JPH0218160B2 - - Google Patents

Description

[Detailed description of the invention]

This invention relates to a sludge dewatering agent.
Sludge such as surplus sludge and flocculated sludge is generated during the treatment of sewage, human waste, or various industrial wastewater. In recent years, organic polymer flocculants have come to be used as dehydrating agents for such sludge, instead of inorganic flocculants that have been conventionally used. Methods for flocculating suspended solids (hereinafter referred to as SS) in sludge include adding a cationic organic polymer flocculant alone, or adding an anionic organic polymer flocculant and stirring and mixing, followed by adding cationic organic polymer flocculants. A method of adding a cationic organic polymer flocculant, stirring and mixing the cationic organic polymer flocculant, and then adding an anionic organic polymer flocculant, a method of adding a cationic organic polymer flocculant and an anionic organic polymer A method is known in which a molecular flocculant is added at the same time. In these conventional techniques, when a cationic organic polymer flocculant is added alone, the moisture content of the cake after dehydration is high, the SS recovery rate is low, and it is difficult to separate the cake from the cloth in a dehydrator using cloth. There were enough things. Furthermore, when using a cationic organic polymer flocculant and an anionic organic polymer flocculant together (sequential addition or simultaneous addition), cake moisture content, SS recovery rate, peelability, etc. may be improved to some extent. This method requires a plurality of flocculant dissolution tanks, storage tanks, flocculation reaction tanks, etc., which increases equipment costs and is complicated by the need to control the addition ratio of both flocculants. Furthermore, when adding a cationic and anionic organic polymer flocculant simultaneously, the flocculant may become insolubilized if a chemical solution is prepared by adding both to the same dissolution tank. An object of the present invention is to provide a sludge dewatering agent that overcomes the above-mentioned inconveniences and inconveniences of the prior art, is easy to handle, and has an excellent coagulation and dewatering effect. The present invention contains as active ingredients a cationic organic polymer flocculant that does not contain a quaternary ammonium base other than a Mannitz modified polyacrylamide polymer, an anionic organic polymer flocculant, and an alkaline agent. This is a unique sludge dehydrating agent. The sludge to be treated in the present invention is anaerobic digested sludge of human waste, aerobic digested sludge of human waste, human waste septic tank sludge, human waste digested desorbed liquid, sewage, surplus sludge in activated sludge treatment of various industrial wastewater, and initial waste sludge. There are settling tank sludge, human waste, flocculated sludge generated in tertiary treatment of sewage, etc., and flocculated sludge of various industrial wastewater.
It is not limited to this. The cationic organic polymer flocculant in the present invention does not contain a quaternary ammonium base, such as dimethylaminoethyl methacrylate, dimethylaminoethyl acrylate, or
Examples include homopolymers of dimethylaminopropyl methacrylate, dimethylaminoethyl methacrylate, copolymers of dimethylaminoethyl acrylate or dimethylaminopropyl methacrylate with acrylamide or methacrylamide, and Hoffmann decomposition products of polyacrylamide or polymethacrylamide. but not limited to. The cationic organic polymer flocculant can be obtained by a conventional method. For example, it can be obtained by dissolving a monomer in water or an organic solvent such as methanol, adding a polymerization initiator, and polymerizing it. Examples of the polymerization initiator include hydrogen peroxide, ammonium persulfide, potassium persulfide, benzoyl peroxide, azobisisobutyronitrile, and other commonly used initiators, and these can be used alone or in combination. Alternatively, a redox polymerization initiator may be used in combination with a reducing agent. Hoffmann decomposition products are obtained by treating poly(meth)acrylamide with hypohalite in an alkaline atmosphere. The cationic organic polymer flocculant in the present invention has a colloidal equivalent value of 2 meq/g or more at PH4 as a degree of cationicity, and an intrinsic viscosity ([η] 30°C 1N-NaNO3) of 3.0 (dl/g) or more. It is preferable that there be. If the colloid equivalent value and intrinsic viscosity deviate from the above ranges, the coagulation and dehydration effect will decrease. The anionic organic polymer flocculant in the present invention is a partial hydrolyzate of polyacrylamide or polymethacrylamide, a copolymer of acrylamide or methacrylamide and sodium acrylate or sodium methacrylate, acrylamide or methacrylamide and vinylsulfonic acid. Copolymer with sodium, acrylamide or methacrylamide, sodium acrylate or sodium methacrylate and 2-acrylamide
