DE308165C - - Google Patents

Description

The invention relates to peculiar applications of the known Honigmannschen Principle of fireless steam generation in evaporation, evaporation and drying processes, which aim to save fuel to achieve in these processes.

The Honigmann principle used to be mainly used in fireless locomotives, in which a highly concentrated salt solution is used as an energy accumulator (Na OH solution) was used. This saline solution, with a temperature of 200 ° to 160 °, absorbed the Exhaust steam from the locomotive steam engine of about 100 °, the latent heat of this Exhaust steam with the high salt solution temperature of 200 ° to 160 ° free and immediately again was used to generate fresh high pressure steam. The highly concentrated salt

ao solution was diluted due to the absorption of exhaust steam and then had to be freed from the absorbed water again by evaporation with the addition of heat .. In addition to fireless locomotives, Hon igmann tried a few other applications with steam engines, but nowhere achieved economic advantages or fuel savings, we.il is the one that determines the heat utilization in normal steam engines thermal efficiency

depends only on the absolute maximum tenacity T ₁ and the absolute final temperature T ₂ and theoretically it is completely indifferent.

remains whether the temperature gradient is directly due to complete steam expansion or due to Interposition of hot salt solutions, e.g. in patent 37662 for normal steam machines trying to be exploited. Honigmann went over the thermal power cycle not beyond, and since its applications are not even theoretical, much less gave practically any advantage, * 5 so the Honigmann principle came out completely out of use and has been completely abandoned for decades.

The inventor has now found that, however, with the help of the Honigmann principle areas other than. Power machines, in particular In the case of evaporation, evaporation and drying processes, extraordinary fuel savings are possible, and in addition there are still great practical advantages in terms of simplifying the apparatus result. It is. in evaporation processes, evaporation facilities or drying systems for practical reasons never possible, that; practically controllable temperature gradient Sb from 2oo ° initial temperature to 50 ° final temperature to be used directly and rationally as with steam engines; z. B. can with drying processes not 2 to 3 dryers, in which the next one from the exhaust steam the previous one is heated, can be arranged one behind the other for good Exploitation of the temperature gradient, because the practical difficulties are insurmountable are.

The present invention avoids these practical difficulties in that

p. Edition, issued on H- September igaoj

Evaporation, evaporation and drying processes the water to be evaporated for the time being through a fireless process with. Help of the honey man Principle is converted into a saline solution; the exhaust steam from-one Evaporation, evaporation and drying process is absorbed by a hotter salt solution, 'which simultaneously serves as a heating means (direct or indirect), and the latent

ίο Immediately heat the absorbed exhaust steam again for evaporation, evaporation or. Drying used .. Without an external heat source for water evaporation, d. H. feucrlos, the water to be evaporated is distilled in the more concentrated salt solution, which is diluted by the absorbed water In this way, the evaporation, evaporation or drying material is replaced by a salt solution, from which the water to be evaporated can be evaporated efficiently, e.g. under high pressure in the Steam boilers, with the resulting pressurized exhaust steam being used profitably as operating steam for economic purposes ■ 85 den can, or in multi-body apparatus with multiple utilization of the heat, whereby very significant savings compared to the otherwise common water evaporation, e.g. B. against the Simple spin during the drying process.

The salt solution, which has been re-concentrated in this way, can now be passed through a fireless one Process are diluted, etc.

The interposition of such a fireless evaporation, evaporation or drying process, d. H. is the fireless conversion of the water to be evaporated into a saline solution especially to be used where the water directly does not have the same · economic Successes with beneficial use

processing of the exhaust steam 'can be evaporated.

It must always be considered on a case-by-case basis whether and how such a fireless process will be carried out bring greater economic benefits

. . can; there are manifold combinations possible with existing establishments. Some main cases showing the essence of the invention clarify, are treated in more detail as examples:

a. Fireless evaporation process (Fig. Ι the drawing).

