前苏联专利SU1734576A3 Pneumatic weighing of powder material and delivering it into lances of plant

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专利摘要:
The method consists in forming in a single metering device a pneumatic mixture comprising the pulverulent material and propellant gas for propelling this mixture through a common primary conduit (18) into a distributor (20) in which the mixture is divided into secondary streams which are conveyed respectively to each of the injection points through secondary conduits (221, 222, ... 22n), determining the flow rate in each of the secondary conduits (221, 222, ... 22n) using tuyere flow sections (281, 282, ... 28n) and influencing the conditions of transport in each secondary conduit (221, 222, ... 22n) by modifying the pressure P3 downstream of each tuyere (281, 282, ... 28n) in order to maintain this pressure at a determined value. The process is aimed more particularly at the injection of powdered coal into a blast furnace. <IMAGE>
公开号:SU1734576A3
申请号:SU904743110
申请日:1990-02-13
公开日:1992-05-15
发明作者:Шмит Луи；Креммер Ивон；Юльвелинг Леон
申请人:Поль Вюрт С.А.(Фирма)；
IPC主号:

专利说明:

The invention relates to the supply of powdered material in a gas stream to various process units.
The purpose of the invention is to improve the accuracy of dosing.
FIG. 1-3 shows circuit embodiments of the proposed method.
FIG. Figure 1 shows the silos 1 and 2 in which the coal powder is stored and supplied to the blast furnace to provide a combustion process. The total flow rate of the powder fed to the furnace is regulated by two dispensers 3 and 4, which are alternately connected by the primary channel 5 to the distributor 6. In this distributor, the primary air flow is divided into secondary streams, which are directed through the secondary channels 7.1, 7.27, n
air ducts (tuyeres) 8.1. 8.2 8.p
blast furnace. Each channel 7.1,7.27 p
has a locking valve 9.1, 9.29.p
to disconnect one chili multiple 8.1 at the option of one. 8.2 8.p
distribution contour.
Consumption in each secondary channel 7.1. 7.27.p is determined by the nozzle through passage section 10.1, 102 10.p, provided in each secondary channel behind the valves 9.1, 9.29.p. This flow area is larger than the flow area of these nozzles at a critical speed, so the risk of blockage is almost eliminated, and the system is in working condition with a pressure of Pa much less than before nozzles.
Although the consumption of coal dust through nozzles 10.1, 10.2S, n is determined by their flow areas, this flow rate, however, depends on the pressure drop on these nozzles, i.e. from the ratio of P2 / Pz. So, if P2 remains constant, Pz is subject to pressure fluctuations in the furnace and depends on the physical parameters of the secondary channels, as indicated.
To eliminate this, it is proposed to artificially maintain a predetermined pressure P3 for each of the nozzles 10.1, 10.2
10.p. This is accomplished in the embodiment shown in FIG. 1, by connecting each of the secondary channels 7.1,
7.2 7.p for nozzles 10.1, 10.2 10.п
through the reverse clan 11.1, 11.2 11.p and
locking valve 12.1, 12.2 12.p on
channel 13 leveling gas. Pressure
WITH
with
Xi
with
4 SL VI O

CJ
the gas in the channel is adjusted to the value of the PT by means of the regulating valve 14 under the control of the pressure gauge 15 so that the pressure RZA with all the nozzles is set and maintained at the same level of the PT. The value of PT can be determined empirically in the process of switching on the installation by measuring P3 in each of the secondary channels 7.1, 7.2, ..., 7.n for different coal consumption and selection for a given consumption of the RT value, which should be at least equal maximum of pressure n measured in n secondary channels 7.1, 7.27.p
During the operation of the system, the influence of parameters or fluctuations that tend to change one or several pressures P3 behind the nozzles is automatically compensated by more or less suction of the equalizing gas at pressure PT, which causes all pressure Pz to be maintained constantly at the level of value. RT regardless of the parameters or fluctuations behind the nozzle.
It is possible to reduce the leveling gas flow rate by providing 7.1, 7.2 7.p in each of the secondary channels.
the leveling nozzles 16.1, 16.216.p,
whose dimensions are chosen so as to compensate for the difference between
the parameters of the secondary channels 7.1, 7.2
7.n, such as various lengths, sections, traces, etc., which are usually reflected on the value of P3.
Instead of creating the same RT pressure behind all nozzles 10.1. 10.2 10.n, as shown in FIG. 1. It is possible to adjust these pressures individually, as shown in FIG. 2
For this, each secondary channel is 7.1. 7.2, .., 7.p is connected to the equalizing gas channel 13 through a regulating valve under the control of a pressure gauge 18.1,
18.218.p., measuring the pressure Rz according to
secondary channel 7.1, 7.27.p.
Thus, the pressures P3 behind the nozzles are kept at the pressure level PTi. PT2. ..., DSPs, which may vary from one secondary channel to another, but which are always maintained at the same level in a certain secondary channel.
FIG. 3 shows another embodiment in which the pressures are kept constant behind the nozzles 10.1, 10.2,.,., 10.n not by means of a leveling gas, but by modifying sections
secondary channels. For this purpose, an adjusting valve 19.1, 19.2 19.p is provided in each of the secondary channels,
which reduces or increases each
section of the secondary channel 7.1, 7.2 7.p
under the automatic control of a monometer 20.1, 20.220.p, which measures the pressure in the corresponding channel. Thus, any tendency of the RZ pressure to deviate from the persisting pressure PTi, PT2, PTz, for example, under the influence of pressure fluctuations in the furnace, is automatically compensated by correct modification of the flow area at the level of the corresponding control valve, which withstands constant pressures PTi, PT2, RTZ.

权利要求:
Claims (5)
[1]
Claim 1. Pneumatic dosing of powdered material through the tuyeres of an aggregate, including forming a gas mixture from a powdered material and carrier gas, moving the mixture through a common pipeline into a mixer and its further distribution through tuyere pipelines, then throttling the mixture flow, and the pressure in the mixer is kept constant , characterized in that, in order to improve metering accuracy, the pressure in tuyere pipelines behind the throttling point Current mixture is maintained at a predetermined level of technology.
[2]
2. The method according to claim 1, wherein that the pressure is controlled by introducing into the tuyere pipe behind the place of throttling the flow of the leveling gas mixture at its pressure specified by the technology.
[3]
3. Method according to claim 2, characterized in that the leveling gas is introduced simultaneously into all tuyere pipelines.
[4]
4. A method according to claim 2, characterized in that in each tuyere pipe behind the throttling point of the flow pressure is measured, depending on the value of which the leveling gas flow is controlled.
[5]
5. A method according to claim 1, characterized in that in each tuyere pipe behind the flow throttling point the pressure is measured, depending on the value of which the flow cross section of the tuyere pipe after the pressure measurement point is changed by the control valve.
4i
$
4j
-v g
Sc
9.1
8.1
FIG. Z
W.n
M Ju.17.fЈ
/ 20.1
Goal
FIG 3
191
8.1
t l

类似技术:

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同族专利:

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AT120240T|1995-04-15|

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

LU87453A|LU87453A1|1989-02-14|1989-02-14|PROCESS FOR THE PNEUMATIC INJECTION OF QUANTITIES OF POWDERED MATERIALS INTO A VARIABLE PRESSURE ENCLOSURE|

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