Patent Application
20170115056
The present invention relates to a new device and a way to assemble such a device for both cooking and drying organic material in the process of making meal.
Preparation of meal from raw organic material, including separating fish oil from the material and evaporating the water phase therefrom is well a known method. It involves hashing or hacking fish or meat/animal parts and cooking this organic material in one or more cookers. The cookers are usually screw cookers, where the organic material is slowly transported along the cooker while it is being warmed up and cooked. After the oil phase has been separated from the material, the water is removed by heat and evaporation.
Production of high quality low-heat generated fish meal requires a process where the material is not overheated, especially when the oil phase has been removed and water is evaporating. It also requires that the material does not stick to the surfaces of various components of the devices used and overheats or burns thereon. In the early stages, where the water content is above 40%, the temperature of the material can be at 100° C. as it passes through the cookers. When the oil phase and part of the water has been removed, the rest of the process is performed at low temperature to preserve the proteins.
Prior art cookers normally comprise either of a steam cooker of screw type, a Contherm-type or a tubular heater. A steam cooker is generally designed as a cylinder having a steam heated jacket throughout and a steam heated rotor, designed as a screw conveyor with hollow flights. Material sticking to heat exchange surfaces makes control of cooking problematic. A Contherm heater consists of a vertical cylindrical heat exchanger provided with an agitator keeping the material in rapid movement, thus contributing to effective heat transfer. During rotation, the agitator blades (knives) are pressed against the surrounding heating surface in order to prevent the formation of material on the surface. These devices need to be cleaned very frequently, which is time consuming and prevents continuous use.
A tubular heater consists of a set of tubes coupled together and surrounded by a cylindrical jacket. The raw material is moved through the tubes by pumping, and on its way it is heated by the hot steam or condense water circulating around the tubes. These are most often only used as pre-cooker to utilize waste energy to partially heat the material up to 50° C.
All these cookers have rather poor material mixing and material formation on heating surfaces which limits heat exchange. Prior art dryers normally comprise either of direct heat drying or indirect steam drying.
The direct rotary dryer blows a current of flue gases diluted with secondary air, in direct contact with the fish material being dried. This method is efficient but can be a source of contamination of the product. One of the problems with rotary dryers is that there will be a collection of gas in the upperpart of each disc requiring a certain step of emptying the gas from the row of discs, which is difficult to regulate.
In the indirect steam dryer the material is fed continuously into one end and is dried in direct contact with steam heated elements. Most common the elements are a steam heated rotor equipped with steam heated double walled discs perpendicular to the rotor. The problems with such device are insufficient scraping to prevent material build-up on the heating surface and material can burn thereon. Furthermore, it tends to be structurally heavy and expensive with a high resistance to rotation necessary for this application.
U.S. Pat. No. 4,344,976 discloses a typical process for recovery of meal from fish, where heating of the fish mass is carried out in any conventional way, and oil is separated from the heated fish mass by means of a centrifuge provided with a separate outlet for separated oil phase. In this publication the stick water and sludge are discharged from the centrifuge are fed together to an evaporation unit where the mixture of sludge and stick water is fed through one or several indirectly heated tubes. The internal walls of which are continuously cleaned by means of a scraping device and the outlet of which is connected to a separation space for steam and evaporated product.
FR2712076 discloses a dryer for wet products comprising a row of parallel hollow circular discs spaced along the length of a chamber. The discs are fixed to the walls of the chamber and a heat-exchange fluid flows through these discs during the drying process. Plates, which are fixed to a rotating shaft containing scrapers for scraping the surfaces of the discs are arranged between the discs.
Production of high quality low-heat generated meal from organic material requires processes where the organic material is first cooked and then the water phase is removed by an evaporation process. The present invention provides a new device and a way to assemble such a device for both cooking and drying organic material in the process of making meal.
The present invention provides a device and a method to overcome or ameliorate the aforementioned drawbacks of the prior art and to provide an improved and/or alternative and/or additional method or device for heating or removing a water phase from organic material. The present invention provides a device with a simple and robust design where a large area for heat exchange and instead of moving the material in circles during rotation of the axis, the material is stirred with scrapes that scrape both the discs and the inner surface of the container. The present invention provides a faster process of cooking and drying and it prevents the material from burning on the surfaces of the device during the process. The heat exchange surface is therefore more efficient and the device easier to control. The present invention provides a device and a method to produce meal of higher quality as it supports a process, where the organic material does not overheat during the drying process and does not stick to the surfaces of the device and burns. The present invention provides a device and a method where do to the fact that the discs do not connect to the whole circumference of the cylindrical portion of the container, in addition to the space above the discs, the organic material can travel easily from one space to another from the in-feed end to the out-feed end of the container.
