JPS62213900A - Sludge preheater - Google Patents

Abstract

PURPOSE:To enhance heat efficiency, by mixing zeolite with sludge and bringing the resulting mixture to a high temp. and high pressure state under stirring. CONSTITUTION:30-100% of zeolite is mixed with org. sludge and the resulting mixture is charged from a charging port 7 to be pushed in a heater 4 by two stirring screws 6. Then, the mixture is uniformly heated under heating by two stirring screws 6 moving to reverse directions to each other. The heat utilized in heating is obtained from combustion exhaust gas generated by burning org. sludge in an incinerator and said exhaust gas is introduced into a combustion exhaust gas furnace 1 from an exhaust gas inlet 3 and heats the periphery of the heater 4 or fins 5 to achieve the rising in the temp. within the heater 4. The moisture of the mixture after discharging is released as steam at a stroke to achieve the lowering in moisture content. By this method, heat utilization can be enhanced.

Description

[Detailed description of the invention] B. Purpose of the invention Industrial applications This invention treats organic sludge! J is about.

BACKGROUND TECHNIQUES AND THEIR PROBLEMS One of the methods for treating sludge has conventionally been to incinerate it to make it inorganic and reduce its volume.

However, sludge has a large amount of moisture and high viscosity, so it has extremely poor breathability, and it has no self-combustibility as it is, so incineration requires a large amount of petroleum to support combustion. -ing This incineration method mainly uses rotary furnaces, multistage furnaces, fluidized bed furnaces, etc., and all of them have the common problem of consuming large amounts of oil.

By the way, recently, with the aim of saving energy, attempts have been made to use the combustion exhaust gas from incinerators to dry sludge and then burn it, thereby saving fuel. Measures such as sending hot air through the sludge, or heating the sludge using oil as a heating medium and then sending air through it are used.

However, due to the nature of sludge, even if you heat the surface or blow air, the moisture inside will not evaporate.

This drying method involves a large amount of heat loss.

The present invention has been made with the aim of solving the above-mentioned problems, and aims to provide a sludge preheating device that can process sludge to a state where it exhibits self-combustibility by using combustion exhaust gas. It is something.

Structure and operation of the invention The structure of the present invention is to install a combustion exhaust gas furnace that can be heated by introducing combustion exhaust gas, to provide a pressure-resistant and airtight base heated by the furnace, and to provide a pressure-resistant and airtight base for heating by the furnace. is equipped with a large number of fins to improve heat transfer, and a stirring screw that rotates in opposite directions is installed inside the heater, and sludge and zeolite are mixed and introduced into the heater, and the mixture is heated to high temperature and high pressure by the combustion exhaust gas. The gist of the present invention is a sludge preheating device characterized by stirring and heating the sludge to the desired state.

Means to solve the problem In order to improve the air permeability, which is a drawback of sludge, we mixed zeolite with it, and added zeolite's excellent water absorption and water evaporation properties when heated, as well as its excellent air permeability and water permeability. He took advantage of his excellent points. When this mixture of sludge and zeolite is stirred and heated to a high temperature and high pressure state using combustion exhaust gas, water, which is an impediment to drying, acts as an excellent heating medium, achieving extremely efficient heat transfer. They discovered that when the zeolite is released from this high-temperature, high-pressure state, the aforementioned physical properties of zeolite come into play, causing the moisture to evaporate all at once, causing the sludge to approach dryness, and they completed a preheating device suitable for this treatment.

The present invention will be described by way of one embodiment with reference to the drawings.

FIG. 1 is a side sectional view of one embodiment of the device of the present invention.

FIG. 2 is a plan view of the embodiment of FIG. 1.

As shown in this figure, the present invention is equipped with a flue gas furnace (1), which has a flue gas inlet (3) at the bottom and a flue gas outlet (2) at the top, to burn sludge. High temperature flue gas generated in an incinerator (not shown) is introduced into the flue gas furnace (1) from the flue gas inlet (3) and is discharged from the flue gas outlet (2).

In addition, it is desirable that the structure of this flue gas furnace (1) is adiabatic.

