JP2012255627A - Blow rate calculation method and blow control method for boiler - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a blow rate calculation method for a boiler capable of accurately understanding the blow rate of the boiler to be a prescribed value without using any flow meter or any electric conductivity sensor, and to provide a control method for the boiler.SOLUTION: The blow rate calculation method for the boiler for calculating the blow rate of the boiler on the basis of the quality of boiler water or supplied water in a compact through-flow boiler using soft water as supplement water includes steps of: (a) setting a compact through-flow boiler to low-combustion or high-combustion fixed opening before boiler water is sampled; (b) sampling boiler water through a downcomer line from a steam separator; (c) sampling supplied water; and (d) calculating the blow rate of the boiler on the basis of the chloride ion density or the silica density of the sampled boiler water or supplied water. The control method for the boiler controls the blow of the boiler water so that the obtained blow rate may be set to a prescribed value.

Description

  The present invention relates to a method for calculating the blow rate of a boiler and a blow control method. More specifically, the present invention relates to a method for accurately grasping the blow rate of a boiler from the quality of boiler water and feed water, and so that the blow rate becomes a predetermined value. The present invention relates to a method for controlling blow of boiler water.

Generally, when a boiler is operated for a long time, the can water is concentrated, and the dryness of the steam is lowered due to a carry-over phenomenon or the like. Therefore, it is necessary to appropriately replace the can water. Therefore, a blow line provided with a blow valve is provided, and blow control is performed by controlling opening and closing of the blow valve.
In the blow control, for example, the blow valve is controlled to open and close in conjunction with the operation and stop of the water supply pump, and the blow valve open / close time and the like so that a predetermined blow rate (= blow amount / water supply amount) is obtained. The instantaneous blow amount (blow amount per second) is set. However, the blow rate may vary depending on the operating condition of the boiler. For example, the amount of water supplied per unit time changes due to a change in can internal pressure, a reduction in water supply pump capacity, clogging of the water supply piping, etc., and the blow rate fluctuates. This variation is particularly noticeable when the operation and stop of the water supply pump are time-controlled based on the water level detection signal from the water level detector. If the blow rate is increased, the amount of blow water is excessively discharged, and canned water is discharged unnecessarily. If the blow rate is decreased, the water is excessively concentrated due to insufficient blow amount, and the dryness of the steam tends to decrease.

As a method for calculating the blow rate, a method using a conventional flow meter is known. However, in recent years, a case where a flow meter is not attached to a continuous blow line is increasing for the purpose of reducing the installation cost of a small once-through boiler.
On the other hand, in Patent Document 1, the blow flow rate per unit time passing through the solenoid valve at a certain operating pressure is measured in advance, and the blow amount is determined from the open time of the solenoid valve for continuous blow, and the capacity and operating time of the feed pump. The method of calculating | requiring a water supply amount from these and calculating a blow rate is disclosed.

  Further, in Patent Document 2, in a control system that automatically controls the concentration of can water based on a preset concentration blow rate, a preset concentration blow rate corresponding to a change in the electrical conductivity of water to be supplied is disclosed. Has been disclosed, and a boiler concentration control method for automatically controlling the concentration of can water is disclosed.

Japanese Patent Laid-Open No. 5-126305 JP 7-167405 A

In the technique described in Patent Document 1, the flow rate per unit time passing through the solenoid valve is set by the fact that the feedwater pump cannot produce the specified capacity due to aging, or the scale is attached to the blow pipe. There is a problem that an error in the blow rate may increase due to a difference from the value.
In the technique described in Patent Document 2, an electrical conductivity sensor is used for measuring electrical conductivity. However, the detection of electrical conductivity is also affected by contamination of the electrical conductivity sensor. For this reason, if the maintenance is insufficient, it is impossible to detect an accurate value, and proper blow cannot be performed.
Furthermore, JIS B 8223 (2006) describes that chloride ions are used as an index of the concentration factor (the blow rate is obtained by taking the reciprocal number) in various boilers. In the once-through boiler, the numerical value varies greatly and it is difficult to obtain an accurate value, so chloride ions are not used as an index of the concentration ratio.
The present invention has been made under such circumstances, and in a small once-through boiler, a method for accurately calculating the blow rate of the boiler without using a flow meter or an electric conductivity sensor, and based on the calculation result. It is an object of the present invention to provide a method for controlling the blow of boiler water so that the blow rate becomes a predetermined value.

As a result of intensive studies to achieve the above object, the present inventor has obtained the following knowledge.
The blow rate is calculated based on the quality of boiler water and feed water without using a flow meter or electrical conductivity sensor.However, the quality of boiler water tends to fluctuate in small once-through boilers, depending on the sampling location and sampling timing. The blow rate required from the water quality was found to have an error of several percent.
Thus, it has been found that the blow rate can be accurately calculated by specifying the sampling location and the sampling timing. In particular, since silica in boiler water and feed water is often higher in concentration than chloride ions, calculating the blow rate based on silica is less likely to cause errors and can calculate the blow rate more accurately. I found out.
The present invention has been completed based on such findings.

