Title of Invention

VACUUM VESSEL FOR TREATMENT OF OILS

Abstract A vacuum vessel for continuous or semi-continuous treatment of oils in connection with deodorization comprises spaces (12,12,12) through which oils to be treated is brought to pass and means to heat or cool the oil in the form of U-tubes. There are perforated pipes (26) arranged at the bottom of said spaces to lead stripping gas into said oil. The vessel has a connection to a vacuum source (7). The spaces in the vessel are arranged such that the oil to be treated in the vessel flows through the same by gravity. The heating or cooling medium passing the U-tubes is arranged to be pumped there through. The U-tubes for heating or cooling medium are arranged in such a way that the flow of oil is counter-current to the flow of heating or cooling medium all through the vessel and a number of U-tubes are arranged in groups (13), parallel and in rows above each other in said spaces.
Full Text

Vacuum vessel for treatment of oils
The present invention relates to a vacuum vessel for continuous or semi-
continuous treatment of oils in connection with deodorization, which
vessel comprises spaces through which the oil to be treated is brought to
pass, means to heat or cool the oil in the form of U-tubes, perforated
pipes arranged at the bottom of said spaces to lead stripping gas into
said oil, which vessel has a connection to a vacuum source and which
spaces in the vessel are arranged such that the oil passes through the
vessel by gravity and a heating or cooling medium passing said U-tubes
is arranged to be pumped therethrough.
Such a vacuum vessel for treatment of fatty oils is described for example
in EP 0 763 082 B1. When producing consumer products as edible oils
out of different vegetable or animal oils deodorization is a part of the
refining process. During the deodorization the oil is heated to a high
temperature 180 - 275 °C in order to remove contaminants and
unwanted substances from the oil. These substances have a lower
boiling point than the different triglycerides, which constitute the edible oil.
The deodorization is carried through under vacuum 1-20 mbar and the
removal of the volatiles is facilitated by adding stripping gas to the oil. The
stripping gas may consist of an inert gas or steam. The stripping gas
ensures agitation of the oil and promotes heat transfer and makes the
removal of the unwanted substances easier.
Vacuum vessels may be used for treatment of many kinds of oils and fats
including mineral oil.
For many types of oils it is useful to heat the oil under vacuum with
addition of stripping gas during a pretreatment step prior to the

deodorization in order to remove the dissolved air and that hinder an
oxidation of the oil.
The deodorized oil is also in many cases subjected to a further treatment
with injection of stripping gas during a simultaneous cooling after the
deodorization step.
The vessel is specially adapted for exchanging heat between incoming
and outgoing edible oils in deodorizing and physical refining plants. The
incoming oil to the deodorizing column is heated by outgoing oil under
vacuum and sparging conditions
The aim of the invention is to increase the efficiency of the heat exchange
between the oil and the heating or cooling medium while limiting the size
of the vacuum vessel. This is achieved in that the U-tubes for heating or
cooling medium are arranged in such a way in said spaces that the flow
of oil is counter-current to the flow of heating or cooling medium all
through the vessel and that a number of U-tubes are arranged in groups,
parallel and in rows above each other.
The vacuum vessel according to the invention may with advantage
comprise at least one layer of spaces for the oil to be treated in the
vessel. According to a preferred embodiment of the vacuum vessel
according to the invention there are two layers of spaces for oil. There is
an inlet for the oil to an upper part of the upper layer and an outlet for the
oil in a lower part of the lower layer. There is also a channel connecting a
lower part of the upper layer to a higher part of the lower layer. This
channel may advantageously be situated on the outside of the. vacuum
vessel. If so is suitable the vessel may contain three or more layers of
spaces.

