JP3393282B2 - Ammonia removal method from seawater - Google Patents

Description

Detailed Description of the Invention

[0001]

The present invention relates to relates to the purification of the breeding seawater in aquariums, such as aquariums, fisheries Experiment Station, more particularly, it relates to ammonia exhibit strong toxicity to aquatic organisms how removed by ozone treatment.

[0002]

2. Description of the Related Art Conventionally, when removing ammonia dissolved in breeding seawater, seawater is passed through a filter filled with a filter medium,
At this time, ammonia nitrification, which finally converts ammonia in seawater to nitric acid, is performed by the action of the ammonia-oxidizing bacteria and the nitrite-oxidizing bacteria growing on the surface of the filter medium and in the filter medium. This reaction is shown by the following formula.

NH ₄ ⁺ + 3 / 2O ₂ → NO ₂ ⁻ + 2H ⁺ + H ₂ O NO ₂ ⁻ + 1 / 2O ₂ → NO ₃ ⁻

[0004]

However, when the above-mentioned ammonia nitrification is carried out, the pH is lowered as the nitrate ion concentration is increased. Then, in this case, the produced nitrate ions do not show as strong toxicity to fish and other aquatic organisms as ammonia does, but are harmful at high concentrations. In addition, lowering the pH is not preferable in terms of breeding environment.

Therefore, in order to further improve the breeding environment, it is necessary to remove nitrate ions in the breeding seawater, so-called denitrification. For that purpose, equipment for performing the denitrification step must be newly provided. This will increase the equipment cost and the seawater treatment space.

For this reason, at present, most aquariums do not remove nitrate ions produced by ammonia nitrification by microorganisms such as the above-mentioned ammonia-oxidizing bacteria, and a test for removing nitrate ions at a small part is performed. Is only taking place.

In view of the above points, an object of the present invention is to provide an ammonia removal method capable of removing ammonia in rearing seawater without generating nitrate ions and without lowering the pH.

[0008]

According to claim 1 of the present invention .
Is the method of removing ammonia in seawater using ozone treatment a water tank?
Breeding seawater containing ammonia from the inflow to the ozone aeration tower
The ammonia concentration in seawater is 0.1 to 1 mg-
N / l and COD of 2 mg / l or less
When, residual oxidant concentration 2-6 _{mg-O 3} / Li
The ozone-containing gas is blown into the seawater from the ozone generator so that the ozone reacts with the bromine ions in the seawater, and the residual oxidant that is generated decomposes ammonia and the ozone and the residual oxidant are bactericidal. Suppresses the growth of microorganisms in seawater to prevent ammonia nitrification by microorganisms , and then the ozone aeration tower
The seawater that came out was filtered with a sand filter, and this filtered seawater was activated carbon.
It is allowed to flow into the oxidant removal tower filled with
Decomposes and removes oxidant, and further removes oxidant
The feature is that the seawater from the tower is returned to the aquarium for circulation treatment .

In the method for removing ammonia according to the present invention,
Don't let some of the seawater from the aquarium flow into the ozone aeration tower
First, it is preferable to flow into a sand filter .

By ozone treatment according to claim 3 of the present invention
Ammonia removal method in seawater, was out of the water tank ammonia
The breeding seawater containing the water is filtered with a sand filter, and the filtered seawater is filtered.
The ammonia concentration in seawater
0.1-1 mg-N / liter and COD 2 mg
/ Liter or less, the residual oxidant concentration is 2 to
Ozone was added to the same seawater to give 6 mg-O ₃ / liter.
The ozone-containing gas obtained from the gas generator is blown into the ozone
And bromide ions in sea water is reacted with the generated residual Tomesei O
The oxidant decomposes ammonia and
Microorganisms in seawater due to the bactericidal properties of water and residual oxidants.
Suppresses the growth of bacteria and prevents ammonia nitrification by microorganisms
At the same time, part of the seawater from the ozone aeration tower is filtered with sand.
Returned to the reactor and circulated, then exited from the ozone aeration tower
Seawater was introduced into an oxidant removal tower filled with activated carbon.
Decomposes and removes oxidant in seawater.
The seawater from the sidant removal tower is returned to the aquarium for circulation treatment.
It is characterized by doing. According to the method of the present invention, ammonia in seawater can be removed by the following actions.

