JP2012055808A - Method of using surplus sludge - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method of using surplus sludge that can eliminate odor of sludge and effectively remove the moisture of the sludge to generate biomass fuel without losing the energy of the sludge.SOLUTION: The method of using the surplus sludge includes steps of: adding quicklime to surplus sludge generated by an activated sludge method and stirring it and removing the moisture in the surplus sludge as calcium hydroxide to generate a dried organic material; and using the dried organic material as the biomass fuel.

Description

  The present invention relates to a method for using surplus sludge.

  In the conventional sewage wastewater treatment system, the sewage collected at the sewage treatment plant is treated with activated sludge containing microorganisms, purified, and then discharged. At that time, dead bodies of microorganisms accumulate and become surplus sludge. Excess sludge is mainly incinerated after being dehydrated. Patent Document 1 is disclosed as a method for treating excess sludge. In Patent Document 1, used activated carbon is used as an auxiliary agent for the concentration and aggregation of sludge. On the other hand, in Tokyo, excess sludge is carbonized in a carbonization furnace using fossil fuel. After that, carbide is mixed with fuel at a thermal power plant and used as biomass fuel.

  However, since the conventional sludge treatment is incinerated, a large-scale incinerator construction is required, and a running cost is greatly required. Further, since fossil fuel is required when processing in an incinerator, carbon dioxide is discharged, and incineration ash is disposed in landfill, which is not preferable for the environment. Moreover, even if it uses used activated carbon like patent document 1, the bad smell of sludge cannot be removed. Moreover, even if it carbonizes as it is implemented in Tokyo, the calorific value which excess sludge has will reduce.

  That is, in order to purify water using an activated sludge method at a sewage treatment plant, microorganisms (activated sludge) are used. The dead bodies of these microorganisms accumulate as sludge. This becomes surplus sludge. This excess sludge is discharged 4 million tons per year in a dehydrated anaerobic state. For this reason, it is decided to incinerate quickly as in the prior art. This surplus sludge is known to have energy (calories) as fuel. Therefore, simply incinerating wastes resources. However, even if activated carbon is used as in Patent Document 1, there is a problem of odor that excess sludge has. Carbonizing, as is done in Tokyo, can eliminate odors, but it requires energy. In this case, the energy of the sludge is reduced by becoming charcoal, and the efficiency is poor. However, at present, carbonization is employed to eliminate odor.

JP 2007-260572 A

  The present invention is based on the above prior art, and can eliminate the odor of sludge and produce biomass fuel by removing the sludge moisture more efficiently without losing the energy of sludge. The purpose is to provide a method of using excess sludge.

  In order to achieve the above object, in the present invention, the excess sludge generated by the activated sludge method is added with quick lime and stirred, the water in the excess sludge is removed by a hydration reaction and its reaction heat, and calcium hydroxide is removed. There is provided a method for using surplus sludge, comprising: a step of producing a dry organic matter including the step of using the dry organic matter as a biomass fuel.

The invention of claim 2 is characterized in that, in the invention of claim 1, the weight of the quick lime added to the excess sludge is 0.2 to 1 with respect to the excess sludge 1.
According to a third aspect of the present invention, in the first or second aspect of the present invention, the stirring is performed using a movable stirring device.

According to the invention of claim 1, since quick lime is added to the excess sludge and stirred, the following hydration reaction occurs.
CaO + H ₂ O═Ca (OH) ₂
The water used in this hydration reaction is the water in the excess sludge. For this reason, the water | moisture content in excess sludge can be removed efficiently. Further, since the hydration reaction can be carried out only by stirring, it is not necessary to perform heating or the like, and no thermal power such as incineration is required. Moreover, the odor of excess sludge can be removed by thermal decomposition of the hydration reaction. And since excess sludge is only dehydrated, the energy which excess sludge has does not reduce. Therefore, a dry organic substance with high energy efficiency can be obtained, and can be suitably used as a biomass fuel. Moreover, when it is used as biomass fuel, it is possible to realize zero emission in which no waste is produced.

  According to the invention of claim 2, if the excess sludge: quick lime is 1: 1 by weight, the off-flavor of the excess sludge can be completely removed. It has been found that if it is 1: 0.5, the off-flavor can be removed to the extent that it can withstand humans. Therefore, if it is this range, the off-flavor which excess sludge has will not affect work or a product.

  According to the invention of claim 3, since surplus sludge and quicklime can be stirred using a movable stirring device, for example, a stirring lorry wheel, etc., a hydrated reaction can be carried out while moving to produce a dry organic matter. . Further, since the entire stirring device can be moved to a sewage treatment plant where excess sludge is generated, the next dried organic matter can be generated in the return path, which is efficient in terms of time.

It is a flowchart of the utilization method of the excess sludge which concerns on this invention. It is the schematic which shows the utilization method of the excess sludge which concerns on this invention.

  The method of using surplus sludge according to the present invention starts by adding quick lime to the surplus sludge and stirring it. Prior to this, first, even if surplus sludge generated by sewage treatment by the activated sludge method is collected. Good (step S1). The place where sewage is treated by the activated sludge method is, for example, a sewage treatment plant. Thus, the excess sludge may be collected actively or may be carried in from a sewage treatment plant or the like.

