JPH0123183B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method for controlling water supply in a wet dust collector.

Conventionally, the water supply method for wet dust collectors was as shown in Figure 1A.
Alternatively, the method shown in B is adopted. Figure 1A
In this method, the dust collection wastewater discharged from the wet dust collector 1 into the wastewater tank 2 is sent to the water treatment equipment, and the treated water from the water treatment equipment is circulated to the dust collector 1 as washing water. In addition, in the method shown in Fig. 1B, a part of the dust collection drainage stored in the drainage tank 2 is sent to the water treatment equipment as blow water, and the circulation tank 3 is replenished with the same amount of make-up water as the amount of blow water. 1.

However, due to the recent tightening of dust emission regulations in boiler plants, whereas previously the treated gas from the flue gas desulfurization equipment was discharged from the chimney after being afterburned, the dust concentration from the chimney has been reduced. A wet dust collector is required to remove the sulfuric acid mist that carries over from the flue gas desulfurization equipment and the remaining boiler dust, and this has led to the need to establish an economical water treatment system that is unprecedented. Ivy.

By the way, a wet dust collector installed after a flue gas desulfurization device as part of a boiler plant is intended to collect sulfuric acid mist and boiler dust remaining in the outlet gas of the flue gas desulfurization device. For this reason, the circulating water supplied as cleaning water for the wet dust collector must be used while controlling the concentration of suspended solids contained therein to below a specified value so that it has sufficient dust collection ability. Since sulfuric acid mist, which has an extremely corrosive effect, is collected, it is necessary to adjust its pH value before supplying it to prevent corrosion of the constituent materials inside the dust collector. On the other hand, since the wet type dust collector is installed as a terminal equipment of a boiler plant, it is necessary to minimize the carryover of water mist caused by the cleaning water of the wet type dust collector to prevent a decrease in the efficiency of afterburning, and also to reduce the floatation in the carried over water mist. It is necessary to control the supply of circulating water to reduce the solids concentration.

The present invention has been made in view of the above circumstances, and is a wet-type dust collector that satisfies the above-mentioned requirements for water supply to wet-type dust collectors in order to make boiler plants comply with the reinforced dust emission regulations. A water supply control method for a dust collector is provided.

That is, the present invention drains the suspended solids contained in the circulating water of the circulating water line which supplies the dust collection wastewater discharged from the wet dust collector to the wet dust collector as washing water again, and discharges the suspended solids out of the system as a drain.
The circulating water line is replenished with fresh water corresponding to the amount of drain, and the amount of PH adjusting chemicals supplied to the circulating water line is controlled in accordance with the detected pH value of the circulating water. This is a water supply control method for a wet dust collector.

An embodiment of the present invention will be described below with reference to FIG.

FIG. 2 is a flowchart of a wet dust collector system employing the water supply control method according to the present invention. In the figure, 11 is a wet type dust collector, and a front chamber 12 and a rear chamber 13 are provided inside thereof.
Then, the exhaust gas exiting the flue gas desulfurization device passes through the dust collector 11 in the order of the front chamber 12 and the rear chamber 13 as shown by arrows in the figure. 14 is a circulating water tank. As shown in the figure, the cleaning water stored in the circulating water tank 14 is sent to the front chamber 1 of the wet dust collector 11 via an auto strainer 16 by a circulating water pump 15.
2 and the front stage of the rear chamber 13 are continuously sprayed. The cleaning water sprayed into the front chamber 12 and the rear chamber 13 collects boiler dust and sulfuric acid mist contained in the exhaust gas, and returns to the circulating water tank 14 through separate routes as dust collection wastewater. Therefore, although the circulating water from the circulating water tank 14 to the auto-strainer 16 has a high concentration of suspended solids, the auto-strainer 16 removes the solids and has sufficient dust collection ability. Wet type dust collector 11 as washing water
It is now being circulated to The drain mixed with solids separated by the auto-strainer 16 is discharged from the drain piping of the auto-strainer 16 to the outside of the system. This drain flow rate is controlled to a constant flow rate by an automatic flow rate control device 17 provided in the drain pipe. In addition, in order to adjust the PH value of the circulating water to a predetermined value, an alkaline PH adjusting solution such as NaOH solution or Ca(OH) ₂ solution is injected into the circulating water tank 14 to neutralize the collected sulfuric acid mist. be done. The flow rate of this PH adjustment liquid is determined based on the PH value of the dust collection drainage that returns to the circulating water tank 14.
8, the circulating water is controlled to be neutralized to a predetermined pH value. In this case, by using the PH value of the collected waste water from the front chamber 12, where the acidity is the strongest, as the reference information for the PH adjustment, a drop in the PH of the circulating fluid is reliably prevented. On the other hand, since the amount of circulating water decreases due to the drain discharge from the auto-strainer 16, the circulating water tank 14 is newly replenished with fresh water (industrial water) to compensate for the decrease. That is, the circulating water tank 14 is provided with a water level adjusting device 19.
When the water level drops, fresh water is replenished until the predetermined water level is restored. Also, for fresh water (industrial water), pump 20 is set to operate intermittently using a timer.
As a result, cleaning water is supplied intermittently (5 to 10 minutes/2 hours) to the rear chamber 13 in the wet type dust collector 11 where the dust load is low.

According to the water supply control method in the wet dust collector system shown in Figure 2 above, it is possible to control the suspended solids concentration in the circulating water supplied to the dust collector as washing water to a predetermined value or less, and at the same time maintain the PH value within a predetermined range. be able to. In addition, water mist caused by carryover is reduced by intermittently cleaning the rear area of the wet dust collector 11 with fresh water (industrial water that is neutral and has a low concentration of suspended solids). That will happen. Furthermore, the wet dust collection system can be a single, compact piece of equipment.

As described in detail above, according to the present invention, it is possible to provide an effective water supply control method for a wet type dust collector that is suitable for boiler plants with stricter dust control regulations.

[Brief explanation of drawings]

FIGS. 1A and 1B are explanatory diagrams showing a conventional water supply method for a wet dust collector, respectively, and FIG. 2 is a flowchart showing a wet dust collection system employing a water supply control method according to an embodiment of the present invention. 11... Wet type dust collector, 12... Front chamber, 13...
Rear chamber, 14... Circulating water tank, 15... Pump,
16...Auto strainer, 17...Flow rate control device, 18...PH control device, 19...Water level adjustment device, 20...Pump.

Claims (1)

[Claims] 1 By storing the collected waste water discharged from the front and rear chambers of the wet type dust collector in the circulating water tank and passing the circulating water line, the circulating water in the circulating water tank is distributed to the front and rear stages of the wet type dust collector's front chamber. In addition, by supplying the water as wash water to the front stage of the rear chamber of the wet dust collector, and passing the circulating water through the circulating water line through the auto strainer, suspended solids contained in the circulating water are drained together with a portion of the circulating water. When replenishing the circulating water line with fresh water corresponding to the amount of drain, a part of it is supplied as washing water to the rear stage of the wet dust collector, and a part of it is supplied from the front room of the wet dust collector. A water supply control method for a wet dust collector, characterized by detecting the pH of dust collection drainage and controlling the supply amount of a pH adjustment chemical supplied to a circulating water line according to the detected value.