JP2023049307A - Pond purification method - Google Patents

Abstract

To provide a pond purification method for, in a pond (for example, a pond around an artificial mountain in a monkey enclosure at a zoo) provided in a region where, animals for appreciation (for example, monkeys) in a zoo are cultured, preventing or reducing, deterioration (for example, great increase of a degree of becoming muddy of pond water) of landscape properties which may be caused by, excreta discharged by the animals for appreciation or leftovers of bait.SOLUTION: There is provided a pond purification method for, in a pond provided in a region where, animals for appreciation are cultured, a water flow in a horizontal direction and being circulated, is formed, and grain bodies for water quality purification formed of calcium silicate-containing materials, are supplied in a water quality purification grain body supplying step.SELECTED DRAWING: None

Description

The present invention relates to a pond cleaning method.

2. Description of the Related Art A pond (for example, a pond around a monkey mountain) may be provided in an area where animals for viewing (for example, monkeys) are raised in a zoo or the like.
In this case, the eutrophication of the pond tends to progress due to excreta and leftover food from animals for viewing.
On the other hand, if the eutrophication of the pond progresses, there is a problem that the scenic beauty for visitors to a zoo or the like deteriorates.
In particular, if ornamental fish (for example, carp) live in the pond, if the pond is highly turbid, it will be difficult for visitors to notice the ornamental fish. This makes it difficult to achieve the original purpose of entertaining onlookers.

Conventionally, various methods have been proposed as methods for cleaning ponds in parks and the like.
For example, in Patent Document 1, gravel is laid on the bottom of a pond to form a gravel layer, a sand layer is further formed on the upper surface of the gravel layer, and a suction pipe and the suction pipe are provided in the bottom of the gravel layer. A method for purifying ponds, etc., characterized by sucking and circulating bottom layer water with a pump connected to the bottom layer to constantly generate a downward flow of water (downflow water flow). .

On the other hand, water purification materials containing calcium silicate-containing materials are known as water purification materials.
For example, Patent Document 2 describes a water purification material containing a calcium silicate-containing material and zeolite, wherein each of the base substitution capacity and the phosphate absorption coefficient is within a specific numerical range. there is

JP-A-7-24497 JP 2020-157247 A

The method for purifying a pond, etc., described in Patent Document 1 sucks in the bottom layer water and constantly generates a downward current (downflow water current). This is intended to reduce
However, in the purification method of Patent Document 1, as is clear from FIG. 4 (water tank with downward water flow), the larger the area of the pond, the larger the purification equipment, resulting in increased equipment costs and management maintenance. It is costly.

The water purification material described in Patent Document 2 solves the problem that water quality deteriorates due to the excrement of aquatic organisms in aquaculture ponds for shrimp and other aquatic organisms. By promoting the growth of diatoms in water by the ability to supply acid, the growth of aquatic organisms such as shrimp that feed on diatoms is improved. This water purification material can be said to purify the water quality in terms of reducing the concentration of ammonia and phosphoric acid, but it does not reduce the turbidity of the water in the aquaculture pond in terms of promoting the growth of diatoms.

The object of the present invention is to collect feces and urine of ornamental animals in a pond (for example, a pond around Monkey Mountain) provided in an area where ornamental animals (for example, monkeys) are bred in a zoo or the like. It is possible to prevent or reduce the deterioration of the landscape (for example, the turbidity of the water in the pond becomes very large) that can be caused by food and leftover food at low cost, easily, and in a short period of time. To provide a method for cleaning a pond.

As a result of intensive studies to solve the above-mentioned problems, the present inventors supplied water purification granules made of a calcium silicate-containing material to the above-mentioned pond while forming a horizontal and circulating water flow. The inventors have found that the above object can be achieved by doing so, and completed the present invention.
The present invention provides the following [1] to [6].

[1] Water purification granules made of a material containing calcium silicate are applied to a pond provided in an area where animals for viewing are kept, while forming a horizontal and circulating water flow. A method for purifying a pond, comprising a step of supplying granules for water purification.
[2] After the water purification granules supply step, the above [1] includes a granule re-supply step in which the same process as the water purification granules supply step is repeated one or more times at a predetermined interval. ].
[3] The pond purification method according to [2] above, wherein the predetermined interval is an interval selected within a range of 10 to 100 days.
[4] The water purification granules are granules made of porous calcium silicate hydrate, the proportion of granules having a particle size of 1 to 4 mm is 10% by mass or more, and the particle size exceeds 4 mm. The method for purifying a pond according to any one of [1] to [3] above, wherein the content of the particles is 20% by mass or less.
[5] The pond is a pond formed in a circle around an island on which the animals for appreciation are bred, and the horizontal and circulating water flow is in the pond formed in the circle. The method for purifying a pond according to any one of [1] to [4] above, wherein the pond circulates circularly according to the circular shape.
[6] The pond purification method according to any one of [1] to [5] above, wherein the amount of the water purification granules supplied per time is 10 kg or more per unit area of 100 m ² of the pond. .

According to the present invention, in a pond (for example, a pond around a monkey mountain) provided in an area where animals for appreciation (for example, monkeys) are bred in a zoo or the like, feces and urine of the animals for appreciation are collected. It is possible to prevent or reduce the deterioration of the landscape (for example, the turbidity of the water in the pond becomes very large) that can be caused by leftover food or leftover food at low cost, easily, and in a short period of time.

The method for cleaning a pond of the present invention comprises forming a horizontal and circulating water flow in a pond located in an area in which ornamental animals are kept, while forming a calcium silicate-containing material. It includes a water purification granule supply step of supplying water purification granules.
"Appreciation animals" mainly mean animals that are viewed by an unspecified number of people in zoos, parks, etc., and include mammals (for example, monkeys), reptiles, birds, and the like.
Among them, mammals are preferred from the viewpoint of sufficiently obtaining the effects of the present invention, and among mammals, monkeys, chimpanzees, gorillas and the like are particularly preferred.
“Area in which an animal for viewing is kept” means an area for viewers of viewing animals (e.g., monkeys) to recognize as being demarcated for the purpose of viewing the animal. In addition to areas where animals can roam (e.g., a monkey mountain in a pond), areas where ornamental animals do not move (e.g., a pond formed in a circle around a monkey mountain) include.
"Horizontal and circulating water flow" means that the water in the pond has a horizontal flow as a whole rather than a vertical (downward or upward) flow, and the water that has moved from one point It means having a flow that returns to the vicinity of that point, for example in an annularly shaped pond, it means that the water in the pond circulates in an annular fashion according to the annular shape.
An example of a means for generating such a water flow is to draw water from a pond and move the drawn water in a horizontal direction or a direction close to it (for example, an angle within the range of ±30 degrees in the horizontal direction) into the water. submersible pumps that can discharge (outflow)

An example of a "pond" is a pond formed in a circle around an island (for example, a monkey mountain) on which animals for appreciation are raised.
The area of the pond (the area of the water surface of the pond) is preferably 100 to 3,000 m ² , more preferably 300 to 2,500 m 2 , particularly preferably 300 to 2,500 m ² , from the viewpoint of ease of forming a horizontal and circulating water flow. is 500-2,000 m ² .
The depth of the pond is preferably 0.5 to 4 m, more preferably 1 to 3.5 m, and particularly preferably 1.5 to 3 m, from the viewpoint of ease of forming a horizontal and circulating water flow. .
The area of the island on which the ornamental animals are kept is preferably 50 to 2,000 m ² , more preferably 100 to 1,500 m ² , from the viewpoint of the ease of forming a horizontal and circulating water flow. Especially preferred is 200 to 1,000 m ² .
In the present invention, the turbidity of the pond to be purified is preferably 15 degrees or more, more preferably 20 degrees or more, and particularly preferably 25 degrees, from the viewpoint of sufficiently obtaining the effect of the present invention (turbidity reduction). That's it.
The upper limit of the turbidity is not particularly limited, but from the viewpoint of sufficiently obtaining the effect of the present invention (especially ensuring a good landscape after purification), it is preferably 100 degrees, more preferably 80 degrees, and particularly preferably is 60 degrees.
In the present invention, the turbidity is a value measured by the "perspective turbidity method" specified as the "test method for turbidity" in the "Test Method for Water Supply 2011 Edition" (Japan Water Works Association). say.
In the present invention, 1 degree of turbidity (unit: degree) by fluoroscopic nephelometry is equivalent to turbidity when 1 mg of formazin, a standard substance, is contained in 1 liter of purified water.

The chromaticity of the pond to be purified is preferably 5 degrees or more, more preferably 6 degrees or more, particularly preferably 6 degrees or more, from the viewpoint of significantly reducing turbidity and chromaticity to emphasize the effect of improving the landscape. 7 degrees or more.
Although the upper limit of the chromaticity is not particularly limited, it is preferably 30 degrees, more preferably 25 degrees, and particularly preferably 20 degrees from the viewpoint of sufficiently obtaining the effects of the present invention (better scenery).
In the present invention, chromaticity refers to a value measured by the "transmitted light measurement method" specified as the "method for testing chromaticity" in "Test Method for Water Supply, 2011 Edition". However, when measuring chromaticity, pond water from which suspended solids (SS) have been removed shall be used.
The transmitted light measurement method is a method of measuring the degree of pale yellow to yellowish brown color exhibited by soluble substances and colloidal substances contained in water by absorptiometry at a wavelength of around 390 nm.