That is, the present invention provides the following [1] to [4].
[1] In a small once-through boiler using soft water as make-up water, a method for calculating the blow rate of the boiler from the quality of boiler water and feed water, (a) before sampling the boiler water, the small once-through boiler (B) sampling the boiler water from the downcomer line from the steam separator, (c) sampling the feed water, and (d) the above (b) ) Step and (c) step of calculating the blow rate of the boiler based on the chloride ion concentration or silica concentration of the boiler water and feed water sampled in the step, respectively. .
[2] The boiler blow rate calculation method according to [1], wherein the boiler water sampling in the step (b) is performed immediately before the continuous blow is performed.
[3] The method for calculating the blow rate of the boiler according to [1] or [2], wherein the blow rate of the boiler is calculated based on the silica concentrations of the boiler water and the feed water in the step (d).
[4] A boiler control method characterized by controlling the blow of boiler water so that the blow rate obtained by the blow rate calculation method of any one of [1] to [3] becomes a predetermined value.

  According to the present invention, it is possible to provide a method for accurately calculating the blow rate of a boiler from the quality of boiler water and feed water, and a method for controlling the blow of boiler water so that the blow rate becomes a predetermined value. it can.

Next, a method for calculating the blow rate of the boiler and a method for controlling the boiler according to the present invention will be described.
[Calculation method for boiler blow rate]
The method for calculating the blow rate of a boiler according to the present invention is a method for calculating the blow rate of a boiler from the quality of boiler water and feed water in a small once-through boiler using soft water as make-up water, and includes the following (a) to ( d) A step is performed.
According to such a method for calculating the blow rate of the boiler, by fixing the operation load of the small once-through boiler at low combustion or high combustion, fluctuations in chloride ion concentration and silica concentration in the boiler water are reduced, and the blow rate is reduced. It can be calculated accurately.

(Small once-through boiler)
In the boiler water blow control method of the present invention, a small once-through boiler using soft water as makeup water is used as the boiler.
The once-through boiler is a boiler in which water supplied from one end of a pipe is heated, evaporated and superheated in a long pipe to obtain superheated steam from the other end of the pipe. Therefore, unlike natural circulation type or forced circulation type boilers, it is suitable for generating high-pressure steam because it is composed of tube groups, and is used as an industrial power generation boiler from industrial power generation boilers to supercritical pressure.
The small once-through boiler is constituted by a pipe, but it has a steam separator and returns the hot water after separation to the heating pipe again. The ratio of the circulating water amount to the maximum water supply amount is 2 or less. . There are two types of small once-through boilers, the single tube type and the multi-tube type, and the multi-tube type is widely used.

The small once-through boiler is a general term for boilers having a heat transfer area of 30 m ² or less in the section of the once-through boiler, and generally there are many boilers having a heat transfer area of less than 10 m ² and a pressure of 10 kgf / cm ² or less.
Small once-through boilers have a limited heat transfer area (generally less than 10 m ² ), and generally have a conversion evaporation rate of 100 to 2,000 kg / h. Compared with the heat transfer surface evaporation rate (kg / m ² h) In the case of a large evaporation amount, a load almost equal to that of the water tube boiler is applied. Further, the amount of retained water with respect to the evaporation amount is as small as about 1/2 to 1/10 that of a round boiler or a water tube boiler, and the concentration increases in a short time compared to these boilers.
Therefore, scale adhesion tends to occur, and in order to prevent scale adhesion, it is necessary to sufficiently perform soft water management and chemical injection management more than general industrial boilers (round boilers, water tube boilers).

In the boiler blow calculation method of the present invention, in order to accurately calculate the blow rate of the boiler from the quality of the boiler water and the feed water, the following (a) step, (b) step, (c) step and (d ) Process.
Since the increase in the concentration of dissolved substances in boiler water and feed water reflects the blow rate at that time, the blow rate can be calculated without being affected by aging deterioration of the feed water pump.

((A) Process)
This step (a) is a step of setting the small once-through boiler to a low combustion or high combustion fixed operation before sampling the boiler water.
Since the boiler water quality of the small once-through boiler described above is likely to fluctuate, in this step (a), the operation load of the small once-through boiler is continuously burned to make the boiler water concentration as uniform as possible.

((B) Process)
This (b) process is a process of sampling boiler water from the downcomer line from the steam separator.
Boiler water sampling is performed in the downcomer line of the steam separator immediately before blowing, so that the boiler water with the highest concentration can be sampled, and the correct concentration factor and blow rate can be calculated. By performing this sampling a plurality of times (preferably 3 times or more), errors caused by fluctuations in the quality of the feed water can be alleviated.

(Step (c))
This step (c) is a step of sampling the feed water, and it is desirable to perform a plurality of times (preferably three times or more) simultaneously with the sampling of the boiler water in the step (b). The sampling location is not particularly limited as long as the water supply can be sampled.

