Technical Area
[0001] The present invention concerns a method for producing cellulose pulp in a continuous
digester in an energy-efficient manner, as described in the preamble of patent claim
1.
The Prior Art
[0002] In conventional continuous digesters, chips are impregnated with impregnation liquid
in an impregnation vessel. The impregnated chips are subsequently cooked in a digester,
whereby the impregnation vessel and the digester are coupled to each other by means
of a transfer circulation. The transfer circulation consists not only of a transfer
line that feeds the chips from the outlet end of the impregnation vessel to the top
of the digester for the separation of free liquid in a top separator, but also of
a return line that feeds separated liquid from the top of the digester to the outlet
end of the impregnation vessel in order to be used as transfer liquid for the impregnated
chips.
[0003] In a steam phase digester steam is added at the top of the vessel, in order to heat
the chips before the cooking is begun. This steam requires a great deal of energy
and several inventions for this reason have been directed towards reducing the requirement
for steam that is added to the digester.
[0004] SE 518 957 reveals an invention in which one of the aims is to reduce the requirement for the
supply of steam to the top of the digester. According to this patent, a fraction of
the black liquor (14) withdrawn from the digester (2) is added at the beginning of
the transfer flow at what is essentially the withdrawal temperature Tav, which the
liquor has retained, with the aim of raising the temperature of the chips mixture
in the transfer circulation. A fraction of the withdrawn liquid from the top separator
of the digester is returned to the impregnation vessel such that it there can act
as impregnation liquid. A heating of the chips is obtained with this invention, which
ensures that the consumption of steam at the top of the digester can be reduced, and
the steam can therefore be used for another purpose. One limitation of this method
is that the temperature of the black liquor that is added should not be too high,
since this would then introduce the risk of steam implosion.
[0005] SE 511 850 reveals a way of simplifying the digestion plant with respect to the withdrawal of
liquid from the digestion system before the initial phase of the cooking, such that
the design of the impregnation vessel can be simplified. In one preferred embodiment
of the invention, cooking liquid is added to the top separator after the separation
of liquid in order to be mixed with the fibre material that has a low liquid content
under the influence of a screw in the top separator that feeds material in an upward
direction.
In accordance with Figure 2, the top separator of the invention has a rotating screw
29 that is arranged vertically. The top separator has also a lower sieve section 31
that is surrounded by a wall 34 in order to form an intermediate liquid chamber 35
for the collection of liquid, which liquid is pressed out through the sieve section
31 under the influence of the screw. A ring-shaped supply pipe 36 is arranged around
the screw 29. Holes 37 are arranged in the ring-shaped supply pipe for the supply
of white liquor and possibly also other liquid to the chips. The return line 26 is
connected to the liquid chamber 35. Steam at intermediate pressure is added through
line 39 to the upper steam space of the digester at the top of the digester 4 in connection
with the top separator 28 in order to heat the chips that are fed in by the screw
29 and that fall down over the edge 33. There is no connection between the withdrawal
space 35 and the ring-shaped supply line.
[0006] One risk with this solution is that the liquid that is added in the supply line can
give rise to blockage at the top of the digester since the added liquid can risk flushing
the chips in a backwards direction.
The aim of the invention
[0007] A first aim of the invention is to reduce the requirement of heating with steam at
the top of the digester.
[0008] A second aim of the invention is to be able to heat the chips before the cooking
process using a temperature of the hot liquid that is higher than that which is possible
when the heating is carried out at the transfer flow.
[0009] A third aim of the invention is to avoid clogging at the top separator in a steam
phase digester.
Brief description of the invention
[0010] The concept of the invention is to achieve a method for producing cellulose pulp
in a continuous digester system that is efficient in its use of energy. In a conventional
continuous digester, chips are fed continuously in a transfer liquid to a top separator
arranged at the top of a digester.
[0011] Separation of free liquid from the cellulose chips into a withdrawal space where
the liquid is collected takes place in the top separator. A fraction of the free liquid
is drawn from the withdrawal space in a return line, to a position at which it can
act as transfer liquid.
[0012] The invention is characterised in that a hot additive liquid is added to the withdrawal
space of the top separator. The temperature of the hot additive liquid that is added
to the withdrawal space is greater than the temperature of the withdrawn liquid in
the free liquid in the return line. The following advantages are achieved in that
the hot liquid is added to the withdrawal space
+ Any heating that takes place in the transfer circulation can be reduced or totally
eliminated, which ensures that the heating of the chips can be carried out by a liquid
at a higher temperature than that which is possible in, for example, the invention
described in SE 518 957.
+ The amount of steam that is added at the top can be reduced.