A heater (4) is provided penetrating inside the flue gas furnace (1).

In the embodiment shown in this figure, this heater (4) has two
It is installed individually. A large number of fins (5) are attached to the outer periphery of the heater (4), thereby efficiently transferring heat into the heater (4).

In addition, each of the heaters (4) has a stirring screw (6
) are installed, and the gears (
14) so that they mesh and interlock.

The stirring screw (6) is driven by a pulley (13).
It is a hot theory that this is done electrically via *(22).

This heating! At the top of one end of (4) is an inlet (7) into which a mixture of sludge and zeolite is input;
The heater (4) is equipped with a lid (8) and an airtight handle (9) for sealing the lid (8), and an outlet (10) at the bottom of the other end of the heater (4). 10) Lid (
11) and an airtight handle (12) for sealing the lid (11).

In other words, this heater (4) is pressure-resistant and airtight.
Connect the drive shaft (15) of the stirring screw (6) to the heater (4)
The portion that protrudes from is also sealed with a sealing material so that it is pressure-resistant and airtight.

Further, a steam reservoir chamber (16) is provided in the upper part of the other end of the heater (4), and the L end thereof is connected to the input port (7).
It is higher than the top of the steam chamber (1
6) to prevent it from filling up and blocking the pressure gauges and safety valves below.

That is, at the upper end of this steam reservoir chamber (16), there is a steam relief pipe (18) having a steam relief valve (17), a thermometer (19), and a thermometer (19).
, a pressure gauge (20), and a safety valve (21) are provided, and when the internal pressure rises abnormally, the safety valve (21) opens, sounds a horn, and releases excess steam outside the vessel.

Next, to explain how to use the device of the present invention, first, mix 30 to 100% zeolite with organic sludge, and
7) and stir it into the heater (4) using the stirring screw (6).
Push it inside. And the steam room (16
) is left in the hollow state, the lid (8) is sealed with the airtight handle (9), and the outlet (10) is also sealed.

As a result of experiments, this mixed zeolite has a particle size of 2.
Particularly preferable results were obtained with ~loma+.

The sludge and zeolite stored in the heater (4) in this way are moved by two stirring screws (6) that move in opposite directions.
), the mixture is stirred uniformly and mixed without being concentrated to one end, promoting heat transfer and heating. The heat used for this heating is flue gas from burning organic sludge (with reduced water content according to the present invention) in a separate incinerator, and is introduced into the flue gas furnace (1) from the flue gas inlet (3). , by heating the area around the heater (4) and the fins (5).
) and is discharged from the exhaust gas outlet (2).

Since this exhaust gas still has a large amount of thermal energy, it can be further absorbed by a heat exchanger to preheat combustion air in an incinerator or used as a heat source for a dryer.

When the temperature of the heater (4) rises in this way, water evaporates and the pressure inside the heater (4) increases, the temperature becomes even higher, and eventually a high-temperature, high-pressure state is reached.

It goes without saying that this pressure is indicated by a pressure gauge (20) and the temperature is indicated by a thermometer (19), and usually the pressure is 0.5 to 5 kg.
/am, when the temperature reaches 110 to 1500C, the steam relief valve (17) is opened to discharge steam from the steam relief pipe (18) and the pressure is lowered. Then, loosen the airtight handle (12) of the outlet (10), open the lid (l l), and take out the sludge.

In this case, the sludge, etc. in the heater (4) is removed by the stirring screw (6
) and are all discharged. When the discharge is finished, the lid (11) is closed and the airtight handle (12) is tightened to seal the sludge, and preparations are made for the next heating of the sludge, and the sludge can be used repeatedly in the same manner.

The liquid water contained in the mixture of sludge and zeolite discharged in this way is subjected to a depressurizing action and heated to 100°C.
Since the sludge is heated to the above temperature, it is released as water vapor, and the air permeability of zeolite greatly promotes this release, so that the sludge quickly achieves a reduction in moisture content.

When this organic sludge with reduced moisture content is burned in an incinerator,
Combustion aids such as petroleum are no longer necessary.

