JPS61183192A - Manufacture of inorganic fertilizer for sale - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a process for producing a salable inorganic fertilizer from the residues of flue gas purification, in particular from the mixture of ammonium sulphate and ammonium nitrate resulting from flue gas purification.

A new method for flue gas purification separates the sulfur and nitrogen oxides contained therein from the flue gas as a mixture of ammonium sulfate and ammonium nitrate together with ammonia. This is especially true when harmful substances such as SO and NO are exposed to high-energy radiation (
oxidized by electron beams, proton beams, γ-rays and the like) or ozone to relatively high valence levels 6 and/or 5, and these oxides are then oxidized with stoichiometrically supplied NH, The method is that it is converted into the corresponding dry ammonium salt.

The composition of the mixture of ammonium sulfate and ammonium nitrate produced during flue gas purification is
It depends on the 0t/N010 molar ratio and the degree of separation of these components. Since this ratio depends on the substances used and on the conditions of the combustion chamber, it varies significantly and therefore cannot be sold as is as an inorganic fertilizer.

The present invention had the task of producing one or more salable inorganic fertilizers from the mixtures described above.

This problem is solved according to the invention by separating the two components of the mixture described above using ammonia.

The advantages obtained by the invention are that, instead of variable mixtures of ammonia sulfate and ammonia nitrate in varying proportions, which are not commercially available as such, a constant mixture is produced with a defined component or desired composition; These components or their mixtures alone or in mixtures with other substances may constitute inorganic fertilizers suitable for sale, such as ammonium sulfate, ammonium nitrate, ammonium nitrate or (in combination with lime) ammonium lime nitrate.

According to another feature of the invention, a mixture consisting of ammonium sulfate and ammonium nitrate is added in an amount such that the desired ratio of fi(NH,), So4/NH,No, is adjusted by precipitation of 0aSO, and Ca(OH)
.

Milk of lime is added in such a way that 1 equivalent of ammonia is liberated for the amount of milk of lime added.

According to yet another feature of the invention, the mixture consisting of ammonium sulfate and ammonium nitrate is provided with a component of both of these components that lacks a marketable mixture before being cleaved into a marketable fertilizer. added to.

Another feature of the invention is that 80,/No.
The molar ratio of x already consists in adjusting the composition of the mixture of ammonium sulfate and ammonium nitrate that results during the subsequent purification of the flue gas so that it corresponds to that of a commercially available mineral fertilizer.

The method according to the invention will be explained in more detail with reference to some exemplary embodiments and associated system diagrams.

Example 1 Example 1 is described below with reference to FIG.

of ammonium nitrate in anhydrous liquid ammonia obtained in the final part (2) of the method described in this example.
100kg of +S liquid (NH320Jcg) saturated at ℃
NH, No, solcg) in the centrifuged ammonium sulfate (NH, No, solcg) in a previous batch of this same method.
The anhydrous liquid ammonia already used in washing (5) of steps 6 and 7) is further diluted with 10 koji.

1 o kg of precipitated crude powder (1 o) consisting of 60 # of ammonium sulfate and 4 o kg of ammonium nitrate are introduced into this solution (8) with stirring (9), and the ammonium nitrate is then dissolved. Thereafter, it is centrifuged (11) to remove undissolved ammonium sulfate (6). Aqueous ammonium sulfate (6) was mixed with anhydrous liquid ammonia (12
)10 Wash again with Ico (5). Then from the solution containing ammonia and ammonium nitrate (13), 20
Ammonia (14) is distilled off (15) by reducing the pressure to 0.8 bar at °C. At that time, the ammonium nitrate (16) that crystallizes is centrifuged17)
, dryly 18), and pure ammonium nitrate (18)
9) is extracted from this method. Mother liquor (1) and washing liquor (3) are used to start a new batch.

The distilled ammonia (14) is liquefied (20),
It is then used again for washing (5) of ammonium sulfate (6).

Example 2 Example 2 is described below with reference to FIG.

