This invention relates to an improved apparatus for the continuous crystallization of a substance from a solution, using vacuum pan and more particularly, but not exclusively, to continuous crystallization of sugar from a solution in a vertical continuous vacuum pan.
Definition of Important Terms:
1. Massecuite: (Pronounced=Mess-kit)
It is a mixture of crystals and mother liquor discharged from a vacuum pan.
2. Calandria: Equipment consisting of closely spaced metal tubes for heat exchange.
The present invention describes an improved apparatus for the continuous production of sugar. The apparatus consists of multiple vacuum chambers or operation chambers arranged vertically, one top of the other. The chambers perform the function of crystallization and evaporation. Each chamber is vertically connected to the next, so that sugar syrup after reaching a particular consistency on undergoing evaporation and crystallization in one chamber, moves to the next, where it undergoes further concentration due to evaporation and crystallization. The process continues in a sequential manner, so that the concentrated product ie. Massecuite is withdrawn from the last chamber. This massecuite is then processed further, to ultimately yield the final crystallized product i.e. sugar.
Conventionally, instead of continuous process, batch process employing vacuum pan, was used. However, it had the following disadvantages:
These disadvantages led to the development of continuous vacuum pans wherein process is carried out by continuously feeding the seed crystals and the sugar solution to an evaporator-crystallizer, while withdrawing the massecuite (highly concentrated suspension) from the evaporator-crystallizer. The continuous apparatus is of two types—vertical and horizontal. In the vertical type, the evaporating-crystallizing compartments are vertically arranged, one on top of the other. In the horizontal type, the same are connected horizontally to each other.
The advantage of the horizontal continuous apparatus was that the average growth function of the crystals was improved, leading to better product quality. Various types of horizontal apparatus have been described in prior art. (Patent Nos. IN161506, IN170702, GB1049798, U.S. Pat. No. 3,627,582, DE2128031).
However, the horizontal type continuous vacuum pan had several disadvantages viz.
Various attempts, in horizontal continuous vacuum pans, to remedy the above disadvantages resulted in undesirable complications in apparatus and control systems making the structural and process engineering factors unfavourable. (Patent Nos. U.S. Pat. No. 3,879,215, EP0172965, U.S. Pat. No. 5,201,957 and Patent Application No. US2004177846).
Disadvantages of the horizontal continuous system were overcome by designing a vertical continuous system. It was realized that disadvantages of the horizontal system, especially those connected with the quality of the product crystals viz. large crystal size variation, conglomeration, false grain formation, etc. also arise due to different conditions at separate stages in a pan. Therefore, dissimilar treatment is needed at different stages. The need to accord such a dissimilar treatment led to the proposal of a vertical continuous vacuum pan.
In vertical type apparatus, several mixing vessels with heating and with/without stirring means are mounted one above the other vertically and in communication with each other. Various types of vertical systems have been described in prior art. (Patent Nos. JP52001045, U.S. Pat. No. 4,120,745, EP0065775, EP0201629, DE3839182, FR2695837, and Patent Application No. IN/PCT/2002/02149/CHE)
The importance of massecuite circulation using mechanical circulators (stirrers) in vacuum pans is well established. It has impact on energy, massecuite exhaustion and on sugar quality. As a result pan stirrers (circulators) have been investigated and often used to promote circulation. (Patent Nos. EP0065775, FR2695837) Mechanical circulators (stirrers) have been shown to improve the quality of sugar crystals. The crystals grow more evenly and there are fewer mother liquor inclusions (van der poel 1980, Rieger et al. 1989: Zukerindustrie, 105, 237-240). There is less colour in sugar and reduced risk of sugar losses by local overheating. In addition stirring also reduces centrifugal wash water consumption by 50%. (van der poel 1980: Zukerindustrie, 105, 237-240). Small temperature differences (<12 K) between heating steam and massecuite are only possible with the use of stirrers. A reliable operation without stirrers (mechanical circulation) is not possible and may lead to sedimentation of the crystals (Austmeyer, K. E.; Schliephake, D.; Ekelhof, B.; Sittel, G. (1989): Zukerindustrie 114, 875-878). The use of lower pressure vapours becomes possible (e.g. coming from the 2nd or 3rd evaporator effect), allowing reduction in the factory steam requirements. Also there is less deposit on the tubes, due to the abrasion effect by friction of the circulating crystals. Those claiming rational circulation without the use of stirrers do so at the cost of simplicity of design and heat economy. (Indian Patent Nos. IN145885, IN169913 and Foreign Patent Nos. U.S. Pat. No. 4,120,745, EP0201629, DE3839182, FR2695837 and Patent Application No. IN/PCT/2002/02149/CHE).
