Why does my ph keep rising?

Latest readings:
tc 2.5
fc 2.5
cc 0
cya 40
alk 150
ph 7.8

intex above ground 18x48

Yesterday all readings were the same except ph was 7.5

It took us a long time adding muractic acid and then aerating to get the alk down, but now the ph keeps rising. We will add acid and it will drop to 7.2 to 7.5, but a couple of days later it will be up to 8. What do I need to do?

I think that the alk is still a bit high, and also if you have kids who use the pool, then with splashing and all it will raise the Ph. Are you still aerating, that will raise the Ph also. I have found that adding acid to my pool around once a week is necessary as the Ph does seem to rise a bit, although slowly. If I am not mistaken the Alk needs to be at the highest 120, but I could be wrong.

I'm still experimenting with this, so take that as a note of caution.

I lowered the alkalinity in our pool from 220ppm to 100ppm and still had the pH bounce back up to 7.6 each day after adding muriatic acid the day before to get it down to 7.2. So I lowered the alkalinity to 70-80ppm and now the pH is holding at 7.2 over the last two days. Be careful with the amount of acid added as you approach the lower alkalinity levels, a little has a bigger effect on the pH and it doesn't bounce back as far.

I'm not sure of the chemistry involved, but I suspect there's a CO2 interaction ocurring at the water surface/atmosphere interface that sets the pH dependent on the alkalinity.

The pool is vinyl lined and I thought my alk levels were okay for my pool. I stopped aerating after I got the alk down and there really hasn't been anyone in the pool. I guess you just have to keep adding acid to keep the ph down. Thanks for the help.

What does the check mark after my post mean? Just curious.

wolfcue - you don't have an swg by chance, do you?

What does the check mark after my post mean? Just curious.
It means you are subscribed to the thread and you can check settings in your control panel to get email notifications of new posts in the thread.

Rising pH
Are you using the all bleach method? If you are, that may be why it is climbing.
Anything that you add to the pool, can change the pH depending on the pH of what you are adding.

Bleach, sodium hypochlorite, has a pH of around 10 or 11, very alkalotic, so the more you add, the higher your pH will go.
I have found that in my pool which is open all year round, I ONLY ADD 2 chemicals!!!!!!!!

Bleach and Acid.
Bleach for my source of chlorine and acid once in a while to bring the pH down.
That is it. Once your pool is "tuned" it can be that simple.

Rising pH
Are you using the all bleach method? If you are, that may be why it is climbing.
Anything that you add to the pool, can change the pH depending on the pH of what you are adding.

Bleach, sodium hypochlorite, has a pH of around 10 or 11, very alkalotic, so the more you add, the higher your pH will go.

Though you are correct that bleach is alkaline (the 12% stuff from pool stores has an even higher pH of 13), chlorine usage is an acidic process so the net effect of chlorine addition and usage is a very small rise in pH due to the extra base that is added to (or kept in) the chlorine bleach (to keep it more stable). When chlorine is broken down by sunlight (UV) or consumed by ammonia to breakpoint or oxidizing organics, the pH goes down by almost the same amount as it goes up when you added it.

[EDIT]
By "chlorine usage" I mean when chlorine gets "used up", not your usage (addition) of chlorine. Sorry for the confusion.
[END-EDIT]

After reading several posts about pH rise, I am coming to the conclusion that it is most often due to outgassing of CO2 which raises pH (and when you add acid to compensate, the alkalinity is lowered and you get back to the original pH -- so the net change of CO2 outgassing plus adding acid is that the alkalinity drops). Aeration of pool water is the most common cause for this. It looks like many people live with a lower alkalinity of around 80 in such environments. Also, keeping your pH closer to 7.5 helps since lower pH accelerates the outgassing process.