Examples include, but are not limited to, terpolymers with sodium 2-methylpropanesulfonate. Anionic organic polymer flocculants can also be produced by conventional methods. The anionic organic polymer flocculant in the present invention has an absolute value of negative colloid equivalent value at PH10 of 0.7 meq/g or more and an intrinsic viscosity ([η] 30°C 1N-NaNO3) of 10 (dl/g) or more. It is preferable that Examples of alkaline agents in the present invention include sodium carbonate, sodium hydroxide, calcium hydroxide,
Examples include, but are not limited to, sodium silicate. The present invention is a sludge dewatering agent containing the above-mentioned cationic organic polymer flocculant, anionic organic polymer flocculant, and alkaline agent as active ingredients, but the ratio of the former two depends on the type of sludge. Although it varies depending on the situation, it is usually preferably 90:10 to 10:90, more preferably 80:20 to 20:80 on a weight basis. If it deviates from this range, the coagulation and dehydration effect will decrease.
The alkaline agent is preferably used in an amount such that when the sludge dehydrating agent is made into a 0.2% aqueous solution, the pH is 9.5 or higher.
If the pH is lower than 9.5, the cationic organic polymer flocculant and anionic organic polymer flocculant may react and form a gel, which is not preferable. The amount of the sludge dewatering agent of the present invention to be added varies depending on the properties of the sludge (PH, SS, VSS, electrical conductivity, etc.), but is generally about 0.5 to 6 wt% (relative to SS). The method for using the sludge dehydrating agent of the present invention is to separately introduce a cationic organic polymer flocculant and an anionic organic polymer flocculant into an alkaline aqueous solution in the same dissolution tank, A mixture of a cationic organic polymer flocculant, an anionic organic polymer flocculant, and an alkaline agent, each of which is a powder, is added to water to form an aqueous solution.
There is a method of adding this to sludge, a cationic organic polymer flocculant is poured into an alkaline aqueous solution to make an aqueous solution, an anionic organic polymer flocculant is poured into another water to make an aqueous solution, and both aqueous solutions are mixed. There is a method of adding it to sludge. This method is preferred because it is easy to handle and the flocculation reaction between the sludge and the sludge dewatering agent is uniformly carried out by selecting a mixture whose mixing ratio is determined in advance according to the properties of the sludge. In this way, the present invention mixes a cationic organic polymer flocculant and an anionic organic polymer flocculant before adding them to sludge, and even if they are mixed in advance, the presence of the alkaline agent will cause the two flocculants to react. This method does not generate insoluble substances, and the flocculating effect is superior to that of adding both flocculants to sludge separately. The sludge dewatering agent of the present invention has a high pH due to the presence of alkali even as a 0.1 to 2% aqueous solution, and since the cationic organic polymer flocculant does not exhibit cationic properties, it reacts with the anionic organic polymer flocculant to cause insoluble flocculation. It does not produce anything. When the sludge dewatering agent of the present invention is added to sludge and stirred, the PH becomes the PH of the sludge and becomes low, so the cationic organic polymer flocculant becomes cationic.
This neutralizes the charge (negative) of SS in the sludge, and the fine flocs generated by this neutralization become coarse and firm flocs by the anionic organic polymer flocculant. This flock has excellent permeability and dehydration properties. Stirring during aggregation is not limited to stirring using a stirring blade in a stirring tank, but may be based on a flow in piping. In the case of a stirring tank equipped with a stirrer, the circumferential speed of the stirring blade is set to 0.5 to 5 m/sec as a guide. The flocs produced by the above coagulation are fed to a dehydrator either as they are or after removing the separated water, and dehydrated in the same manner as in the conventional method. As the dehydrator, conventionally used dehydrators such as a centrifugal dehydrator, a vacuum dehydrator, a belt press type dehydrator, a screw press or a filter press can be used. The sludge dewatering agent of the present invention can also be used in combination with an inorganic flocculant such as aluminum sulfate, polyaluminum chloride, or ferric chloride. Although the sludge dewatering agent of the present invention contains both cationic and anionic components, it is easy to handle and can be dissolved in the same dissolution tank without becoming insolubilized, and has excellent coagulation dehydration effects. Next, examples of the present invention will be described. The cationic organic polymer flocculants and anionic organic polymer flocculants used in each example are shown in Table 1 and Table 2, respectively.