+ The hot additive liquid that is added at the withdrawal position does not flush
the chips against the direction of motion, and this means that the risk of blockage
at the top of the digester is reduced. In comparison with SE 511 850.
+ This method ensures that the withdrawal space is filled with liquid all the time,
which prevents blockage of the top separator.
Description of drawings
[0013]
- Figure 1
- shows a first preferred embodiment of the invention for which a patent is sought.
- Figure 2
- shows a second preferred embodiment of a digester system according to the invention
for which a patent is sought.
- Figure 3
- shows a third preferred embodiment of the invention for which a patent is sought.
- Figure 4
- shows a top separator arranged at the top of a digester according to the method for
which a patent is sought.
Detailed description of the invention
[0014] Figures 1 and 4 show a first preferred embodiment of a method for producing cellulose
pulp in a continuous digester system in an energy-efficient manner. Cellulose chips
are fed continuously to an impregnation vessel
10 in order to be impregnated in an impregnation liquid in the impregnation vessel
10.
[0015] Once the impregnation is finished, the impregnated chips are fed with a transfer
liquid in a transfer line
11 to a top separator
20 arranged at the top of a digester
30, for the separation of free liquid from the cellulose chips, where the digester
30 is a steam phase digester.
[0016] The transfer line
11 is connected to the bottom of the top separator
20 and the chips are thus fed upwards through the top separator.
[0017] In accordance with Figure 4, the top separator
20 has a rotating upwardly feeding screw
22 that is arranged vertically. The top separator
20 has also a screening surface
23, which is surrounded by an impenetrable wall
24 for the formation of an intermediate withdrawal space
21, for the collection of free liquid that is pressed out through the screening surface
23 under the influence of the screw
22. The withdrawal space
21 extends over at least 50%, preferably at least 75%, of the threaded height of the
screw
22.
[0018] At least a fraction of the free liquid that has separated is led in a return line
32 from the withdrawal space of the top separator to the outlet end of the impregnation
vessel in order to be used as transfer liquid. The return line
22 is connected to the lower part of the withdrawal space
21 and the temperature of the withdrawn liquid in the return line
32 is
Tut. A means
35 of creating pressure, preferably in the form of a pump, is arranged in the return
line
22.
[0019] At least one pressurised withdrawal of black liquor is carried out in the digester
30 essentially at the cooking temperature of at least 135 °C. A fraction of this pressurised
withdrawal of black liquor can be led to the bottom of the impregnation vessel along
a black liquor line
34.
[0020] An additive liquid with a temperature
Tin is added through an addition line
33 connected to the upper part of the withdrawal space, where this additive liquid consists
of at least part of the black liquor withdrawal. The additive liquid is mixed with
the chips under the influence of the screw
22 that feeds material upwards. The relationship between the temperature of the black
liquor withdrawal that is added to the withdrawal space and the temperature of the
free liquid withdrawn from the withdrawal space is such that
Tin>Tut. The additive liquid that is led in the addition line
33 is added to the withdrawal space
21 downstream of the return line
32, when seen in the direction of motion of the chips.
[0021] The liquid/wood ratio in the transfer line
11 is ≥7, the remaining liquid in the chips after they have passed the top separator
lies at a liquid/wood ratio of ≥3 and the amount of additive liquid in the addition
line
33 that is added to the withdrawal space
21 lies at a liquid/wood ratio ≥1.
[0022] The level of COD (Chemical Oxygen Demand) in the additive liquid that is added at
the top separator
20 may be either lower or higher than that of the free liquid that is withdrawn at the
top separator
20 in the return line
32.
[0023] Figure 2 shows a second preferred embodiment according to the method according to
the invention. Instead of using the pressurised black liquor withdrawal as additive
liquid, at least a part of the free liquid that is withdrawn at the withdrawal space
21 is here used. This withdrawal is heated in a heat exchanger
40, before it is led in the addition line
33 to the withdrawal space
21 as additive liquid, where the temperature of the additive liquid
Tin is higher than
Tut. The heating agent with which the additive liquid exchanges liquid in the heat exchanger
40 may be constituted of the pressurised black liquor withdrawal. Other types of heating
are possible instead of that of exchanging heat with liquids, such as, for example,
heating by steam. This embodiment otherwise is identical with the first preferred
embodiment.
[0024] Figure 3 shows a third preferred embodiment according to the method according to
the invention. The additive liquid in this embodiment is constituted by two liquids:
partly the pressurised black liquor withdrawal according to the first preferred embodiment,
and partly the heated free liquid that is withdrawn at the withdrawal space according
to the second preferred embodiment. This embodiment otherwise is identical with the
first preferred embodiment.