Richard

Thanks to everyone for the help.

chem geek/Richard
By what mechanism is adding bleach an acidic process. I am not doubting you, just curious as to why

Andy

chem geek/Richard
By what mechanism is adding bleach an acidic process. I am not doubting you, just curious as to why

Andy
I'll do this in words and in symbols. Adding bleach is a basic process; it is the using up of bleach (chlorine) that is an acidic process so the net result is almost neutral. When I said "chlorine usage" I didn't mean your using chlorine (i.e. adding it) -- I meant when chlorine gets used up by "doing its thing" or "breaking down". Sorry for the confusion I caused.

Adding Chlorine
NaOCl + H2O --> Na+ + HOCl + OH- (+ extra base Na+ + OH-)
HOCl <--> H+ + OCl-
Sodium Hypochlorite (liquid chlorine or bleach) combines with water to produce sodium ions (part of regular table salt) plus disinfecting chlorine plus hydroxyl ion. The hydroxyl ion makes this a basic reaction that raises pH, but because the disinfecting chlorine is a weak acid this overall reaction raises the pH by less than a strong base would. Note that there is a small amount of extra base in the form of Sodium Hydroxide (lye or caustic soda) that comes with Sodium Hypochlorite and is there to help preserve it, but this amount is rather small.

Using Up Of Chlorine
Breakdown of Chlorine by Sunlight (UV)
2HOCl --> O2(g) + 2H+ + 2Cl-
2OCl- --> O2(g) + 2Cl-
Chlorine breaks down in the presence of ultraviolet radiation, such as found in sunlight, and forms oxygen gas and chloride ion (and hydrogen ion, if starting with HOCl hypochlorite). Because a hydrogen ion is produced, this is an acidic process, but since disinfecting chlorine is a weak acid, only some of it breaks down in a way that lowers pH as shown above (i.e. only HOCl produces H+; OCl- does not).

Net Chlorine To Breakpoint (Ammonia "Oxidation")
2NH3 + 3HOCl --> N2(g) + 3H+ + 3Cl- + 3H2O
OCl- + H+ --> HOCl
The disinfecting form of chlorine (HOCl) combines with ammonia through a series of reactions (that I have not shown) with the net result being the production of nitrogen gas (which is why it is important to keep your cover off and have good circulation when shocking) plus hydrogen ion and chloride ion. Though by itself this would be a strong acid reaction, there is also OCl- present that will combine with hydrogen ion to form more HOCl since the ratio of HOCl to OCl- will remain constant (and is about 50/50 at pH 7.5). So the net reaction is acidic, but not strongly so.

Overall combination of adding chlorine and having it used up
The net reactions are as follows if you combine the ones I showed above.
2NaOCl --> 2Na+ + 2Cl- + O2(g)
3NaOCl + 2NH3 --> 3Na+ + 3Cl- + N2(g) + 3H2O
So the overall net reaction of adding sodium hypochlorite to your pool and having it used up in its most typical ways is simply to produce salt (yes, sodium chloride or table salt, dissolved in water, of course) and either oxygen or nitrogen gas (and water).

Other things that could happen
If you do not have enough chlorine in your pool relative to your bather load (ammonia demand), then the chlorine may not completely oxidize ammonia and instead you will get chloramines (first, monochloramine). This reaction is basic. However, sunlight may break down monochloramine which will result in the rest of the breakpoint process which overall is acidic (so it's the same as I showed above overall).

It is also possible for chlorine to combine with organic compounds to form chlorinated organics that are hard to breakdown. When people talk about the health problems with chlorine, it is usually about some of these chlorinated organics (Disinfection By-Products, DBPs) known as Tri-Halo-Methanes(THMs) such as chloroform. Also, some chloramines such as nitrogen trichloride (NCl3) not only smell bad, but can cause health problems (especially in indoor pools with poor air circulation). In an outdoor pool exposed to sunlight and with a good residual of chlorine you typically don't get these "bad" compounds. If you are really concerned and have money to burn, you can use a constant maintenance level of non-chlorine shock (monopersulfate, MPS) to oxidize organics before chlorine gets a chance, but this is probably overkill for an outdoor pool (though may be a good idea for an indoor pool).