That is, bromine ions of 60 p are present in seawater.
It is contained in about pm, and this reacts with ozone to generate a residual oxidant containing hypobromite ion as a main component, and ammonia is decomposed by the oxidant.

Br ⁻ + O ₃ → BrO ⁻ + O ₂ 3HBrO + 2NH ₃ → N ₂ + 3Br + 3H ₂ O In addition, the bactericidal properties of ozone and residual oxidants suppress the growth of microorganisms in seawater and prevent ammonia nitrification by microorganisms. Therefore, nitrate ion is not generated and pH
Will not occur.

The apparatus of the present invention used in the method for removing ammonia in seawater described above comprises an ozone generator, an ozone aeration tower for aerating seawater with ozone gas supplied from the ozone generator, and a filter for filtering seawater. It has and.

[0014] in which the catalyst for decomposing and removing residual oxidant contained in seawater ozonation provided oxidant removal column filled.

According to the first aspect of the present invention,
Seawater from the ozone aeration tower is filtered with a sand filter and
According to the invention of claim 3, the seawater discharged from the ozone aeration tower
Since part of the water is returned to the sand filter for circulation, the present invention
According to the method, in either case, fine in sand filter in
The growth of organisms can be prevented.

[0016]

BEST MODE FOR CARRYING OUT THE INVENTION Next, examples of the present invention will be described.

Example 1 As shown in FIG. 1, seawater with an ammonia concentration of 0.5 mg-N / liter discharged from a water tank (1) was allowed to flow into an ozone aeration tower (2), and a residual oxidant of 3.5 mg- was added. Ozone-containing gas was blown into the seawater from the ozone generator (3) so as to obtain O ₃ / liter. Next, the seawater discharged from the ozone aeration tower (2) was filtered with a sand filter (4), and this filtered seawater was introduced into an oxidant removal tower (5) filled with activated carbon to decompose and remove the oxidant in the seawater. .

In this way, the seawater tank (1) → ozone aeration tower (2) → sand filter (4) → oxidant removal tower (5) →
When it was circulated for 1 hour like the water tank (1), the ammonia concentration in the seawater finally reached 0.000 as shown in Fig.2.
It became 4 mg-N / liter or less. Also, the pH of seawater
Was measured, and it was about 8.1 with almost no change in pH before and after the removal of ammonia by the ozone treatment. Furthermore, the presence or absence of breeding of nitrifying bacteria was examined in the sand filter (4), but the breeding of the bacteria was not observed.

In the above seawater treatment, a part of seawater discharged from the water tank (1) is not allowed to flow into the ozone aeration tower (2),
Although it was made to flow into the sand filter (4), the same treatment result as above was obtained in this case as well.

The method of monitoring and analyzing oxidants in seawater is as follows.

(1) Monitoring of oxidant The oxidant can be monitored by a process total chlorine analyzer (DPD). In this case, the unit of measurement is mg
-Cl / liter. The value measured by a data herein all manual analysis (KI method), the unit is mg-O ₃ /
Although it is liter, these can be converted by the molecular weight ratio.
(Mg-Cl / L) = _{(mg-O 3} / L)
× 1.477. For example, "the residual oxidant concentration is 2
If injecting _{~6mg-O 3} / liter "become such ozone gas, the" 2-6 _{mg-O 3} / l "becomes 3~9mg-Cl / liter chlorine terms.

As the total chlorine analyzer for the process, a pump colorimeter (manufactured by Hack) and a residual chlorine analyzer CL-
Type 17 (manufactured by Hack) is exemplified.

(2) Persistent oxidant analysis method (KI method) A KI aqueous solution is added to the sample solution, and the mixture is reacted at 25 ° C for 10 minutes, and then the absorbance is measured at 352 nm.

Specifically, depending on the sample concentration, the following 2
Measure in one of two ways.