((D) step)
This (d) process is a process which calculates the blow rate of a boiler based on the chloride ion density | concentration or silica density | concentration of the boiler water sampled in the said (b) process and (c) process, respectively.
It is described in JIS B 8223 (2006) that the chloride ion concentration is used as an index of the concentration factor. On the other hand, for silica, since the selective carryover of silica is 0.001% or less in a low-pressure small once-through boiler, unless the silica is mixed with condensate and water treatment chemicals in the feed water, Is possible.
Of the salts in domestic boiler feed water, silica is often higher in concentration than chloride and sulfate ions, and when calculating the blow rate, errors are less likely to occur, and there are two significant figures. Since it can be obtained, a high-accuracy blow rate can be calculated by using the silica concentration as an index. However, according to the present invention, the operation load is fixed at low combustion or high combustion so that the boiler water concentration becomes uniform, so that a highly accurate blow rate can be calculated even based on the chloride ion concentration. .

In the present invention, the blow rate of the boiler is calculated as follows.
First, the average chloride ion concentration or silica average concentration in boiler water and feed water sampled multiple times is obtained, the average concentration factor N _AV is obtained from equation (1), and the average blow rate B of the boiler is obtained from equation (2). _AV is calculated.
N _AV = (average chloride ion concentration or average silica concentration of boiler water) / (average chloride ion concentration or average silica concentration of feed water) (1)
B _AV = (1 / N _AV ) × 100 (2)
For the reason described above, in the formula (1), it is preferable to employ the average silica concentration rather than the average chloride ion concentration of boiler water and feed water.

[Boiler blow control method]
The boiler blow control method of the present invention is a method of accurately calculating the blow rate of the boiler using the above-described method and controlling the blow of boiler water so that the blow rate becomes a predetermined value. According to this blow control method, the water quality of the boiler water in the small once-through boiler is properly controlled by controlling the blow valve so as to achieve a predetermined blow rate even if the operating condition of the boiler changes, and performing appropriate blow. Can be managed.
In addition, by accurately obtaining the blow rate using the above-described method, it is possible to carry out use decisions and water quality management when applying boiler water treatment chemicals with higher accuracy than before. Furthermore, the energy saving calculation of the boiler (the merit when the blow amount is reduced and the calculation of the boiler efficiency) can be performed more accurately, and the energy saving and cost saving planning and evaluation can be performed with high accuracy.

EXAMPLES Next, although an Example demonstrates this invention further in detail, this invention is not limited at all by these examples.
Reference example 1
In an actual small-sized once-through boiler (heat transfer area 10 m ² , pressure 1 MPa or less), the blow rate was calculated from the values of the feed water flow meter and the turbine flow meter installed in the blow line. The time for measuring the flow rate was 3 hours. Table 1 shows the blow rate calculation conditions and the calculated blow rate.

Example 1
In the same boiler used in Reference Example 1, in the low combustion fixed operation (operating condition: 0.7 MPa), the feed water and the boiler water were sampled 5 times, respectively, and the average silica concentration and the average chloride ion concentration in the feed water, and The average silica concentration and the average chloride ion concentration in the boiler water were determined, and the average blow rate was calculated from the values.
The calculation conditions for the blow rate and the calculated average blow rate are shown in Table 1.

  As can be seen from Table 1, the blow rate determined from the flow meter value in Reference Example 1 and the average blow rate determined from the average silica concentration in Example 1 were the same, but the average determined from the average chloride ion concentration The blow rates did not match. This is thought to be due to the fact that only one significant figure can be taken because the average chloride ion concentration in the water supply is low.

  A boiler blow rate calculation method and a boiler blow control method according to the present invention include a method for accurately calculating the blow rate of a boiler from the quality of boiler water and feed water in a small once-through boiler using soft water as make-up water, and This is a method of controlling the blow of boiler water so that the blow rate becomes a predetermined value, and even if the operating condition of the boiler changes, the blow valve is controlled so that the blow rate becomes a predetermined value and an appropriate blow rate is obtained. By performing this, the water quality of the boiler water in the small once-through boiler can be properly managed.

Claims (4)

In a small once-through boiler using soft water as make-up water, a method for calculating the blow rate of the boiler from the quality of the boiler water and feed water,
(A) before sampling the boiler water, the step of making the small once-through boiler a combustion fixed operation,
(B) sampling the boiler water from the downcomer line from the steam separator;
(C) the step of sampling the feed water, and (d) the boiler blow rate based on the chloride ion concentration or silica concentration of the boiler water and feed water sampled in the steps (b) and (c), respectively. Calculating step,
A method for calculating the blow rate of a boiler.   The boiler blow rate calculation method according to claim 1, wherein sampling of boiler water in the step (b) is performed immediately before continuous blow is performed.   The boiler blow rate calculation method according to claim 1 or 2, wherein the blow rate of the boiler is calculated based on the boiler water and the silica concentration of the feed water in the step (d).   The boiler control method characterized by controlling the blow of boiler water so that the blow rate obtained by the blow rate calculation method according to any one of claims 1 to 3 becomes a predetermined value.