  Specifically, as shown in FIG. 2, in the sewage treatment plant 1, sewage is aerated in the aeration tank 2, and then dehydrated to some extent by the dehydrator 3 also provided in the sewage treatment plant 1, and anaerobic with much moisture. Form dehydrated sludge.

Then, quick lime is added to the excess sludge and stirred. By this stirring, the hydration reaction is promoted, the water in the excess sludge is removed by the hydration reaction and the heat of reaction, and a dry organic substance containing slaked lime (calcium hydroxide) is generated. Specifically, a hydration reaction represented by the following reaction formula occurs.
CaO + H ₂ O═Ca (OH) ₂

The water used in this hydration reaction is the water in the excess sludge. That is, the water | moisture content in excess sludge can be efficiently removed only by mixing quicklime. Moreover, since this hydration reaction is controlled at about 100 ° C., no thermal power like incineration is required. That is, moisture in the excess sludge can be removed only by the hydration reaction by stirring and the reaction heat. Moreover, the odor of excess sludge can be removed by thermal decomposition of the hydration reaction. And since excess sludge is only dehydrated, the energy which excess sludge has does not reduce. For this reason, surplus sludge is dehydrated and a dry organic substance with high energy efficiency can be obtained (step S2). During the process of producing this organic dry product, CO ₂ is not generated.

The hydration reaction is performed, for example, for 10 minutes to 60 minutes. The conditions in this hydration reaction, the time required for stirring, and the like vary depending on the amount of excess sludge. If it is a large amount (large capacity), it is stirred at high speed for several seconds to several minutes, and then left without stirring for hydration reaction for about 60 minutes. If the amount is small (small volume), the mixture is stirred at low speed for 10 to 60 minutes, and hydrated during stirring. Whether the amount is large or small is appropriately determined, but the small amount is about 5 m ³ / h or less.

  The weight of quicklime added to the excess sludge is 0.2 to 1 (preferably 0.3 to 0.8) with respect to the excess sludge 1. The ratio was defined in such a way that the excess sludge: quick lime was 1: 1 by weight ratio, so that the excess odor of the excess sludge could be completely removed. It can be removed. Therefore, if it is this range, the off-flavor which surplus sludge has will not affect work or a product.

  For the stirring, a large fixed stirring device is used. Thereby, a large amount of excess sludge can be processed. On the other hand, a movable stirring device may be used. For example, a stirring lorry wheel can be considered. Thereby, a hydration reaction is performed while moving, and a dry organic substance can be generated. This mobile stirring device is suitable for processing a small amount of excess sludge. In addition, when there is a process of actively collecting surplus sludge as in step S1, the entire stirrer can be moved to a sewage treatment plant where surplus sludge is generated, so that the next dry organic matter is generated in the return path. Can be time efficient.

  If it demonstrates concretely, as shown in FIG. 2, the excess sludge will be accommodated in the tank 4 and will be carried in in the drying process place 5. As shown in FIG. And when excess sludge is abundant, the excess sludge in the tank 4 is accommodated in the stirring apparatus 6 in the processing place 5, is stirred for several seconds at high speed, and is conveyed by the conveyor 7 to the reaction area 8 here. Here, a hydration reaction is carried out for about 60 minutes. Thereafter, it is loaded on the truck 9 and delivered. When the excess sludge to be stirred is a small amount, it is accommodated in the stirring lorry 10 as it is and stirred at a low speed while moving.

  And dry organic substance is utilized as biomass fuel (step S3). In this use, the dried organic matter may be in the form of pellets or in the form of powder. When using as a fuel, you may use it with the dry organic substance and the slaked lime produced | generated by the said hydration reaction mixing. As described above, since the energy of the excess sludge has not decreased, the dry organic matter obtained from the excess sludge can be suitably used as biomass fuel. In addition, when used as a biomass fuel in this way, it is possible to realize zero emission in which no waste is produced. Moreover, since this biomass fuel is derived from nature, RPS revenue (4 yen / kwh) can be expected, which brings great benefits to users.

  The method of using surplus sludge according to the present invention can be used as fuel while removing the off-flavor of the sludge by reaction with quick lime and without reducing the energy of the surplus sludge. Since the starting material is surplus sludge that gives off a strange odor, a hydration reaction with quick lime must be performed.

DESCRIPTION OF SYMBOLS 1 Sewage treatment plant 2 Aeration tank 3 Dehydrator 4 Tank 5 Reaction treatment plant 6 Stirrer 7 Conveyor 8 Reaction area 9 Truck 10 Stir truck

Claims (3)

Adding excess lime to the excess sludge generated by the activated sludge method and stirring, removing water in the excess sludge by a hydration reaction and its reaction heat, and generating a dry organic matter containing calcium hydroxide;
Using the dried organic matter as biomass fuel. A method for using surplus sludge.   The method of using excess sludge according to claim 1, wherein the weight of the quick lime added to the excess sludge is 0.2 to 1 with respect to the excess sludge 1.   The method of using surplus sludge according to claim 1 or 2, wherein the stirring is performed using a movable stirring device.

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