be delivered, one or more pressure locks can be arranged. The dust conveyor lines 3.2 project vertically from above into the lower part of the dosing vessel 1 in, in the above a fluidized bed by supplying fluidizing gas 3.3 a very dense fluidized bed with densities up to 450 kg / m3 is generated. By applying a pressure difference between the metering vessel 1 and the gasification reactor 2 the fuel dust conveying gas suspension generated in the fluidized bed flows via the delivery lines 3.2 the gasification reactor 2 to. To 1 become in this example three delivery lines 3.2 , each with a capacity of 30 Mg / h, operated in the three burners 2.1 of the gasification reactor 2 lead. To differential pressure fluctuations between the dosing 1 and to dampen the gasification reactor and thus the flow rate in the dust conveyor lines 3.2 to keep constant is a fixed throttle device 3.6 arranged in the delivery line. As a fixed throttle device 3.6 Venturi tubes, baffles, pipe catching and permanently installed uncontrolled fittings come into question. To the throttle devices 3.2 can auxiliary gas immediately after the delivery pipe inlet 3.7 or in front of, behind or directly introduced into the fixed throttle device, as shown for example for the above-illustrated dust delivery line. The in the dust pipes 3.2 Promoted amount of dust is in 3.5 measured, whereby the measurement also specifies the control variables for the control valve 3.3 the amount of fluidizing gas and optionally for the control valve 3.4 for the auxiliary gas quantities in the auxiliary gas supply in 3.6 and 3.7

Example 2:

An air flow gasifier 2 to 2 is operated under the same conditions as in example 1. The throttle 3.8 is here as Staubregelarmatur in close proximity to the gasification burner 2.1 arranged. The position of the dust control valve 3.8 is determined by the control signals from the quantity measurement 3.5 affected. There is still the possibility of additional auxiliary gas over the Hilfsgaseinspeisestelle 3.9 and / or at the delivery pipe inlet 3.7 , also controlled by the quantity measurement 3.5 , the conveyor pipes 3.2 supply. As Staubregelarmaturen 3.8 wear-resistant versions are suitable whose design prevents the deposition of dusts and thus blockages.

In a particular embodiment of the invention, the measurement of the dust flow ( 3.5 ) between the dosing vessel 1 and the dust control fitting ( 3.8 ).

In a particular embodiment of the invention, the supplied auxiliary gas influences the pressure difference between the metering vessel 1 as well as the dust collector 2 in addition to the dust control valve and possibly fixed throttle device 3.6 and is used as a controlled variable for dust transport.

In a particular embodiment of the invention, the dust control fitting is similar to pressure fluctuations in the dust delivery line 3.2 with and without auxiliary gas ensures a constant carbon dust flow in the dust conveyor line 3.2 ,

In a particular embodiment of the invention, the dust flow as fuel dust the burners 2.1 a pressure gasification device 2 fed.

In a particular embodiment of the invention, the dust stream is fed as fuel dust to the tuyeres of a blast furnace.

In a particular embodiment of the invention, the dust stream is an inorganic substance which is supplied as a refining agent to a steelmaking process.

In a particular embodiment of the invention, the diameter of the delivery lines 3.2 between 10 and 80mm.

In a particular embodiment of the invention, the throttable dust control valve ( 3.8 ) according to a between the dosing 1 and the dust control fitting ( 3.8 ) arranged measurement of the dust flow ( 3.5 ) controllable.

LIST OF REFERENCE NUMBERS

1

 metering

2

 dust collector

2.1

 Infeed points of the dust collector

3.1

 level control

3.2

 Dust delivery line

3.3

 Control valve for fluidizing gas supply

3.4

 Control fitting for auxiliary gas supply

3.5

 Measurement of the dust flow

3.6

 Fixed throttle device

3.7

 Auxiliary gas supply at the delivery pipe inlet

3.8

 Dust control valve

3.9

 Auxiliary gas supply in dust delivery line

4

Inert gas / fluidizing gas / auxiliary gas

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 10205047583 B4 [0006]

Claims (19)

Device for the constant supply of dusts under ambient or elevated pressure to a dust collector with compensation and also damping of pressure fluctuations in the dust delivery line, in which - in the lower part of a metering vessel ( 1 ) in the dust filling by supplying fluidizing gas ( 4 ) via control valve ( 3.3 ) is given over a fluidized bed a dense fluidized bed, - a dust conveyor line ( 3.2 ) immersed with its one end in the fluidized bed and the other end with the dust collector ( 2.1 ), - a pressure difference between the dosing vessel ( 1 ) and the dust collector ( 2.1 ), - in the dust conveying line a dust control fitting ( 3.8 ), - a measurement of the dust flow ( 3.5 ) is arranged in the dust delivery line, - the measurement of the dust flow ( 3.5 ) with the control valve ( 3.3 ) is in operative connection in such a way that the amount of fluidizing gas supplied takes place in accordance with the measured dust flow, - the measurement of the dust flow ( 3.5 ) with the dust control fitting ( 3.8 ) is operatively connected such that the passage cross-section is controlled in accordance with the measured dust flow. Apparatus according to claim 1, characterized in that the dust delivery line ( 3.2 ) immersed horizontally in the fluidized bed. Apparatus according to claim 1, characterized in that the dust delivery line ( 3.2 ) immersed vertically in the fluidized bed. Device according to one of the preceding claims, characterized in that a fixed throttle device ( 3.6 ) in the dust delivery line between metering vessel ( 1 ) and dust control fitting ( 3.8 ) is arranged. Device according to one of the preceding claims, characterized in that an auxiliary gas supply at the delivery pipe inlet ( 3.7 ) is added in the metering vessel. Device according to one of the preceding claims, characterized in that an auxiliary gas supply ( 3.9 ) in the dust delivery line between dosing and measuring the dust flow ( 3.5 ) given is. Device according to one of the preceding claims, characterized in that an auxiliary gas supply ( 3.9 ) is given in the dust delivery line between dosing and fixed throttle device. Device according to one of the preceding claims, characterized in that an auxiliary gas supply into the fixed throttle device ( 3.6 ) given is. Device according to one of the preceding claims, characterized in that an auxiliary gas supply ( 3.9 ) in the dust delivery line between fixed throttle device ( 3.6 ) and dust collector ( 2.1 ) given is. Device according to one of the preceding claims, characterized in that an auxiliary gas supply into the dust control fitting ( 3.8 ) given is. Device according to one of the preceding claims 5 to 10, characterized in that the measurement of the dust flow ( 3.5 ) is in operative connection with the control valve for auxiliary gas supply ( 3.4 ) for metering the amount of auxiliary gas. Device according to one of the preceding claims, characterized in that a plurality of dust delivery lines ( 3.2 ) are arranged between the metering vessel and the dust collector. Device according to one of the preceding claims, characterized in that the dust from an operating bunker via at least one pressure lock the dosing ( 1 ) can be fed. Device according to one of the preceding claims, characterized in that it is given by a combustion dust feed system of above atmospheric pressure gasification device. Device according to one of the preceding claims, characterized in that the fixed throttle device ( 3.6 ) is given through a Venturi tube. Device according to one of the preceding claims, characterized in that the fixed throttle device ( 3.6 ) is given by a diaphragm. Device according to one of the preceding claims, characterized in that the fixed throttle device ( 3.6 ) is given by a tube draw. Device according to one of the preceding claims, characterized in that the fixed throttle device ( 3.6 ) is given by an unregulated valve. Device according to one of the preceding claims, characterized in that the Dust control fitting ( 3.8 ) is given by a throttling design.

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