The lower part of the vessel has preferably a square-shaped or
rectangular form while the upper side is curved (bended).
In the vessel there are with advantage channel plates separating the
spaces for oil from each other in order to create a long path for the oil
through the vessel. The channel plates are firmly connected to two sides
of the vessel facing each other and are provided with an opening in one
end to provide a connection to another space for the oil. The opening is
provided in an end firmly connected to a first side of the vessel. It is
possible to let the channel plates end at a distance from one of the sides
but when the channel plates are firmly connected to both sides the
stability of the vessel increases.
Between the channel plates there are walls firmly connected to said first
side of the vessel and ending at a distance from the a second side. These
walls are situated between the legs of the U-tubes. This arrangement of
the walls in relation to the channel plates make it possible to obtain a
counter-current flow of the oil in relation to the heating or cooling medium.
Of course it is possible to obtain the desirable counter-current flow in
some other ways within the scope of the invention.
On the outside of the first side of vacuum vessel there are headers, which
define inlets to distribute the heating or cooling medium into the U-tubes
and outlets to collect the heating or cooling medium after passage of the
U-tubes. By arranging different headers for the inlet and outlet to each
group of U-tubes it is easier to seal each header due to the smaller
covers. The smaller covers mean that there is less critical machining for
the gasket surface, lower risk of warp and a better choice of gasket
material. This is important for preventing leakage of oil during operation,
but also for preventing entry of air during stock-change.

The second and third headers are connected as well as the fourth and fifth header
and so on, counted from the inlet for the heating or cooling medium. In this way the
heating or cooling medium is made to flow through the U-tubes in all spaces in the
vessel.
The number of U-tubes in each space for oil depends on the desired capacity of the
vacuum vessel.
The walls between the channel plates in the upper layer of spaces are suitably
hollow in order to create a connection between a volume above the oil in the lower
layer and a volume above the oil in the upper layer of spaces, which upper volume
is connected to the vacuum source.
The vacuum vessel according to the invention is preferable made up by thin
elements, baffles and channel plates, which are arranged in such relation to each
other that the structure of the vessel is self-supporting.
The vacuum vessel according to the invention may be used for preheating fatty oils
to be deodorized by already deodorized oil and subjecting said deodorized oil to a
further treatment with stripping gas.
BRIEF DESCRIPTION OF THE ACCOMPANYING DRAWINGS
A preferred embodiment of a vacuum vessel according to the invention is described
in more detail with reference to the attached drawings.
Fig. 1 shows a perspective drawing of the vacuum vessel,
Fig. 2 shows a perspective drawing of the vacuum vessel as seem from a point of
view, where the front side has been removed,
Fig. 3 shows another perspective of the drawing of fig. 2.
Fig. 4 shows a horizontal cross-section of the vacuum vessel
and Fig. 5 shows the front side of the vacuum vessel and the groups of U-tubes.

The embodiment of the vacuum vessel 1 shown in fig. 1 has an elongated
form with a first side 2. There is an inlet 3 for the oil, which is to be treated
in the vessel in an upper corner of the side 2 and an outlet 4 for the
treated oil in a lower corner. There are also an inlet 5 and an outlet 6
for a heating or cooling medium. At the top of the vessel 1 there is a
connection 7 to a vacuum source. There are also three sight-glasses 8.
As may be seen in the drawing there is a leg 9 in the left end of side 2
which is higher than the teg 10 at the right end. This arrangement results
in that the bottom of the vessel is inclined in relation to the foundation.
There are also headers 11 for distributing the heating or cooling medium
over the group of U-tubes.
At the other end of the vessel (not shown in the drawing) there are
sparging pipes for stripping steam and further sight-glasses for a lower
layer or deck.
In fig. 2 there is shown the spaces 12,121 through which the oil to be
treated flows as well as the inlet 3 for the oil. The oil enters the vessel by
way of the inlet 3, flows along the long-side of the vessel and returns
through space 121 to the first side 2 of the vessel. The oil is then directed
to the next space 122 through the opening visible in the channel plate
between 12 and 121 and flows again to the other side of the vessel. In
each space for the oil there are legs of a group of U-tubes 13 for heating .
or cooling the oil to be treated. The spaces for oil are arranged in two
layers or decks 14 and 15.
The spaces for the oil 12,121, 122 are shown more clearly in fig. 3. There
are longitudinal channel plates 16,161 separating spaces 12 and 121 from
spaces 122 and the next space and so on. These channel plates extend