In the indicated as simple-spin evaporator ι evaporates the liquid to be evaporated, for. . B. sugar juice, at "100 ° characterized in that by means of a pump 2, for example, a hot 140 _^0: saline solution pumped through the heating pipe 3 is ;, this cools by giving off heat such as to 130 ⁰ .from and is now. contacted with the exhaust steam from ioo ° from the sugar juice in the Honigmann capacitor 4 in intimate contact. e.g., in a finely divided rain. The 130 ⁰ cooled saline solution absorbed this exhaust steam and heats up 'here as' taking place dilution back to nearly 140 ⁰ , is then pumped through the heating pipe system again, and so on, and in this way the water from the sugar juice to be evaporated is continuously converted into the thinning salt solution in a fire-free way.

It goes without saying that the exhaust steam from the evaporator 1 also as in the Honigmann's locomotive boiler constructions are blown directly into the salt solution or can be sucked through it, any known evaporator design can be used and instead of steam only a hot one, which is strong due to the steam being blown in undulating or otherwise mechanically agitated salt solution serves as a heating medium. E.g. everyone can Evaporator with vertical or inclined heating pipes (Robert or Witk ο w i c ζ - evaporator) instead of steam with a hot salt solution as heating medium in the Heating chamber can be operated. The exhaust steam from the steam room is directly .without the use of a special Honigmanh condenser, blown into the saline solution of the heating chamber; there the- saline solution with such a fireless evaporation in simple spin there is no excess pressure, so are Extremely simple constructions are possible, which can be used as heating means when the steam is pressurized to forbid; z. B. flat, level heating elements can be used as heating elements instead of tubes plates are used, which are conveniently kept clean by mechanical means can, which is prafetically important in particular for the evaporation of very impure liquids is; Tube apparatus are in such cases because of the difficulty of cleaning the Tubes often not applicable. . '

Instead of simple spin, as shown in FIG. 1 for the sake of simplicity, the fireless Evaporation also take place in multiple; the hot saline solution used as a heating medium heats the first evaporator of a multiple set, the exhaust steam from the first evaporator heats a second evaporator in a known manner, the exhaust vapor from the second vaporizer a third and so on, and only the exhaust vapor from the last vaporizer is absorbed by the hot saline solution, which the heated first evaporator. .

b. Fe u erless drying process (Fig. 2 of the drawing).

In the same way as in the simple spin described in Fig. Ι, the Transfer of the water from the dry material to a low-viscosity salt solution. Depending on the material to be dried, this often requires

special equipment required; for example, Fig. 2 shows an explanatory device. The drying material is located in the drying drum 8; the drum is steamed by ■ 5 atmospheric pressure, which by means of a wind vane at that of the saline solution serving as heating medium flowed through it Pipe system 9 is driven past quickly; the steam overheats and escapes the water to be dried in a known manner; the saline solution cools down and is in the Honigmann condenser 10 with the resulting exhaust steam from the dry material brought into intimate contact, heating up again through absorption, again is pumped through the pipe system 9, etc., so that the water from the dry material passes into the saline solution without fire.

Instead of the drying device described, as with evaporation processes, under Omission of the special Honigmann condenser το direct blowing in of the exhaust steam in the saline solution take place in special constructions; often recommends it the dry food on flat, overpressure,. loose heating plates covered with the hot saline 'solution be heated ', mechanically spread and dry.

c. Fireless V e r d u η s t.u'n g s ρ r ο ζ e ß.

Where the dry or evaporation material must not be heated above 100 °, this can be done at Temperatures below 100 ° Air or another gas serve as an intermediate means to the To transport water into the saline solution. In one that is well closed from the outside A room which is under atmospheric air pressure becomes air mechanically in constant Cycle moves and alternates with the good from which the water evaporates is, and brought into intimate contact with a hotter saline solution. The concentration of Saline solution is chosen so that its vapor tension is (absolute) lower than that Vapor tension of the water vapor in the circulating air or from the evaporation material. The saline solution is therefore constantly absorbing water vapor from the circulating air "dries" the air as it were and, at the same time, warms it, so that it is always the same can again absorb water vapor from the water to be evaporated from the goods. Ever

.; after the evaporation, it is not only with the air, but also with heating tubes, Heating plates etc. the heat of the absorbed steam released in the salt solution fed. ·