Ammonium sulfate 58 Icg and ammonium nitrate 4
A mixture (21) consisting of 2 and 9 was mixed with ammonia aqueous solution (NH, 53% by weight!!%r) soIcg (2
3) in which the washing liquid of the centrifuged ammonium sulfate washing from the preceding batch (24) is used together. Ammonium nitrate dissolves within 10 minutes.

The undissolved ammonium sulfate (25) is then centrifuged (26). This ammonium sulfate (25
) is washed twice using a 33% aqueous ammonia solution (27) 20 ~ (2B). The resulting ammoniacal ammonium nitrate solution (29) was then diluted with ammonium nitrate (3
0) in a manner known per se to obtain (
31).

The water and ammonia vapor (32) produced during the above evaporative concentration (31) is concentrated (33) and used again in the process.

Example 3 Example 3 is described below with reference to FIG.

64 kg of ammonium sulfate and 36 kg of ammonium nitrate
mixture (40) consisting of 72 kg of water at 90°C.
(41). Undissolved matter (silt) (42) is separated from house to house (43).

36 kg of ammonia gas (45) are introduced (46) into the solution (44) under a pressure of approximately 7 bar. This solution (
47) is cooled to 25° C. 48), at which time ammonium sulfate is separated and precipitated. This ammonium sulfate (49)
go door to door (50). The solution (51) is then evaporated in a spray tower (52), with ammonium nitrate (
53) is separated. Evaporated water-ammonia mixture (5
4) is separated off in a manner known per se and the ammonia gas (45) is recycled to the process.

Example 4 Example 4 is described below with reference to FIG.

Ammonium sulfate 60#l and ammonium nitrate ao
Mixture (56) consisting of Ic9 was heated to 72°C with water at 90°C.
kg (57). 30% in this solution (58)
milk of lime (=Ca(OH)t 15-2IC9) (
59) is added, precipitating the calcium sulfate and driving off the ammonia (61). The precipitated calcium sulfate (62) is separated by furnace (66). The solution is then evaporated in a spray column (65), with the approximate composition (N
H,)2+30. Ammonium sulfate (6
6) is separated and precipitated.

Example 5 Proceed as in Example 4. However, milk of lime in 30 (=Ca(OH), 9 in 35.7) (59)
Add 112.2 kg. At this time, ammonium nitrate (67) containing almost no sulfate is separated and precipitated in the spray tower.

Example 6 Proceed as in Example 5. The ammonium nitrate formed is further processed to form ammonium nitrate in a manner known per se.

Example 7 Proceed as in either Example 2 or 3. However, the final evaporative concentration of the obtained solution is omitted. Instead, this solution is used directly as a liquid fertilizer.

Example 8 100 koji separated coarse powders consisting of ammonium sulfate 66.6 to 9 and ammonium nitrate 33゜3Ic9 were prepared using a known method to prepare 11.1 k of ammonium nitrate in 10 kg of water.
Granulate on a granulator with the addition of g of solution. The resulting granules contain ammonium sulphate and ammonium nitrate in a weight ratio of 60=40.

It is also possible to combine the above solutions.

[Brief explanation of the drawing]

1 to 4 are schematic process diagrams showing embodiments of the method according to the invention corresponding to Examples 1 to 4, respectively. In each of the figures above, the main parts are shown with reference numbers as follows: 1. Saturated solution of ammonium nitrate 2. Final part of this method 6. Anhydrous liquid ammonia 4.・Mixing 5...Washing 6.7...Ammonium sulfate 8...Solution 9...Stirring 10...Coarse powder 11...Centrifugation 12/Automatic/Liquid ammonia 13/ ... Ammonia-ammonium nitrate containing solution 14 ... Ammonia 15 ... Distillation 16 ... Ammonium nitrate 17 ... Centrifugation 1B ... Drying 19 ... Ammonium nitrate 20 ... Liquefaction 21... Ammonium sulfate-ammonium nitrate mixture 22... Stirring 23... Aqueous ammonia solution 24... Preceding batch 25... Ammonium sulfate 26... Centrifugation 27... Bottle aqueous ammonia solution 28...Washing 29...Ammoniacal ammonium nitrate solution 30.
... Ammonium nitrate 31 ... Evaporation concentration 32 ... NH, -Hto 33 ... Concentration 40 ... 1 Ammonium sulfate-ammonium nitrate mixture 41 ... Dissolution 42 ... Undissolved matter 43. ...Filtration 44...Solution 451...Ammonia gas 46...Introduction 47...Solution 48...Cooling 49...Ammonium sulfate 50...Filtration 51... Solution 52...evaporation concentration 53...-mill! Ammonium acid 54...Water-ammonia mixture 55...Separation 56...Ammonium sulfate-ammonium nitrate mixture 57...Dissolution 58...Solution 59...Milk of lime 60... Precipitation 61... Ammonia gas 62... Calcium sulfate 63... Filtration 65... Spray tower 66... Ammonium sulfate 67... Ammonium nitrate