from the first 2 to the second side of the vessel and are firmly connected
to these sides. As may be seen in the drawing there are openings 17 for
the oil in the channel plates 10,161 at the ends connected to the first
side. In this drawing only the ends and parts of the group of U-tubes is to
be seen. The arrangement and bends of the U-tubes are shown in fig.4.
Between the legs of the U-tubes there are walls 18,181 firmly connected
to the first side. As may be seen in fig. 4 these walls end at a distance
from the second side. The walls have such a height that the level of oil is
well below the upper edge of the walls. The walls 18 in the lower layer 15
are single, while the walls 19 in the upper layer 14 are double forming a
duct 20. The bottom 21 of the upper layer is provided with openings,
which cooperate with the ducts 20 between the walls 19 to provide a
connection between the volume 22 above the oil in the lower layer 15 and
a volume 23 above the oil in the upper layer 14. The volume 23 is
connected to the vacuum source. The grey arrows show the connection
between the lowermost volume 22 and the vacuum connection 7.
As described earlier the oil to be treated enters through the inlet 3 and
flows forwards and backwards until it reaches the last space in the upper
layer, where there is an opening in the bottom 21 cooperating with an
internal outlet 24. The way for transporting the oil to the lower layer of
spaces will be explained later. The oil is transported to the uppermost
space of the lower layer (to the left in the drawing) and flows forwards
and backwards through the spaces until it reaches the outlet 4 for treated
oil.
Fig. 4 shows how the groups of U-tubes are arranged in the spaces 12,
121 and 122. The spaces 12 and 122 are separated by the channel plate
16, which channel plate is firmly connected to the first side 2 and the
second side 25. Between the legs of the group of U-tubes in the lower

deck there are walls 18 forcing the oil to flow to the second side 25 of the
vessel before returning to the first side again.
In the drawing there are also shown the sparging pipes 26,261 and so on,
for introducing stripping gas into the oil. Outside the vessel there are
means to distribute the stripping gas to the sparging pipes. As may be
seen on the drawing there are also sight-glasses 27 through which the
sparging conditions may be supervised. The heating or cooling medium
enters through the groups of U-tubes at the upper end of the drawing and
flows In counter-current to the oil to be treated all through the spaces in
the shown layer. The arrows show how the oil and the heating or cooling
medium flow in counter-current The arrows showing the oil flow is
somewhat darker than the arrows showing the flow of heating or cooling
medium.
Fig. 5 shows the first side 2 of the vessel, the inlet 3 for the oil to be
treated and the outlet 4 for the treated oil. There is also shown the inlet 5
for heating or cooling medium and the outlet 6 for the same. In the shown
embodiment of the invention there are six groups of U-tubes in each
layer. The heating or cooling medium enters one leg of an U-tube and
returns through the other leg. In the shown embodiment there are five U-
tubes in nine rows above each other, The heating or cooling medium
enters the first header 28 and is distributed over and into the first leg of
the forty-five tubes. When the heating or cooling medium has flown
through the U-tubes it is collected in the second header 281. There is a
connection between the second header 281 and a third header 282 and
the heating or cooling medium flows into the third header and is
distributed into the second group of U-tubes. Also the heating or cooling
medium flows forwards and backwards in the U-tubes until it reaches the
last header 29 in the lower layer. Between this header 29 and another

header 30 in the upper layer there is a channel 31 through which the
heating or cooling medium may flow (be pumped) to the upper layer.
The heating or cooling medium flows forwards and backwards within the
U-tubes until it reaches the last header 32 in the upper layer. The heating
or cooling medium leaves the vessel through the outlet 6.
As was mentioned earlier the oil to be treated is transported from the
upper layer of spaces to the lower layer of spaces. This transport takes
place by way of channel 33 situated inside of the channel 31.
The vacuum vessel may be self-supporting in that the channel plates 16,
161 and the baffles 34 (fig.4) cooperate.