【table】

[Table] Example 1 Mixed sludge (PH6.6, SS: 1.4%, VSS: 83% vs. SS) of surplus sludge, digested sludge, and flocculated (tertiary treatment) sludge generated due to biological treatment of human waste (PH6.6, SS: 1.4%, VSS: 83% vs. SS) -1 Cationic organic polymer flocculant C1 and table-
2 anionic organic polymer flocculant A4 and sodium carbonate as an alkali agent at 1:0.5:1 (weight ratio)
The powdered sludge dehydrating agent mixed with
Add SS6.0% and use a stirrer (two flat blades)
Stir at 500 rpm (peripheral speed 2 m/sec) for 30 seconds,
After forming a floc, the mixture was poured onto a Buchner funnel covered with a 100 mesh nylon filter cloth, and the amount of filtrate was measured after 20 seconds. (Nutsche test) The results are shown in Table 3 along with the floc diameter. For comparison, when C1 and A4 were added alone, when C1 and A4 were added in that order, A4,
Table 3 also shows the case in which C1 is added. Table 3 shows that the sludge dewatering agent of the present invention is excellent in permeability.

[Table] Example 2 Take 200ml of the same sludge as in Example 1 and apply the table to it.
A powdered sludge dewatering agent prepared by mixing the cationic organic polymer flocculant shown in 1, anionic organic polymer flocculant A4, and sodium carbonate at a ratio of 1:0.5:1 (weight ratio) is used as an aqueous solution for SS6. 0% was added, and the Nutsuchie test was conducted in the same manner as in Example 1. The results are shown in Table 4. From Test Nos. 1 to 4, the higher the degree of cationicity of the components of the cationic organic polymer flocculant in the sludge dewatering agent, the higher the colloid equivalent value at PH4.
It was found that 2.0meq/g or higher has superior dehydration properties, and from Test No. 5, 6 and others, the component of the cationic organic polymer flocculant has an intrinsic viscosity ([η] 30℃ 1N-NaNO3). It can be seen that 3.0 (dl/g) or more is preferable.

[Table] Example 3 Mixed sludge (PH7.0,
SS: 2.4%, VSS: 74% vs. SS) 200 ml, cationic organic polymer flocculant C1, anionic organic polymer flocculant from Table 2, and sodium carbonate:
A powdered sludge dehydrating agent mixed at a ratio of 0.5:1 (weight ratio) was added as an aqueous solution in an amount of 4.0% to the SS, and the Nutsuchie test was conducted in the same manner as in Example 1. The results are shown in Table-5. From the results of Test Nos. 1 to 6, the absolute value of the negative colloid equivalent value at PH10 of the anionic organic polymer flocculant component in the sludge dewatering agent is 0.7meq/
g is preferable, and from Test No. 7 and others, the intrinsic viscosity ([η] 30℃ 1N-NaNO3) is 10
It can be seen that even those with low dehydration properties are excellent.

[Table] Example 4 Sludge generated in food manufacturing factory wastewater coagulation treatment with sulfuric acid band (PH6.4, SS1.0%, VSS84%)
SS) to 200ml of cationic organic polymer flocculant C2.
Anionic organic polymer flocculant A4 and sodium carbonate are mixed in the mixing ratio (weight) shown in Table 6 to form a powdered sludge dehydrating agent in the form of an aqueous solution, with the pure content of both organic polymer flocculants being 1.8%. A Nutsuchie test was conducted in the same manner as in Example 1 with addition of SS. The results are shown in Table-6. In addition, for comparison, the total amount of both organic polymer flocculants added was 1.8% vs. SS, and C2
Table 6 also shows the results when C2 and A4 were dissolved separately and added at the same time (Test No. 4), and when C2 and A4 were added individually and sequentially. From Table 6, the cationic organic polymer flocculant and anionic organic polymer flocculant in the sludge dehydrating agent are 80:
It turns out that 20-20:80 is preferable.

【table】

【table】

Claims (1)

[Scope of Claims] 1 Contains as active ingredients a cationic organic polymer flocculant that does not contain a quaternary ammonium base other than a Mannitz modified polyacrylamide polymer, an anionic organic polymer flocculant, and an alkali agent. A sludge dewatering agent characterized by: 2. The cationic organic polymer flocculant has a colloid equivalent value of 2 meq/g or more at PH4 and an intrinsic viscosity [η] of 30°C 1N-NaNO3 of 3.0 (dl/g) or more, as described in claim 1 sludge dewatering agent. 3 Anionic organic polymer flocculants have an absolute value of negative colloid equivalent value at PH10.
The sludge dewatering agent according to claim 1 or 2, which has an intrinsic viscosity [η] of 10 (dl/g) or more at 30°C 1N-NaNO3 of 0.7 meq/g or more. 4. The sludge dewatering agent according to any one of claims 1 to 3, wherein the alkaline agent is sodium carbonate. 5. The sludge dewatering agent according to any one of claims 1 to 4, wherein the weight ratio of the cationic organic polymer flocculant to the anionic organic polymer flocculant is 90:10 to 10:90. . 6. The sludge dehydrating agent according to any one of claims 1 to 5, wherein the alkaline agent is used in an amount such that the PH is 9.5 or more when the sludge dehydrating agent is made into a 0.2% aqueous solution. 7. The cationic organic polymer flocculant is one or more selected from dimethylaminoethyl methacrylate or a homopolymer of dimethylaminoethyl acrylate, or a copolymer of dimethylaminoethyl methacrylate or dimethylaminoethyl acrylate with acrylamide or methacrylamide. A sludge dewatering agent according to any one of claims 1 to 6. 8 The anionic organic polymer flocculant is a partially hydrolyzed product of polyacrylamide or polymethacrylamide, a copolymer of acrylamide or methacrylamide and sodium acrylate or sodium methacrylate, a copolymer of acrylamide or methacrylamide and sodium vinyl sulfonate. and a terpolymer of acrylamide or methacrylamide, sodium acrylate or sodium methacrylate, and sodium 2-acrylamide-2-methylpropanesulfonate. A sludge dewatering agent according to any one of claims 1 to 7.