According to experiments, when the incinerator temperature is aoo”c, 5 to 1O
It was incinerated within minutes.

Zeolite with a size of 2 to 10 mm remains in this incineration ash, which is larger than the sludge ash, so it can be easily sorted and used again for mixing.

Note that this reuse can be used 6 to 10 times.

Also, as shown in Figure 2, multiple heating units (4) are installed,
If heating and discharging are operated alternately, the sludge can be discharged continuously, improving heat utilization and becoming even more preferable.

C. Effects of the Invention The present invention is similar to the above, in which zeolite is mixed into sludge, heated to a high temperature and high pressure state by combustion exhaust gas, and then discharged. This is a sludge preheating device that evaporates the water in sludge and significantly reduces the moisture content.

In the present invention, the water that escapes as water vapor when heated at atmospheric pressure is heated under pressure and moved inside the vessel as a liquid, making use of the excellent properties of water as a heat medium, thereby increasing efficiency. This results in a high degree of heating. In other words, water, which is disadvantageous for incineration, is instead used as a heating medium for heating.

Moreover, if this high temperature and high pressure state is released, the moisture evaporates all at once. In this case, the mixed zeolite acts as an aeration material, and the water in the sludge evaporates to the outside using the outside and inside of the zeolite as ventilation channels.As evaporation progresses, the volume decreases, and the zeolite spacing in the sludge narrows. As a result, its breathability further increases and moisture evaporation accelerates.

In addition, since the organic sludge whose moisture content has been reduced in this way is mixed with zeolite, it has excellent air permeability and water evaporation properties when incinerated, making it highly combustible. be.

It should be noted that organic sludge is said to be self-combustible when the water content is 60% or less, and it is very easy to reduce the water content below this using the device of the present invention. Calorific value is 2500-3800Kcal
/kg, and it is fully possible to introduce this into the flue gas furnace and preheat it to impart self-combustibility to the raw material sludge.

In addition, as a result of the inventor's experiments, it was found that the physical properties related to air permeability are not destroyed when the mixed zeolite is incinerated at a temperature below AOO'C in an incinerator.XI
Inspection (Shimane Prefectural Industrial Technology Center) confirmed that it could be separated from the ash and reused repeatedly as described above.

This zeolite is abundantly produced in Japan and is inexpensive.
Due to the above-mentioned reusability, it is very economical to use in the present invention.

As described above, the present invention is a method of preheating organic sludge, which conventionally used petroleum as a combustion aid for incineration, to make it self-combustible at a low cost, and is an excellent method of eliminating the waste of petroleum. In addition, various measures have been taken to improve efficiency, such as using the contained water as a heat medium as described above, using the breathability of zeolite, and using combustion exhaust gas from the incinerator. , its usefulness is extremely high.

[Brief explanation of drawings]

FIG. 1 is a side sectional view of one embodiment of the IJN of the present invention. FIG. 2 is a plan view of the embodiment of FIG. 1. (1)... flue gas furnace, (2)... flue gas outlet,
(3)...Exhaust gas inlet, (4)...Heater. (5)...fin, (6)...stirring screw, (
7)...Inlet, (8)...Lid, (9)...Air'
IE/\endol, (10)... Outlet, (11)...
Bow L (12)...Ki V! , /\endol, (13)...
・Boo I no, (14)...gear, (15)...drive shaft, (16)...steam reservoir chamber, (17)...steam relief valve, (18)...steam release Pipe, (19)...Thermometer, (20)...Pressure gauge, (21)...Safety valve,
(22)...Electric motor

Claims (1)

[Scope of Claims] 1. A combustion exhaust gas furnace that can be heated by introducing combustion exhaust gas is installed, a pressure-resistant and airtight heater heated by the furnace is installed, and the outer periphery of the heater has improved heat conductivity. A large number of fins are installed, and a stirring screw that rotates in opposite directions is provided inside the heater, and sludge and zeolite are mixed and introduced into the heater, and the mixture is stirred and heated to a high temperature and high pressure state by the combustion exhaust gas. A sludge preheating device characterized by: