JPS6349164A - Aqueous solution deodorant - Google Patents

Abstract

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

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an aqueous deodorizing agent suitable for use by spraying directly onto sources of bad odors such as toilet tanks, kitchen waste, sludge, and livestock sheds.

[Conventional technology]

During the period of high economic growth up to the mid-1960s, the majority of odor problems were caused by relatively high temperature, large-scale odor sources, such as petrochemical plants and valve factories. With the advancement of industrial deodorization technology, such as the enactment of the Offensive Odor Prevention Act in 1998 and the development of various post-industrial deodorization devices, the proportion of offensive odor problems at large-scale sources has decreased.

Recently, in pursuit of a more comfortable living environment, small-scale
It has become necessary to deal with sources of intermittent bad odors, such as kitchen waste and pump-out toilets. As a countermeasure against this problem, it is natural that it is more efficient to take measures to prevent bad odor at the source of the odor and its vicinity, rather than on the living space side. For this reason, liquid deodorizers that are sprayed directly onto kitchen waste, toilet bowls, etc. have recently come into use, but these must be fast-acting and relatively inexpensive to use. .

[Problems to be solved by the invention] Malodorous substances have a wide range of chemical structures, but representative ones such as ammonia, amines, and hydrogen sulfide are fairly strong alkaline or acidic substances. It is. Therefore, the malodor can be removed by neutralizing it with a substance that exhibits a pH behavior opposite to that of the malodorous substance.

Deodorization by this neutralization method is effective when the pH behavior of malodorous substances is concentrated on one side, but if the malodor is caused by a mixture of many substances, deodorization by simple neutralization is ineffective. It is often sufficient, or even has the effect of intensifying the odor of the seeds.

[Means for solving problems]

Among the malodorous substances mentioned above, ammonia is a typical alkaline substance, while hydrogen sulfide is an acidic substance.

If it is possible to obtain a spray deodorizer that has deodorizing effects on both of these substances, it will be considered an effective deodorizer for a wide range of malodor sources.

The present inventors conducted extensive research in order to obtain a deodorizing agent for spraying that is effective in deodorizing both ammonia and hydrogen sulfide, which can be said to be representative malodorous substances, and can be manufactured at low cost. As a result, they found that an aqueous solution of strong metal salts such as aluminum sulfate and zinc sulfate containing a metal complex forming agent and a pHJI regulator and adjusting the pH to 5 to 9 had excellent performance. , arrived at the present invention.

[Structure of the invention]

The present invention is characterized in that it contains a strong acid salt of a metal other than an alkali metal and an alkali stopping metal, a complex forming agent, and a pH adjusting agent necessary to adjust the PLL of the solution to a range of 5 to 9. This invention relates to an aqueous deodorizing agent.

The strong acid salts of metals used in the present invention include sulfates, nitrates, and chlorides of aluminum, zinc, iron, copper, manganese, cobalt, nickel, etc., and aluminum sulfate and zinc sulfate are particularly suitable. . Aqueous solutions of these strong metal salts exhibit strong deodorizing effects against ammonia, and their deodorizing speed is rapid. The strong acid salts of these metals are, for example, 10%? pll in 8/Fi is about 2 to 4 acidic, and the affinity for ammonia is thought to be due to a kind of neutralization reaction.

Generally, aqueous solutions of strong acid salts of these metals have a deodorizing effect on ammonia, which is alkaline, but do not have a deodorizing effect on hydrogen sulfide, which is an acidic substance, except for some metal salts such as copper salts. However, the aqueous solution obtained by adjusting the PU to 5 to 9, preferably 7 to 8 by adding a pH adjuster, that is, an alkali such as sodium hydroxide in this case, to the aqueous solution has a deodorizing effect on hydrogen sulfide. . However, when an alkali is added to strong acid salts of many metals in an attempt to shift the pH to the neutral side, metal hydroxides tend to precipitate.

Those that form a precipitate are unsuitable for spraying or greatly reduce effectiveness. On the other hand, if a substance capable of forming a complex is added to an aqueous solution, precipitation will be prevented and a stable dissolution state will be maintained even if the pH is changed, making it possible to obtain the desired aqueous solution. As the complex forming agent, oxycarboxylic acids, polycarboxylic acids, or alkali salts thereof, such as sodium citrate, sodium tartrate, sodium fumarate, etc. can be used.

〔Effect of the invention〕

The aqueous solution deodorizer of the present invention has a quick deodorizing effect and has a wide range of applications against malodorous gases, so it is effective against actual sources of multiple malodorous gases such as toilet tanks, kitchen waste, sludge, and sewage. It is. That is, by directly spraying the aqueous deodorizing agent of the present invention on a target, a rapid deodorizing effect can be obtained.

In the deodorizing agent of the present invention, especially when aluminum sulfate or zinc sulfate is used as the metal salt, the aqueous solution itself and the dried product to which it is attached are colorless, and do not contaminate the surrounding area or the clothes of workers. Aqueous deodorizing agents using these materials are colorless when impregnated into fibers, etc. and dried, and also exhibit deodorizing ability against ammonia and hydrogen sulfide, so they can be used as solid deodorizing agents by impregnating and drying them into various porous bodies. It is also possible.

〔Example〕

The present invention will be explained below with reference to Examples, but the present invention is not limited thereto.

Example 1 4 g of aluminum sulfate 18 hydrate, 0.5 g of zinc sulfate heptahydrate
A solution of 1 g of sodium hydroxide dissolved in 192.5 g of distilled water (pH = 6.5) was added to 2 g of sodium citrate to prepare a total solution of 200 g.

Take 30 g of the above solution in a washing bottle and add 0.257 g of nitrogen gas containing 43 to 48 ppm of hydrogen sulfide gas. Aeration was carried out at a rate of 1/min, and the concentration of hydrogen sulfide gas in the gas passing through the solution was measured using a detection tube after a certain period of time after the start of aeration.

Similar measurements were performed using distilled water as a control solution. The results are shown in Table 1 below.

Table 1 Effect of the solution of the present invention on hydrogen sulfide Example 2 170 g of the solution prepared in Example 1 was placed in an air washing bottle,
Air containing 00 ppm of ammonia gas was aerated at a rate of 11/min, and the concentration of ammonia gas in the gas that had passed through the solution after a certain time after the start of aeration was measured using a detection tube.

Similar measurements were performed using distilled water as a control solution. The results are shown in Table 2 below.

Claims (1)

[Claims] 1. Contains a strong acid salt of a metal other than alkali metals and alkaline earth metals, a complex forming agent, and a pH adjusting agent necessary to adjust the pH of the solution to a range of 5 to 9. An aqueous deodorizer featuring: 2. The aqueous solution deodorizer according to claim 1, wherein the strong acid salt of a metal other than alkali metals and alkaline earth metals is aluminum sulfate or zinc sulfate. 3. The aqueous deodorizer according to claim 1 or 2, wherein the complex forming agent is an oxycarboxylic acid, a polycarboxylic acid, or a salt thereof.