In case of 0.5 mg-O ₃ / liter or more, 10 ml of 2% KI aqueous solution is added to 10 ml of the sample solution,
Mix. After reacting at 25 ° C for 10 minutes, 352n
The absorbance at m is measured. Solution I ₃ is used as a standard solution.

In the case of 0.5 mg-O ₃ / liter or less, 1 ml of 20% KI aqueous solution was added to 20 ml of the sample solution,
Mix. After reacting at 25 ° C for 10 minutes, 352n
The absorbance at m is measured. Solution I ₃ is used as a standard solution.

Example 2 As shown in FIG. 3, seawater having an ammonia concentration of 0.5 mg-N / liter discharged from the water tank (1) was filtered by a sand filter (4), and the filtered seawater was supplied to an ozone aeration tower ( After leading to 2), the ozone-containing gas obtained by the ozone generator (3) was blown into the seawater. The seawater was introduced into the oxidant removal tower (5) to decompose and remove the oxidant.

In this way, the seawater tank (1) → sand filter (4) → ozone aeration tower (2) → oxidant removal tower (5) →
After circulating treatment for 1 hour like the water tank (1), Example 1
Similar processing results were obtained. Also, ozone aeration tower (2)
A part of seawater discharged from the tank was returned to the sand filter (4) and circulated, and in this case, the same treatment result was obtained.

In this way, a part of the seawater that has exited the ozone aeration tower must be returned to the sand filter. Otherwise, microorganisms will grow in the sand filter.

[0030]

According to the ozone treatment of claim 1 of the present invention .
That ammonia removal method in seawater, as described above, or a water tank
Breeding seawater containing ammonia from the inflow to the ozone aeration tower
The ammonia concentration in seawater is 0.1 to 1 mg-
N / l and COD of 2 mg / l or less
When, residual oxidant concentration 2-6 _{mg-O 3} / Li
The ozone-containing gas is blown into the seawater from the ozone generator so that the ozone reacts with the bromine ions in the seawater, and the residual oxidant that is generated decomposes ammonia and the ozone and the residual oxidant are bactericidal. Suppresses the growth of microorganisms in seawater to prevent ammonia nitrification by microorganisms , and then the ozone aeration tower
The seawater that came out was filtered with a sand filter, and this filtered seawater was activated carbon.
It is allowed to flow into the oxidant removal tower filled with
Decomposes and removes oxidant, and further removes oxidant
The feature is that the seawater from the tower is returned to the aquarium for circulation treatment .

In the ammonia removal method according to the present invention,
Don't let some of the seawater from the aquarium flow into the ozone aeration tower
First, it is preferable to flow into a sand filter .

By ozone treatment according to claim 3 of the present invention
Ammonia removal method in seawater, was out of the water tank ammonia
The breeding seawater containing the water is filtered with a sand filter, and the filtered seawater is filtered.
The ammonia concentration in seawater
0.1-1 mg-N / liter and COD 2 mg
/ Liter or less, the residual oxidant concentration is 2 to
Ozone was added to the same seawater to give 6 mg-O ₃ / liter.
The ozone-containing gas obtained from the gas generator is blown into the ozone
And residual bromine ions in seawater
The oxidant decomposes ammonia and
Microorganisms in seawater due to the bactericidal properties of water and residual oxidants.
Suppresses the growth of bacteria and prevents ammonia nitrification by microorganisms
In addition, some of the seawater from the ozone aeration tower (2)
Return to sand filter (4) for circulation, then ozone aeration tower
Activated carbon seawater coming from is filled Oki ozone aeration tower
Part of the seawater from (2) is returned to the sand filter (4) and circulated to flow into the sidant removal tower to remove the oxidant in the seawater.
Seawater that has been decomposed and removed, and then discharged from the oxidant removal tower
It is characterized in that the water is returned to the water tank and is circulated.
According to the method of the present invention , in any of the above cases, bromine ion in seawater reacts with ozone to generate a residual oxidant mainly composed of hypobromite ion, and ammonia is decomposed by the oxidant. .