The water that is diluted in these fireless processes by the fireless transfer of the water Salt solution is now freed from the absorbed water again, e.g. in FIG being re-concentrated by fire; part of the circulating saline solution is by means of a feed pump 5 and sucked through the countercurrent preheater 6 in the steam boiler 7 pumped, where the temperature is kept so high that the resulting exhaust steam 4 to 10 atm. Has tension; this strained exhaust steam can now be beneficial in the company can be used for any purpose; the concentrated saline solution flows on it through the countercurrent flow preheater 6 - in countercurrent with the pumped-in saline solution ■ exchanging the heat of the liquid - for renewed 'dilution in the circulating eggs circulating saline solution. The con- * centering in the steam boiler 7 is kept as high as possible, so that the amount of in this Way to be promoted and in the .Countercurrent "preheater their heat-exchanging liquid can be kept as small as possible can. The inflow of the concentrated saline solution to the. Steam boiler is used as required regulated by appropriate institutions; instead of the feed pump S can also automatic return line, etc. find use. The countercurrent preheater 6 can under certain operating conditions very ■; ■ ■ can be kept small or eliminated entirely. ■ '' '

The success of this combination consists in the evaporation case shown in FIG in that the steam, which in the evaporator 1 with only 1 atm. absolute pressure and 100 ° was created, now from the steam boiler 7 with 4 to 10 atm. Print available stands. This combination can of course only be used where it is not possible is, from the liquid to be evaporated directly stretched vapor of 4 to 10 atm. in a steam boiler too. produce. Most to be evaporated in big industry Liquids ; do not allow the latter; many liquids, such as sugar juice, sulphite waste liquor etc., temperatures above 100 ° must not be exposed, otherwise they will decompose, which has a harmful effect on the product (Sugar) or the apparatus destroyed (sulphite waste liquor); contain other liquids many impurities, which a priori every evaporation in the steam boiler or exclude in tube apparatus, such as raw Saizsolen, others must again be evaporated at a certain temperature or at a very low temperature, to receive certain products. Even without taking into account potential savings is the fireless evaporation ρτοζββ, lao which replaces an impure, decomposable, viscous liquid that is difficult to evaporate,

due to an always pure, chemically absolutely indifferent, easily flowing, constantly circulating, easily steamable saline solution is often very valuable in practice because of the extra-5 ordinary simplification of the apparatus when using a hot saline solution as Heating means.

In each case, depending on the existing operating conditions, it must be weighed whether and in which case

ίο The shortest possible way to save fuel are attainable. Is not used for high-tension steam according to Fig. Ι present in the company, the re-concentration of the diluted saline solution can be used in a multi-body apparatus or another known multiple vaporizer.

Each evaporator τι ', ι ι ", ι ι'" etc. will from a special feed pump 12 ', 12 ", 12 '"etc. fed with dilute saline solution and circulated in each vaporizer as well Countercurrent preheaters 13 ', 13 ", 13'", etc. the Salt solution in the same way as with the steam boiler 7 in Fig. 1. The first

* 5 damper n 'is z. B. obtained by fire at a temperature of 200 ⁰ to 250 °, the steam generated from the salt solution has 10 atm. Voltage "at 180 ° temperature and is used to heat the second evaporator

11, "in which the salt solution at 170 ^{0-temperature} steam 1-2 atm. And ioo ° to I2O ° developed, which then for the heating of 11 '' is used, where the salt solution at about ioo ° temperature under high vacuum.

The success of this re-concentration method is with the one shown in FIG. 2, for example, the dry case illustrated in that the drying process, which otherwise runs as a simple spin, is converted into a triple spin with only one use of the heat used, with theoretically approximately only ¹ ^ fuel consumption.

The two main methods of re-concentrating the diluted saline solution, which of course in all fireless evaporation, evaporation and Drying processes can be applied, in practical cases, to one another combined depending on the heat distribution which an operation expediently requires, like this with the evaporation stations of the Sugar mills have been in use for years (Lexa-Rillieux system). From the individual Vaporizers 11 ', 11 ", 11'", etc., useful steam can be withdrawn, insofar as it is Pressure is sufficient for certain purposes, e.g. B. for warming up, loosening, heating existing, Evaporation and drying systems, etc. Because it is obvious that these Amounts of heat that are required in and of themselves in the company, even for non-fired ones Processes of the type described can be used if the necessary steam is made from a concentrated salt solution instead of water.