WE CLAIM
1. Vacuum vessel for continuous or semi-continuous treatment of oils in
connection with deodorization, which vessel comprises spaces through which
the oil to be treated is brought to pass, means to heat or cool the oil in form
of U-tubes, perforated pipes arranged at the bottom of said spaces to lead
stripping gas into said oil, which vessel has a connection to a vacuum source
and which spaces in the vessel are arranged such that the oil passes through
the vessel by gravity and a heating or cooling medium passing said means is
arranged to be pumped there through, characterized in that the U-tubes
for heating or cooling medium are arranged in such a way in said spaces (12,
121, 122) that the flow of oil is counter- current to the flow of heating or
cooling medium all through the vessel and that a number of U-tubes are
arranged in groups (13), parallel and in rows above each other in said
spaces.
2. Vacuum vessel as claimed in claim 1, wherein the vessel (1) comprises at least
one layer of spaces for the oil to be treated in the vessel.
3. Vacuum vessel as claimed in claim 1-2, wherein the vessel comprises two
layers (14,15) of spaces for the oil to be treated in the vessel and that there
is an inlet (3) for the oil to an upper part of the upper layer (14) in the vessel
and an outlet (4) for the oil from a lower part of the lower layer (15) in the
vessel and that there is a channel (33) connecting a lower part of the upper
layer (14) with a higher part of the lower layer (15).

4. Vacuum vessel as claimed in any of the preceding claims, wherein the lower
part of the vessel has the form of a square-shaped or rectangular container
with a curved (bended) upper side.
5. Vacuum vessel as claimed in any of the preceding claims, wherein there are
channel plates (16) separating the spaces (12,121,122) for oil from each
other in order to create a long path for the oil, which channel plates are
firmly connected to two sides (2,25) of the vessel facing each other and are
provided with openings (17) for the oil to pass on to an adjacent space in the
end of the channel plate firmly connected to a first side (2) of the vessel.
6. Vacuum vessel as claimed In claim 5, wherein there are walls (18,19)
between the channel plates (16), which walls are firmly connected to said
first side (2) and ending at a distance from a second side (25) of the vessel,
which walls are situated between the legs of the U-tubes.
7. Vacuum vessel as claimed in claim 6, wherein there are headers (28,29, 30,
32) outside said first side (2) of the vessel, which headers define inlets to
distribute the heating or cooling medium into the U-tubes and outlets to
collect the heating or cooling medium after the passage through the U-tubes.
8. Vacuum vessel as claimed in claim 7, wherein heating or cooling medium are
distributed by the headers (28, 29,30,32), where the second and third
headers as well as the fourth and fifth headers and so on, counted from the
inlet (5) for heating or cooling medium are connected in order to make the

heating or cooling medium flow through the groups of U-tubes in all spaces in
the vessel.
9. Vacuum vessel as claimed in claim 6, wherein the walls (19) between the
channel plates (16) in the upper layer of spaces are hollow in order to create
a connection between a volume (22) above the oil in the lower layer of
spaces and a volume (23) above the oil in the upper layer, which upper
volume is connected to the vacuum source.
10. Vacuum vessel as claimed in any of the preceding claims, wherein the vessel
comprises elements in the form of baffles (34) and channel plates (16,161)
making the structure of the vessel self-supporting.



ABSTRACT


Title: VACUUM VESSEL FOR TREATMENT OF OILS
A vacuum vessel for continuous or semi-continuous treatment of oils in
connection with deodorization comprises spaces (12,12,12) through which
oils to be treated is brought to pass and means to heat or cool the oil in the
form of U-tubes. There are perforated pipes (26) arranged at the bottom of
said spaces to lead stripping gas into said oil. The vessel has a connection
to a vacuum source (7). The spaces in the vessel are arranged such that the
oil to be treated in the vessel flows through the same by gravity. The
heating or cooling medium passing the U-tubes is arranged to be pumped
there through. The U-tubes for heating or cooling medium are arranged in
such a way that the flow of oil is counter-current to the flow of heating or
cooling medium all through the vessel and a number of U-tubes are arranged
in groups (13), parallel and in rows above each other in said spaces.