Moreover , the bactericidal properties of ozone and residual oxidant suppress the growth of microorganisms in seawater and prevent ammonia nitrification by microorganisms, so that nitrate ions are not generated and the pH is not lowered.

Therefore, according to the method of the present invention , since nitrate ions themselves are not generated, it is not necessary to install the equipment for the conventional denitrification process, and the equipment cost and the seawater treatment space are not increased.

As described above, according to the method of the present invention, ammonia in the breeding seawater can be removed cost effectively.

Further , in the invention of claim 1 of the present invention,
The seawater discharged from the aeration tower is filtered by a sand filter,
According to the invention of claim 3, one of the seawater discharged from the ozone aeration tower is
Since the part is returned to the sand filter and is circulated,
According to the law, in each case the microorganisms in the sand filter are
Ammonia removal rate in seawater is improved while suppressing the growth of
Can be made.

[Brief description of drawings]

FIG. 1 is a flow scheme showing an embodiment of the present invention.

FIG. 2 is a graph showing changes in ammonia concentration over time.

FIG. 3 is a flow scheme showing another embodiment of the present invention.

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁷ identification code FI C02F 1/76 C02F 1/76 C B01D 35/02 C (56) Reference JP-A-8-80493 (JP, A) JP JP-A-8-181391 (JP, A) JP-A-3-219820 (JP, A) JP-A-3-216131 (JP, A) JP-A-3-180131 (JP, A) JP-A-7-284357 (JP , A) JP-A-5-64533 (JP, A) JP-A-4-313388 (JP, A) (58) Fields investigated (Int.Cl. ⁷ , DB name) C02F 1/78 C02F 1/58 A01K 63/00

Claims (3)

(57) [Claims] 1. Breeding containing ammonia discharged from an aquarium (1)
The seawater is allowed to flow into the ozone aeration tower (2) and
Monia concentration is 0.1 ~ 1mg-N / L, and C
When OD is less than 2 mg / liter, persistent oxidane
The ozone-containing gas was blown into the seawater from the ozone generator (3) so that the ozone concentration was 2 to 6 mg-O ₃ / liter, and the ozone and the bromine ions in the seawater were reacted to produce ammonia with the residual oxidant produced. In addition to decomposing water, the bactericidal properties of ozone and residual oxidants suppress the growth of microorganisms in seawater, prevent ammonia nitrification by microorganisms , and then remove the seawater discharged from the ozone aeration tower (2).
Filter with a sand filter (4) and fill the filtered seawater with activated carbon.
The oxidant removal tower (5)
Decomposes and removes sidant and further removes oxidant
A method for removing ammonia in seawater by ozone treatment, characterized in that the seawater discharged from (5) is returned to the water tank (1) and circulated . 2. A part of seawater discharged from the water tank (1) is exposed to ozone.
The ammonia removal method according to claim 1, wherein the ammonia is introduced into the sand filter (4) without being introduced into the air column (2) . 3. Breeding containing ammonia discharged from the aquarium (1)
The seawater is filtered with a sand filter (4) and the filtered seawater is exposed to ozone.
Guided to the air column (2), the concentration of ammonia in seawater was reduced to 0.
1-1 mg-N / l and COD is 2 mg / liter
When the amount is less than or equal to 1 ton, the residual oxidant concentration is 2 to 6 m
Ozone emission to the seawater is adjusted to g-O ₃ / liter.
Blow in the ozone-containing gas obtained in the jar (3)
And residual bromine ions in seawater
The oxidant decomposes ammonia and
Microorganisms in seawater due to the bactericidal properties of water and residual oxidants.
Suppresses the growth of bacteria and prevents ammonia nitrification by microorganisms
Then, the activated carbon is used to remove the seawater from the ozone aeration tower (2).
Flow into the packed oxidant removal tower (5)
Decomposes and removes oxidants from the ozone aeration tower
Part of the seawater from (2) is returned to the sand filter (4) and circulated.
The seawater from the oxidant removal tower (5).
Ozone characterized by being returned to the tank (1) and circulated
Removal of ammonia in seawater by treatment .