The present invention provides a new design which also provides a new way to assemble such a device, where each disc is placed in a container, where the lower portion of the container is of cylindrical shape. The bottom portion of the container as a cylindrical shape, whereas the upper portion is open at the top during assembly. The discs are positioned in a parallel manner with spaces between them. In order to solve problems of gas “collection” in the upper part of the disc, the discs of the present invention are semi-cylindrical disc-shaped hollow compartments with a relatively flat upper part. The discs have one or more hollow connection members and connect to openings in the container for circulating heating media through the discs from a jacked arranged around the container. As the inlets into the semi-cylindrical disc-shaped hollow compartments are positioned in the upper part of the disc in line with the relatively flat upper part of the disc, no collection or compilation of gases will reside in the upper portion of the discs. Furthermore, as condense will drip out of an outlet hollow connection in the lower portion of the semi-cylindrical disc-shaped hollow compartments, this will generate a suction effect and facilitate a flow of condense to and from the jacket and through the semi-cylindrical disc-shaped hollow compartments. As the discs have one or more hollow connection members and connect to openings in the container, the discs can be adjusted and welded in a precise and correct position from the outside of the container. During the assembly the scrapes, which are attached to the axis, can be adjusted to scrape both discs in the space they are mounted in as well as the inner surface of the container. The scrapes can also be tilted to direct the material in a slightly backward or forward direction depending on the drying stage of the material. After assembly, the container can be closed from the top. Each disc is assembled together from two disc components where grooves have been milled from one connection member of the disc to another in a pattern which allows the heating media to flow and heat the whole outer surface of the disc. The two disc components are bolted together, rather than welded, to get a more accurate form of the disc. The disc is in fact a pressure chamber or cartridge, which can conduct any heating media, such as, but not limited to steam, oil, water etc. It is the combination of a) the shape of the semi-cylindrical disc-shaped hollow compartments, b) the position of the one or more hollow connection members connecting the disc to the openings in the container and c) the use of vertical recesses leading to the connection openings in the side of the container, which provides the improved device and the assembly method resulting in more accurate and easy assembly of the device and which provides a device which makes better use of the entire surface of the discs in the dryer. Due to the shape of the semi-cylindrical disc-shaped hollow compartments and the position of the one or more hollow connection members connecting the disc to the openings in the container a constant flow of heating media through the entire disc is enabled and compilation of gases in the top part of the discs.
The object(s) underlying the present invention is (are) particularly solved by the features defined in the independent claims. The dependent claims relate to preferred embodiments of the present invention. Further additional and/or alternative embodiments are discussed below.
The present invention provides an apparatus for heating or removing a water phase from organic material. The apparatus comprises a container, said container being substantially horizontal and where the lower portion of the container has a cylindrical shape, said container further comprising an inlet and an outlet. The apparatus further comprises a plurality of semi-cylindrical disc-shaped hollow compartments parallel and interspace arranged in the container and a jacket arranged around the container for conducting heating media. An axis arranged centrally within the container and scrapes are attached to, and rotating on the centrally arranged axis, where the scrapes are shaped to scrape an outer surface of two parallel and interspace arranged disc-shaped hollow compartments and extending towards and to scrape the inner surface of the container. Furthermore, the semi-cylindrical disc-shaped hollow compartments comprise hollow protrusions, which connect to the jacket through connection openings in the container. The protrusions are positioned on each side in the upper part and in the lowest part of the semi-cylindrical disc-shaped hollow compartments.
In the present context the term “substantially” in a substantially horizontal container refers to a container which is arranged in a horizontal position, but may be slightly tilted or raised at the in-feed end to facilitate a movement of the organic material towards the out-feed end.
The present invention also provides a method is provided for assembling an apparatus for heating or removing a water phase from organic material. The method comprises
Furthermore, the method comprises connecting the semi-cylindrical disc-shaped hollow compartments comprise hollow protrusions to the jacket through connection openings in the container, where the protrusions are positioned on each side in the upper part and in the lowest part of the semi-cylindrical disc-shaped hollow compartments.
In the present context the terms “semi-cylindrical disc-shaped hollow compartments” and discs refers to the same item, namely the discs that are inserted into the container. The discs are not fully cylindrical as they contain connection members to connect to the jacket.
In the present context, the bottom portion of the container is cylindrical so that the scrapes, which are arranged on the rotating axis, can scrape the inner side of the container as well as the discs. The upper portion may have any shape such as, but not limited to oval, cylindrical, square (as shown in the drawings) etc. as long as it does allow room the scrapes to rotate a whole circle around the axis.
All embodiments and definitions relate to the apparatus and the method of the invention.
In the present context the apparatus and method relate to a device for the production of fish-meal or meat-meal or other organic material, where the device can either be used as a cooker or a dryer/evaporator.
In an embodiment of the present invention, the scrapes extend fully to the inner surface of the container. Furthermore, the arm of each scrape has a spring element to push the scrape closer to the inner surface of the container when possible.
In an embodiment of the present invention, the scrapes are not arranged in parallel on the axis, but have different position on the axis with respect to the discs. Therefore, some scrapes may be scraping the lower part of the chamber whereas other scrapes may be rotating above the disc upper portion of the semi-cylindrical disc.
In an embodiment of the present invention, the scrapes have 3 different scraping members, two disc scrape members to scrape the discs on each side and one end scrape member to scrape inner surface of the container. Furthermore the scrapes have hollow space between the different scraping members.
