Flow rate required in Lime-feeder
The lime feeded by lime feeder will help to increase the Alkalinity in raw water during coagulation process, help the original carbonate system to build the buffer to neutralize the Acidity from adding Aluminum Sulfate, thus improve the quality of treated effluent water, our team want to find the relationship between flow rate of lime feeder and the pH and Alkalinity in raw water.
There are several ways to change the concentration of lime in raw water through lime feeder, such as the dosage of lime, the operation time, lime feeder velocities, lime feeder effluent pH etc. Technically, the effluent pH of lime feeder should be kept at around 12, that is the lime saturate pH, our assupmtion is that with a continously flow comes from a distribution of raw water into lime feeder the previously dissolved lime would be consumed, it result in more and more settled lime become dissolvable in water, and with a proper combination of lime dosage and flow rate the effluent pH could be kept constant.
Since the effluent pH should be constant based on our assumption, the way we can change the lime concentration in raw water is depend on the flow rate of lime feeder, it also create convenience for the operator to use the apparetus changing pH and AlK in raw water. The flow rate should be in certain range which could provide the pH environment in the tank between 6.5 to 7.5, it is the range coagulation will be most efficient. <Water Quality and Treatment by Letter 1999>
Our next step is to build the model between flow rate of lime feeder and the possible change in pH, Alkalinity in plant Marcala and Cuatro Comunidades based on the data from Honduras report spanish version translated by our team member Ximena.
The lime dos\age we want should be able to increase the pH of water to the degree we want, while neutralizing the effect of the alum that will be shortly added to it. By calculating the alkalinity under the orginial pH we can find the total carbonate e.g.CT in the system, and then we can find the relationship between the target ANC and the desired pH we want(see figure 1). The total lime dose required in tank is the sum of the amount using to neutralize the alum and to raise the raw water to the desired pH(see equation 2).
After we get the required lime dose demand in raw water, we want to find the lime feeder flow rate to satisfy this dosage, under the assumption that the effluent pH of lime feeder keeps at 12.4, and the plant flow rate keeps at 50 L/min, we get the required flow in limefeeder. Based on equation 3, we can go further to get the ratio between flow rate in lime feeder and the plant with the pH requirement in raw water, this relationship shows in figure 2.
(How did you obtain your initial estimate for initial alkalinity? Is this different for different plants?)
<equation 1>
<equation 2>
Figure 1: The target ANC with the pH change.
Figure 2: The ratio of required lime flow rate and plant flow rate with the required pH in raw water.
Relationship between the ratio of flow rates and pH
Under actual plant conditions, even if we try to keep the flow rate of water in the lime feeder constant. The plant flow rate will change in certain degree in daily operation, so the dosage of lime required in the plant will change as per the amount of water entering the plant. So the calculations must be based on the variable 'ratio' i.e. the fraction of plant flow rate entering the lime feeder. The effect of this ratio on the ANC and pH are illustrated in the MathCad file.
It was assumed that the effluent pH of limefeeder is constant at 12.4, and the ratio of the flow rate between lime feeder and plant changes from 10^(-5) to 0.01. Other values in the calculations were kept the same as in the previous calculation.
A hardness of 0.02g/L acts as a good buffer for the system (see figure 3). (Explain more how hardness is related to alkalinity.) From figure 1 it is observed that when the flow rate changes, the change of pH is not so dramatic but the case is much different if the hardness decreases. For instance, for the raw water of CUATRO COMUNIDADES for which the inital ANC is 7.65mg/L, ,and we assume the same initial pH(6.5), using the same method gives a much steeper slope (see figure 4). (Can you show a comparison plot of the two?)
NOTE: For the present calculations, it has been assumed that water will remain neutral even after the addition of alum so the final ANC is affetced only by the initial ANC (caused by the hardness of raw water) and the hydroxide provided by the lime feeder. But in reality, the alum addition will contribute to a further decrease in the pH of water and so one of our future tasks is to re-calculate the effluent pH required to negate the effect of the alum dose.
(In the future add in the effect that the alum dose will have)
The equation to calculate balance OH ions in plant and the final ANC are also shown below:
balance OH in plant <equation 3>
final ANC of plant <equation 4>
Figure 3: Ratio of lime feeder flow rate to plant flow rate versus final ANC and pH (Alkalinity is 20mg/L, good buffer.)
Figure 4: Ratio of lime feeder flow rate to plant flow rate versus final ANC and pH (Raw water in Cuatro Comunidades, Alkalinity is 7.65mg/L)