Claims (1)

[Claims] 1. A process for producing a salable inorganic fertilizer from a residue of flue gas purification, in particular a mixture of ammonium sulfate and ammonium nitrate resulting from flue gas purification, in which both components of the mixture are The method for producing the above-mentioned marketable inorganic fertilizer, characterized in that the separation is performed using ammonia. 2. The method according to claim 1, wherein the separating agent ammonia is used in the form of anhydrous liquid ammonia. 3. The method according to claim 1, wherein the separating agent ammonia is used in the form of an aqueous solution. 4. A mixture consisting of ammonium sulfate and ammonium nitrate is first dissolved together in water and both components of this mixture are separated by precipitating the ammonium sulfate by addition of ammonia. the method of. 5. A process for producing a marketable inorganic fertilizer from the residue of flue gas purification, in particular from the mixture consisting of ammonium sulfate and ammonium nitrate resulting from the flue gas purification, in which the mixture consisting of ammonium sulfate and ammonium nitrate is added by precipitation of CaSO_4 ( NH_4)_2S
Milk of lime is added in such an amount that the desired ratio of O_4/NH_4NO_3 is adjusted and the content of Ca(OH)_2 is calculated so that 1 equivalent of ammonia for the added amount of milk of lime is liberated. The method for producing the above-mentioned marketable inorganic fertilizer, characterized in that: 6. The method according to any one of claims 1 to 5, wherein the produced ammonium nitrate is post-treated by adding calcium carbonate to lime ammonium nitrate in a manner known per se. 7. A process for producing a salable inorganic fertilizer from the residue of flue gas purification, in particular from a mixture of ammonium sulfate and ammonium nitrate resulting from flue gas purification, in which both of these components are added to the mixture of ammonium sulfate and ammonium nitrate. The process for producing a salable inorganic fertilizer as described above, characterized in that the components lacking a salable mixture are mixed before being prepared into a salable fertilizer. 8. The method according to claim 7, wherein all or part of the liquid required during the preparation is replaced by an aqueous solution of the missing component. 9. A method for producing salable inorganic fertilizers from the residue of flue gas purification, in particular from the mixture of ammonium sulfate and ammonium nitrate resulting from flue gas purification, in which the molar ratio of SO_2/NO_x in the flue gas has already been determined. ,
The method for producing a marketable inorganic fertilizer as described above, characterized in that the composition of the mixture of ammonium sulfate and ammonium nitrate produced during the subsequent flue gas purification is adjusted to correspond to that of a marketable inorganic fertilizer. 10. By increasing the molar ratio of SO_2/NO_x in the flue gas by adding sulfur-poor or sulfur-rich fuel, the composition of the mixture consisting of ammonium sulfate and ammonium nitrate resulting from the subsequent flue gas purification can be changed. The method according to claim 9, wherein the method is adjusted to correspond to that of a moisturizing inorganic fertilizer. 11. The molar ratio of SO_2/NO_x in the flue gas can be adjusted by varying the combustion ratio, in particular the fuel-air ratio and the combustion temperature, of the mixture consisting of ammonium sulfate and ammonium nitrate produced during the subsequent flue gas purification. 10. A method according to claim 9, wherein the composition is adjusted to correspond to that of commercially available inorganic fertilizers. 12. Ammonium sulfate and/or ammonium nitrate in dissolved form is used as a liquid fertilizer without prior separation, according to claims 1 to 5, 7 and 9 to 11. Any method described.