Sugar solution is transferred from one vessel to another in stages with a provision for by-passing a particular chamber by means of appropriate pipelines. Different types of stirrer-equipped vertical continuous apparatus for sugar manufacture have been described in prior art. (Patent Nos. EP0065775, FR2695837) Patent No. EP0065775 (DE3120732) describes an apparatus consisting of two or more chambers of a vacuum pan stacked one upon another wherein bottom of each chamber is surrounded by the passive steam of the chamber below. The preferred version has four superimposed chambers. The agitators of first flowed through chambers are implemented as high-speed mixing agitators and the agitators of the following chambers as rolling over agitators, arranged in each case, on a common shaft.
Major advantages offered by such a system are:
However, such an arrangement violates a fundamental feature of vertical continuous vacuum pans viz. stirrers mounted on a common shaft present a disadvantage when one of the chambers is taken out of operation for cleaning or other reasons.
In order to overcome the said disadvantage, separately driven stirrers (circulators) for each evaporating-crystallizing chamber were introduced commercially, so that the process was not interrupted when any one chamber was taken out of operation for cleaning etc. This was achieved by introduction of intermediate sections between the chambers, in which were mounted stirrer (circulator) drives and gearbox with the circulator shaft extending through the top cover of each such vessel with a mechanical circulator (impeller) in the downtake. This design of the pan permitted retrofitting of a 5th chamber to increase its capacity. (Website of B.M.A. company—www.bma-de.com)
Owing to differences in crystal retention times and consequently in crystal growth, there existed wide crystal size distribution. The underlying cause for it was the limited number of stirrer-equipped evaporating-crystallization chambers.
Since the variation in crystal quality is caused due to limitations of processing owing to limited number of evaporating-crystallization vessels, an apparently simple solution to the problem would be to increase the number of vessels.
In fact, initial thinking and attempts to make evaporating crystallization as a continuous process led to the recognition that because of the widening of the crystal size distribution, this objective could only be achieved if at least 8 chambers with stirrers (circulators) were arranged sequentially (Austmeyer, K. E. 1982; Zuckerindustrie 107, 401-414).
Accordingly, it was first proposed to build a cascade of eight chambers with stirrers of which seven were to be in operation, while one was being cleaned. However, for economic reasons, this concept could not be implemented till date. Major problems associated with an increase in number of treatment chambers are as follows:
From the above, it is clear that though vertical type continuous apparatus offered distinct advantages over the horizontal system, it also had technical limitations regarding the number of stages which could be incorporated in a single apparatus.
An alternative embodiment proposed in Patent No. EP0065775 with a multiplicity of chambers is, to build the vertical apparatus in the form of two-upright standing towers and to switch the chambers of the towers in such a way that the chambers of each tower are flowed through successively, from above downward. However, such a ‘twin-tower’ arrangement also has disadvantages.
The present invention has been able to overcome these disadvantages in a novel manner.
A search of Indian patent databases reveals that no patent as for the present invention has been described in the prior art.
The principal object of the invention is to disclose an improved vertical apparatus in which problems of technical limitations and also economy associated with introduction of multiplicity of chambers in a fixed height have been overcome.
Yet another object of the invention to provide an improved vertical continuous evaporation-crystallization apparatus, in which problems of poor crystal quality due to wide crystal size distribution, conglomeration and false grain formation are considerably reduced but economy of operation is maintained.
A search of the prior art reveals that though it is highly desirable to have a single vertical continuous vacuum pan of eight chambers for optimum product quality, yet the same has not been implemented at commercial level, due to technical difficulties and economy. The existing apparatus in the state of the art consists of four or five stirrer equipped chambers arranged one on top of the other, occupying a total height of around 31 meters. In the present invention, within the approximately same height, instead of four or five chambers, eight chambers alongwith an additional storage/buffer tank, have been incorporated by using a novel approach. According to this approach, the intermediate space between the chambers which was housing the mechanical circulator drives and gearboxes, has been altogether eliminated without using common shafts for mechanical circulators (stirrers), by housing the drives in specially insulated pockets in the vapor space in each chamber. In addition, another novel approach has been adopted in making the drives bottom mounted, resulting in considerable reduction in shaft length, from 5.0-6.0 meters in existing apparatus to just 0.5-0.56 meters in the present invention, enabling easy installation and maintenance and resulting in power economy.