The water purification granules used in the present invention are made of a calcium silicate-containing material.
Examples of calcium silicate-containing materials include tobermorite, xonotlite, CSH gel, foshagite, gyrolite, hillbrandite, wollastonite, and the like.
Among them, tobermorite is preferable from the viewpoint of availability and economy.
Tobermorite is a crystalline calcium silicate hydrate.
Natural minerals may be used as tobermorite, but from the viewpoint of easy availability, it is preferable to use lightweight cellular concrete (ALC) containing tobermorite as a main component.
Moreover, from the viewpoint of promoting the use of waste materials, it is more preferable to use offcuts of lightweight cellular concrete generated in the manufacturing process of lightweight cellular concrete or at construction sites.
Lightweight cellular concrete consists of tobermorite and unreacted silica stone and has a porosity of about 80% by volume. Here, the porosity refers to the ratio of the total volume of voids to the total volume of concrete.
The ratio of tobermorite in the lightweight cellular concrete is usually about 65 to 80% by volume based on 100% by volume of the solid phase as a whole, excluding voids inside the lightweight cellular concrete.

The particle size distribution of the water purification granules used in the present invention is preferably such that the proportion of granules having a particle size of 1 to 4 mm is 10% by mass or more (preferably 15% by mass or more, more preferably 20% by mass or more). and the proportion of particles having a particle size exceeding 4 mm is 20% by mass or less (preferably 15% by mass or less, more preferably 10% by mass or less).
If the particle size of the water purification granules is 1 mm or more, the water purification granules tend to settle to the bottom of the pond. When the particle size of the water purification granules is 4 mm or less, the effect of the present invention per unit mass of the water purification granules can be further enhanced.
The supply amount of the water purification granules in the water purification granule supply step (the step of supplying the water purification granules to the pond before purification) is determined based on the area of the pond from the viewpoint of sufficiently obtaining the effects of the present invention. (Area of water surface of pond) It is preferably 10 kg or more, more preferably 15 kg or more, and particularly preferably 20 kg or more per 100 m ² .
The upper limit of the supply amount is preferably 50 kg, more preferably 45 kg, particularly preferably 40 kg, from the viewpoint of avoiding an increase in the cost required for cleaning the pond.

The range of reduction in pond turbidity due to the supply of water purification granules (in other words, the value obtained by subtracting the turbidity value after supply from the turbidity value before supply) The value after one day (24 hours) has passed since the temperature is preferably 15 degrees or more, more preferably 20 degrees or more, and particularly preferably 25 degrees or more.
The range of decrease in the chromaticity of the pond due to the supply of water purification granules (in other words, the value obtained by subtracting the chromaticity value after supply from the chromaticity value before supply) The value after 1 day (24 hours) has passed since the temperature is preferably 1 degree or more, more preferably 2 degrees or more, and particularly preferably 3 degrees or more.

In the method for purifying a pond of the present invention, after the step of supplying granules for water purification, the same step as the step of supplying granules for water purification is repeated one or more times at predetermined intervals. It is preferred to include a feeding step.
Here, the "predetermined interval" is preferably selected within the range of 10 to 100 days, more preferably 15 to 70 days, still more preferably 20 to 50 days, and particularly preferably 25 to 40 days. be. If the interval is 10 days or more, the frequency of supplying the water purification granules is reduced, so that the effort and cost required for pond purification can be further reduced. When the interval is within 100 days, the turbidity of the pond can be maintained at a better value, and the scenery can be improved.
In addition, "the same process as the step of supplying granules for water purification" does not have to be exactly the same as the step of supplying granules for water purification, including the conditions such as the particle size distribution and supply amount of the granules for water purification. Instead, various conditions may be appropriately changed in consideration of the preferred embodiment described above for the step of supplying granules for water purification.

It is preferable that the number of times of resupply of the water purification granules in the granule resupply step is increased indefinitely while the animal for appreciation is raised.
The interval between each resupply of the water purification granules may be appropriately determined while visually evaluating the turbidity of the pond and referring to the preferable range of the above-mentioned "predetermined interval".
The amount of water purification granules supplied each time in the resupply of water purification granules is also determined by visually evaluating the turbidity of the pond, etc. It may be appropriately determined with reference to the preferable range of the supply amount of the water purification granules in the supply step).