[0025] The following positive advantage are achieved with the invention:
+ Any heating that takes place in the transfer circulation can be reduced or totally
eliminated, which ensures that the heating of the chips can be carried out by a liquid
at a higher temperature than that which is possible in, for example, the invention
described in SE 518 957.
+ The amount of steam that is added at the top can be considerably reduced.
+ The hot additive liquid that is added at the withdrawal position does not flush
the chips against the direction of motion, and this means that the risk of blockage
at the top of the digester is reduced. In comparison with SE 511 850.
+ This method ensures that the withdrawal space is filled with liquid all the time,
which prevents blockage of the top separator.
+ The hot additive liquid does not noticeably affect the temperature in the transfer
flow.
[0026] Several embodiments than those described above are possible within the framework
of the attached patent claims. It is not necessary, for example, that the chips be
impregnated in an impregnation vessel before they are fed in the transfer liquid up
to the top separator. The chips instead can be subject to steam pre-treatment in a
steam pre-treatment vessel, or they may be treated by some other method.
[0027] It is thus fully without significance for the innovative concept of the invention
how the chips have been treated before they are fed into the top separator. The important
point is that a liquid is added to the withdrawal space, which liquid has a temperature
that is higher than the temperature that is withdrawn in the return line from the
withdrawal space.
[0028] The additive liquid can, as in the third preferred embodiment, be constituted by
two liquids, and it can also be constituted by more than two liquids. The only point
that is important for the innovative concept of the invention is that the temperature
of the additive liquid is higher than the temperature of the withdrawal that is drawn
in the return line.
1. A method for producing cellulose pulp in a continuous digestion system in an energy-efficient
manner, where the method comprises the following steps:
a) cellulose chips are fed continuously with a transfer liquid in a transfer circulation
(11) to a top separator (20) arranged at the top of a digester (30), for the separation
of free liquid from the cellulose chips, the top separator has a withdrawal space
(21) in which free liquid collects;
b) at least a fraction of the free liquid that has separated, with a temperature Tut, is led in a return line (32) from the withdrawal space of the top separator to a
position to be used as transfer liquid;
c) at least one pressurised withdrawal of black liquor is carried out in the digester
(30) essentially at the cooking temperature of at least 135 °C;
characterised in that additive liquid with a temperature T
in is added at the withdrawal space (21) of the top separator, where T
in>T
ut.
2. The method according to claim 1, characterised in that the chips have been impregnated with impregnation liquid in an impregnation vessel
(10), before the cellulose chips are fed in the transfer liquid to the top separator
(20).
3. The method according to claim 2, characterised in that the free liquid that has separated is led in a return line (32) from the withdrawal
space of the top separator to the outlet end of the impregnation vessel in order there
to be used as transfer liquid.
4. The method according to any one of claims 1-3, characterised in that the additive liquid is added at the withdrawal space downstream of the return line,
seen in the direction of motion of the chips.
5. The method according to any one of claims 1-4, characterised in that the additive liquid is mixed with the chips under the influence of a screw that feeds
material upwards at the top separator, and where the digester is a steam phase digester.
6. The method according to any one of claims 1-5, characterised in that the additive liquid is constituted by a liquid that has been heated.
7. The method according to claim 6, characterised in that the liquid that has been heated is constituted at least partially by the liquid withdrawn
from the top separator.
8. The method according to any one of claims 1-5, characterised in that the additive liquid is constituted at least a part of the pressurised black liquor
withdrawal.
9. The method according to any one of claims 1-5, characterised in that the additive liquid is constituted by at least a part of the pressurised black liquor
withdrawal and at least a part of the withdrawal from the top separator that has been
heated.
10. The method according to any one of claims 1-9, characterised in that the liquid/wood ratio in the transfer line is ≥7, and in that the residual liquid in the chips after the top separator lies at a liquid/wood ratio
≥3, where the amount of additive liquid that is added lies at a liquid/wood ratio
≥1.
11. The method according to any one of claims 1-10, characterised in that the withdrawal space (21) extends over at least 50%, preferably at least 75% of the
threaded height of the screw.
12. The method according to any one of claims 1-11, characterised in that the additive liquid that is added to the top separator has a lower COD level than
the liquid that is withdrawn from the top separator.
13. The method according to any one of claims 1-11, characterised in that the additive liquid that is added to the top separator has a higher COD level than
the liquid that is withdrawn from the top separator.
14. The method according to any one of the preceding claims, characterised in that the additive liquid is added to the upper part of the withdrawal space through an
addition line (33), and in that the return line (22) is connected to the lower part of the withdrawal space (21).