Accordingly, the present invention provides an improved vertical continuous vacuum pan comprising a cylindrical housing having a vertical axis in which plurality of vacuum chambers are stacked one above the other on a common axis characterized in that each chamber has a bottom mounted mechanical circulator housed in an insulated pocket in the vapour space segment of each chamber and not in additional space above the chamber enabling erection of at least eight operation vacuum chambers and a storage or buffer tank at top of the cylindrical housing, in the same height in which previously only 4 or 5 operation chambers were erected, thus eliminating the need for erecting two upright standing towers.
The present invention consists of an improved vertical continuous vacuum pan apparatus consisting of eight chambers and a storage tank at the top, within the existing conventional height (
In the new invention, three major innovations have been carried out:
As a result of these innovations, technical and economic problems which prevented the introduction of multiple chambers in an apparatus of fixed height have been overcome.
The apparatus consists of:
According to the most salient features of the present invention it will be observed that a novel approach has been adopted enabling erection of at least eight operation vacuum chambers 2 and a storage or buffer tank 27 at top of the cylindrical housing 1, in the same height in which previously only 4 or 5 operation chambers were erected, thus eliminating the need for erecting two upright standing towers thereby increasing the overall performance and efficiency of the system.
This has been made possible by cutting an insulated pocket 28 out of a segment of the vapour space 29 of the lower operation chamber for fitting a bottom driven mechanical stirrer (circulator) in the upwardly tapering cone of the substantially ‘W’-shaped bottom in the floor of each operation chamber. The insulated pocket has adequate space for enabling installation and maintenance works.
The said bottom fitted mechanical stirrer (circulator), is a direct mounted in-line planetary drive 30 without coupling and much reduced shaft length, of only about 0.5 m-0.56 m, thereby enabling easy installation, reducing power consumption, maintenance requirements, elimination of air leakages, resulting in increase in overall efficiency of the system. This has been achieved by two factors:
a. Positioning: Positioning of the sealing means & bearing assembly in a special sealing and bearing housing 31 disposed entirely within the vacuum pan operation chamber 2; and
b. Use of improved gear-box: use of compact & light weight gearbox 32 of inline planetary type having a hollow spline output and hollow input with key arrangement for direct inline flange mounting of the drive. It is mounted directly onto the bottom of each operation chamber 2 without any coupling and support structure.
Also, drives of lower ratings are installed in mechanical stirrers (circulators) of upper operation chambers than those installed in the last and/or lower operation chambers, without changing the design of the impeller (circulator) vanes, making the system further energy efficient.
The sealing and bearing housing 31 is provided on its outside by an inverted cone 33. The advantage of the said inverted cone 33 is that it avoids stagnation areas adjacent to the housing 31 and assists in the circulation of the massecuite in the vacuum pan operation chamber 2. Further advantage of the inverted cone 33 is that it provides reinforcement to the sealing and bearing housing 31.
An additional feature of the invention is that a storage tank 27 with chambers for syrup, hot water and cold water is mounted at the top of the cylindrical housing 1 i.e. above the operation vacuum chambers 2. It reduces the continuous pumping requirements, the storage tank acting as a buffer for continuous supply, again adding to efficiency of the system. The bottom of the said storage or buffer tank 27 is in the form of an inverted cone 34. The common feed syrup header 15, hot and cold water headers 24 & 25 are connected to their respective outlets from the storage or buffer tank 27.
Another feature is, that entrainment separation means include very compact centrifugal type entrainment separators 19 with upper two operation chambers having four compact entrainment separators and other lower chambers having three compact entrainment separators. Use of light weight compact and multiple entrainment separators instead of a large one has the advantage of easy fabrication, installation and maintenance.
In another embodiment of the invention the uppermost or lowermost operation vacuum chamber may be used as a graining chamber. The said graining chamber operates at a higher strike level than the operation chambers.
A significant improvement in product quality and throughput is achieved in the present invention due to increase in number of chambers within the same dimensions leading to higher heating surface and net volume, while maintaining the economy of operation.
A comparison of the technical features of the present invention with the commercialized apparatus of a leading company is given below and is illustrative:
Due to reduction in retention time ratio with increase in number of compartments in the present invention, coefficient of variation is reduced i.e. sugar with a narrow range of particle size distribution can be produced.
Although the invention has been described with reference to specific embodiments, this description is not meant to be construed in a limiting sense. Various modifications of the disclosed embodiments, as well as alternate embodiments of the invention, will become apparent to persons skilled in the art upon reference to the description of the invention. It is therefore contemplated that such modifications can be made without departing from the spirit and scope of the present invention as described.
Number | Date | Country | Kind |
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879/DEL/2006 | Mar 2006 | IN | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IN2006/000389 | 9/25/2006 | WO | 00 | 9/23/2008 |