In an embodiment of the present invention, the container is raised at the in-feed end above the out-feed end of the container. This is to facilitate the material to slowly migrate from the in-feed end towards the out-feed end of the container.
In an embodiment of the present invention, the blade of the scrapes is shaped to direct the organic material over to the next space between two parallel and interspace arranged disc-shaped hollow compartments, from the in-feed end and towards the out-feed end of the container.
In an embodiment of the present invention, the inner surface of the container comprises vertical recesses leading to the connection openings in the side of the container.
In an embodiment of the present invention, the disc-shaped hollow compartments have a semi-cylindrical shape and further comprise connection openings to connect to the jacket through the wall of the container.
In an embodiment of the present invention, the jacket is a compartment for conducting heating media.
In an embodiment of the present invention, the heating media within the jacket is a steam.
In an embodiment of the present invention, the apparatus is a cooker or a dryer.
In an embodiment of the present invention, each semi-cylindrical disc-shaped hollow compartment is attached to the openings in the container from the outside. The attachment of the disc to the opening can be done by any mechanical means, but preferably by welding.
In an embodiment of the present invention, the jacked is arranged around the container after the semi-cylindrical disc-shaped hollow compartments have been attached to the container.
In an embodiment of the present invention an opening at the top of the container is closed after the semi-cylindrical disc-shaped hollow compartments, the axis and the scrapes have been arranged within the container and the semi-cylindrical disc-shaped hollow compartments have been attached to the container.
In an embodiment of the present invention, the device is a dryer further comprising an air inlet for receiving dry air. The dry air is blown into the dryer, where it blends with the material during an evaporation process of the water phase from organic material. The dryer also comprises an air outlet for directing saturated air out of the dryer. In this embodiment the material enters the dryer as a slurry paste. The scrapers are used to rotate the paste to interact with the air-phase therein as well as the thermal surfaces of the discs and of the inner surface of the container. The slurry paste material may as warm as 100° C. as it enters the dryer, but as the paste reacts with the air phase and the hot surfaces of the cylinder and the discs, the heat leaves the paste with the water molecules.
In the following, exemplary embodiments of the invention will be described, referring to the figures. The embodiments shown in the drawings are explained with reference numbers. These examples are provided to provide further understanding of the invention, without limiting its scope. The skilled person will understand that the drawings, described below, are for illustration purposes only. The drawings are not intended to limit the scope of the present teachings in any way.
In the following description, a series of steps are described. The skilled person will appreciate that unless required by the context, the order of steps is not critical for the resulting configuration and its effect. Further, it will be apparent to the skilled person that irrespective of the order of steps, the presence or absence of time delay between steps, can be present between some or all of the described steps.
Referring to
In
In
As the discs do not connect to the whole circumference of the cylindrical portion of the container, a space 12 is formed between the disc-shaped hollow compartment 4 and the inner side of the container. In addition to that, the space above the discs allows the organic material to be transferred from one space to another from the in-feed end to the out-feed end of the container. The drawing further shows how the disc-shaped hollow compartments are placed into the container via slits 13. The connection member of the disc-shaped hollow compartment then slides down the slit and at the bottom of the slit is an opening to connect the disc to the jacket 5 to allow flow of heating media between the jacket and the discs.
As used herein, including in the claims, singular forms of terms are to be construed as also including the plural form and vice versa, unless the context indicates otherwise. Thus, it should be noted that as used herein, the singular forms “a,” “an,” and “the” include plural references unless the context clearly dictates otherwise.
Throughout the description and claims, the terms “comprise”, “including”, “having”, and “contain” and their variations should be understood as meaning “including but not limited to”, and are not intended to exclude other components.
The present invention also covers the exact terms, features, values and ranges etc. in case these terms, features, values and ranges etc. are used in conjunction with terms such as about, around, generally, substantially, essentially, at least etc. (i.e., “about 5” shall also cover exactly 5 or “substantially constant” shall also cover exactly constant).
It will be appreciated that variations to the foregoing embodiments of the invention can be made while still falling within the scope of the invention can be made while still falling within scope of the invention. Features disclosed in the specification, unless stated otherwise, can be replaced by alternative features serving the same, equivalent or similar purpose. Thus, unless stated otherwise, each feature disclosed represents one example of a generic series of equivalent or similar features.
Use of exemplary language, such as “for instance”, “such as”, “for example” and the like, is merely intended to better illustrate the invention and does not indicate a limitation on the scope of the invention unless so claimed. Any steps described in the specification may be performed in any order or simultaneously, unless the context clearly indicates otherwise.
All of the features and/or steps disclosed in the specification can be combined in any combination, except for combinations where at least some of the features and/or steps are mutually exclusive. In particular, preferred features of the invention are applicable to all aspects of the invention and may be used in any combination.
| Number | Date | Country | Kind |
|---|---|---|---|
| 050084 | Jun 2014 | IS | national |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/IS2015/050011 | 6/10/2015 | WO | 00 |