Documents:

04137-kolnp-2007-abstract.pdf

04137-kolnp-2007-claims.pdf

04137-kolnp-2007-correspondence others.pdf

04137-kolnp-2007-description complete.pdf

04137-kolnp-2007-drawings.pdf

04137-kolnp-2007-form 1.pdf

04137-kolnp-2007-form 2.pdf

04137-kolnp-2007-form 3.pdf

04137-kolnp-2007-form 5.pdf

04137-kolnp-2007-international exm report.pdf

04137-kolnp-2007-international publication.pdf

04137-kolnp-2007-international search report.pdf

04137-kolnp-2007-others.pdf

04137-kolnp-2007-priority document.pdf

4137-KOLNP-2007-(21-02-2013)-ABSTRACT.pdf

4137-KOLNP-2007-(21-02-2013)-ANNEXURE TO FORM-3.pdf

4137-KOLNP-2007-(21-02-2013)-CLAIMS.pdf

4137-KOLNP-2007-(21-02-2013)-DESCRIPTION (COMPLETE).pdf

4137-KOLNP-2007-(21-02-2013)-DRAWINGS.pdf

4137-KOLNP-2007-(21-02-2013)-EXAMINATION REPORT REPLY RECEIVED.pdf

4137-KOLNP-2007-(21-02-2013)-FORM-1.pdf

4137-KOLNP-2007-(21-02-2013)-FORM-2.pdf

4137-KOLNP-2007-(21-02-2013)-OTHERS.pdf

4137-KOLNP-2007-(21-02-2013)-PETITION UNDER RULE 137.pdf

4137-KOLNP-2007-CANCELLED PAGES.pdf

4137-KOLNP-2007-CORRESPONDENCE 1.1.pdf

4137-KOLNP-2007-CORRESPONDENCE OTHERS 1.2.pdf

4137-KOLNP-2007-CORRESPONDENCE.pdf

4137-KOLNP-2007-EXAMINATION REPORT.pdf

4137-kolnp-2007-form 18.pdf

4137-KOLNP-2007-FORM 26.pdf

4137-KOLNP-2007-GRANTED-ABSTRACT.pdf

4137-KOLNP-2007-GRANTED-CLAIMS.pdf

4137-KOLNP-2007-GRANTED-DESCRIPTION (COMPLETE).pdf

4137-KOLNP-2007-GRANTED-DRAWINGS.pdf

4137-KOLNP-2007-GRANTED-FORM 1.pdf

4137-KOLNP-2007-GRANTED-FORM 2.pdf

4137-KOLNP-2007-GRANTED-FORM 3.pdf

4137-KOLNP-2007-GRANTED-FORM 5.pdf

4137-KOLNP-2007-GRANTED-SPECIFICATION-COMPLETE.pdf

4137-KOLNP-2007-INTERNATIONAL PUBLICATION.pdf

4137-KOLNP-2007-INTERNATIONAL SEARCH REPORT & OTHERS.pdf

4137-KOLNP-2007-OTHERS.pdf

4137-KOLNP-2007-PCT REQUEST.pdf

4137-KOLNP-2007-PETITION UNDER RULE 137.pdf

4137-KOLNP-2007-REPLY TO EXAMINATION REPORT.pdf

4137-KOLNP-2007-TRANSLATED COPY OF PRIORITY DOCUMENT.pdf

abstract-04137-kolnp-2007.jpg


Patent Number 257101
Indian Patent Application Number 4137/KOLNP/2007
PG Journal Number 36/2013
Publication Date 06-Sep-2013
Grant Date 03-Sep-2013
Date of Filing 29-Oct-2007
Name of Patentee ALFA LAVAL CORPORATE AB
Applicant Address BOX 73, SE-221 00, LUND
Inventors:
# Inventor's Name Inventor's Address
1 GULLOV-RAS-MUSSEN BJARNE BAKKEVEJ 45 B, DK-2830 VIRUM
PCT International Classification Number C11B 3/14, C11B 3/16
PCT International Application Number PCT/SE2006/000502
PCT International Filing date 2006-04-26
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 0501008-7 2005-04-29 Sweden