According to the pond cleaning method of the present invention, the following effects can be obtained in addition to the reduction of turbidity and chromaticity.
Since the amount of ammonium nitrogen (NH ₄ ⁺ -N) is reduced, the environment for fish such as carp living in the pond is improved.
Since the amount of dissolved oxygen (DO) in the pond water increases, the environment for fish such as carp living in the pond becomes better.
It is possible to suppress the growth of algae such as blue-green algae that deteriorate the landscape.

EXAMPLES The present invention will be specifically described below by way of examples, but the present invention is not limited to these examples.
The following items were used as the water purification granules, the pond, and the water stream forming means.
(1) Granules for water purification Granules (ALC granules) obtained by crushing and classifying waste materials of lightweight cellular concrete (ALC) are used as granules for water purification made of calcium silicate-containing materials. board.
The ALC granules were granules with a proportion of 20% by weight of granules with a particle size of 1-4 mm and 0% by weight of granules with a particle size of greater than 4 mm.
(2) Pond set up in the area where animals for appreciation are kept area of about 470 m ² ; water surface area of the pond formed around the island: about 900 m ² ; depth of the pond: about 2 m).
(3) Means for Forming Horizontal and Circulating Water Flow Two submersible pumps (maximum total lift: 7 m) were used.
These two submersible pumps were placed on the bottom of the water on opposite sides of the monkey mountain (spaced apart by 180 degrees in an annular shape when the angle of the entire circumference is 360 degrees).
Both of these two submersible pumps are disposed near the center in the width direction of the circular water channel of the pond (the guideway for the circularly circulating water flow), and are perpendicular to the width direction (the water channel extends direction; the direction in which the water is circulated in a circle) and was arranged so that the water was discharged in the horizontal direction. In addition, when the annular pond was viewed from above, the two submersible pumps discharged water in the same direction (in the two submersible pumps, the two submersible pumps mutually promoted the annular water flow).

[Example 1]
As shown in Table 1, the pond before purification by the purification method of the present invention had a turbidity of 32.0, a chromaticity of 8.0, a dissolved oxygen content (DO) of 3.5 mg/liter, and an ammonia nitrogen content ( NH ₄ ⁺ -N) was 2.1 mg/liter, the amount of nitrate nitrogen (NO ₃ ^- -N) was not detected (ND), and the amount of phosphate phosphorus (PO ₄ ^3- -P) was not detected (ND). , pH was 7.0.
Two submersible pumps were installed and operated in this pond, and 200 kg of water purification granules were sprayed over the entire water surface of the pond. The end of spraying was defined as 0 days elapsed.
After that, turbidity and the like were measured at 1 day (24 hours), 30 days, and 45 days after the passage of time.
Then, turbidity and the like were measured when the number of days elapsed was 60 days. Immediately after this measurement, 200 kg of the same water purification granules as the previous time were sprayed over the entire water surface of the pond (second spraying).
After that, turbidity and the like were measured at 61 days (1 day after the second spraying) and 90 days (30 days after the second spraying).
Table 1 shows the above results.
From Table 1, it can be seen that the pond water turbidity and chromaticity are greatly reduced by the pond purification method of the present invention. Moreover, since the amount of dissolved oxygen increases and the amount of ammonium nitrogen decreases, it can be seen that the environment for fish inhabiting the pond becomes better.
During the experiment (days elapsed: 0 to 90 days), no growth of algae such as blue-green algae was observed.

Claims (6)

Water quality that supplies water purification granules composed of a material containing calcium silicate while forming a horizontal and circulating water flow to a pond provided in an area where animals for appreciation are kept. A method for cleaning a pond, comprising a step of supplying cleaning granules. 2. The pond according to claim 1, further comprising a granule re-supply step in which the same process as the water purifying granule supply step is repeated one or more times at a predetermined interval after the water purification granule supply step. purification method. 3. The pond cleaning method according to claim 2, wherein said predetermined interval is an interval selected within the range of 10 to 100 days. The water purification granules are granules made of porous calcium silicate hydrate, the proportion of granules having a grain size of 1 to 4 mm is 10% by mass or more, and the granules have a grain size exceeding 4 mm. The method for cleaning a pond according to any one of claims 1 to 3, wherein the content of the particles is 20% by mass or less. The pond is a pond formed circularly around an island on which animals for appreciation are bred, and the horizontal and circulating water flow forms the circular shape of the pond formed circularly. The pond purification method according to any one of claims 1 to 4, wherein the pond circulates circularly according to the following. The pond purification method according to any one of claims 1 to 5, wherein the amount of the water purification granules supplied per time is 10 kg or more per unit area of 100 m ² of the pond.