When the process is used in existing companies, it can be assumed that the exhaust heat lost today will be reduced as much as possible by absorption of the low-temperature exhaust steam, and that the economy of a company will be all the better if the steam boiler according to FIG Saline solution can be operated instead of water. The absorption of low-temperature exhaust steam can often take place repeatedly in connection with the existing operation in order to gradually bring it to a higher temperature; z. B. can exhaust steam are of 6o ° absorbed by a salt solution of 85 ^0, which produces in turn vapor of 8o ° in an evaporator, which is again absorbed by a salt solution of 105 ^0, the resulting vapor from ioo ° created which now for many Purposes is reusable. The twice diluted salt solution is then freed from the absorbed water. The same procedure is followed if, for. B. Existing exhaust steam no longer has sufficient temperature to preheat large quantities of liquid; then part of the exhaust steam is absorbed by a salt solution, the higher temperature of which enables further preheating than the exhaust steam alone.

In this way it is possible in sugar factories, Potash works, salt pans, etc. to drive the economy so far that no More exhaust steam leaves the factory; in Zellu ioo Losefabriken will evaporate the waste liquor free of charge with free extraction of the combustible residue enabled; Bulk goods, such as sugar pulp, Stillage, spent grains, peat, feces, sewage sludge, etc., can often be free, at least can be dried with extraordinary savings against today's methods.

It is not necessary that the dilution of the salt solution by the fireless The process and the re-concentration of the diluted salt solution always take place simultaneously; the saline solution is an excellent one Accumulator and can e.g. B. concentrated during the day during an 8 to 10 hour operation are shown in Fig. 1, during a fireless evaporation or drying process even at night go with this concentrated saline solution. In many cases it will A considerably better utilization of the drying apparatus is achieved. It can also be the other way around a fiery evaporation process in very much

be carried out in a short time; while the re-concentration of the 'dilute saline solution takes place over a longer period of time. There are many in the chemical industry Cases where the evaporation processes are not carried out continuously but in batches often very quickly in the case of decomposing Liquids, and can, then often no direct utilization of the exhaust steam

ίο bring economic benefits, if applicable there is no simultaneous consumption; However, if the steaming-in process is carried out without fire, so the saline solution can then be concentrated over a longer period of time and the resulting Exhaust steam, the voltage of which does not need to be higher, can be used in an economically beneficial way. as well can the diluted saline solution in given cases by existing waste heat, for which lacks any other beneficial usability, are concentrated to then be fireless To be able to carry out processes.

The process is used in all types of evaporation and drying systems

«5 chemical factories, sugar factories, potash factories, salt pans, etc., almost everywhere, where at all Liquids and dirty, impure water are evaporated industrially must, when drying bulk goods of all kinds, and are often drying and evaporation systems combined with each other.

As salt solutions, all salt solutions can be used that show a sufficient reduction in vapor pressure or increase in boiling point, especially caustic soda (NaOH) solutions, calcium chloride (CaCl ₂ ) solutions, and also those, such as common salt (NaCl) solutions , let crystals precipitate during evaporation, which dissolve during dilution. The choice of the most suitable salt solution depends on the conditions under which it has to work.

Claims (3)

Patent Claims: 1. A method for evaporation, evaporation and drying, characterized in that a Honigmann solution (e.g. a caustic soda or chlorine calcium solution) as a heat transfer medium (heating medium) is used to initiate the evaporation, etc. processes and the required Heat by transferring the vapors produced during evaporation, etc., into the Honigmann solution is obtained. 2. The method according to claim 1, characterized in that the diluted Hönigmann solution is evaporated under correspondingly high pressure to generate useful steam with a higher voltage. 3. The method according to claim 1, characterized in that the diluted Honigmann solution is concentrated again by means of multiple evaporation. 1 sheet of drawings.