Salt (SWG) Pool
In a salt water pool you produce chlorine through the following reaction:
2H2O + 2Cl- --> Cl2(g) + H2(g) + 2OH-
Cl2(g) + OH- --> HOCl + Cl-
----------------------------------------------
2H2O + Cl- --> HOCl + OH- + H2(g)

Note that the products of HOCl and OH- are exactly the same as you get when you add liquid chlorine or bleach (ignoring sodium ion). This process is partly basic, but not strongly so due to the HOCl weak acid. So the overall net result in a salt pool is simply the production of oxygen or nitrogen gasses. The disinfecting chlorine that was created from chloride ion gets converted back to chloride ion as it is "used up".

If you have a salt pool and don't use CYA (this isn't normal) then you could also outgas chlorine in the same way that CO2 is outgassed. This is more likely if you are aerating the water (e.g. have water features, slides, fountains, jets pointed up, lots of splashing, ...). This process is strongly basic and greatly increases the pH (HOCl + Cl- --> Cl2(g) + OH-). The reason this would tend to only happen in a salt pool without CYA is that a high concentration of both chloride ion (Cl-) and disinfecting chlorine (HOCl) are needed and it occurs more readily at lower pH.

I know, I know...more than you wanted to know. I hope it helps and that you made it this far...:)

Richard

Adding bleach is a basic process; it is the using up of bleach (chlorine) that is an acidic process so the net result is almost neutral.

I am really confused now. Are you saying that my pH should not be changing very much? I use bleach for chlorination and muriatic acid to bring the pH down. I have a 19,000 gallon pool and add about 3/4 gallon bleach a day which raises the chlorine concentration about 2ppm. My pH increases about .2 to .3 units per week, so I have to add about a quart of Muriatic acid each week to bring it back down. I have been doing this for 5 years and it's been pretty consistent. This is pretty common from what I have read on this board. So am I missing something? Should my pH not be rising like it is? Below are my numbers.

FC=4
CC=0
pH = 7.5
TA = 120
CYA = 30
CH = 10
Temp = 83

I am really confused now. Are you saying that my pH should not be changing very much? I use bleach for chlorination and muriatic acid to bring the pH down. I have a 19,000 gallon pool and add about 3/4 gallon bleach a day which raises the chlorine concentration about 2ppm. My pH increases about .2 to .3 units per week, so I have to add about a quart of Muriatic acid each week to bring it back down. I have been doing this for 5 years and it's been pretty consistent. This is pretty common from what I have read on this board. So am I missing something? Should my pH not be rising like it is? Below are my numbers.

FC=4
CC=0
pH = 7.5
TA = 120
CYA = 30
CH = 10
Temp = 83
I'm sorry I confused you. Yes, I am saying that your pH should not be changing very much, but what you are seeing may be what "aquarium" said, namely that your higher TA is causing more outgassing of CO2 and that causes pH to rise. However, if that were true, you should be seeing your alkalinity drop (after you add acid), albeit slowly (I tell you how much, later in this post).

Some of the pH rise comes from adding so much bleach. It looks like you are adding about 2 ppm of chlorine per day, right? Unfortunately, I have not verified if extra base is added or kept in bleach to make it more stable -- I know that this is true for 12.5% liquid chlorine and if I use the same proportions for your (presumably 6%) bleach I calculate you would get a rise in pH of about 0.1 per week due to this extra base in the bleach.

Of course, you are seeing more than that. If "aquarium" is correct and this extra pH rise is due to your outgassing carbon dioxide from your pool to the air, then my calculations show that with a weekly rise of 0.3 in pH and adding 3 cups of acid to compensate (to get back to 7.5) you should be seeing a drop in TA of 3.4 ppm per week which probably wouldn't show up in the tests that often and instead would look more like a drop of 10 every 3-4 weeks. Are you seeing that? Or put another way, do you ever need to add sodium bicarbonate (baking soda; bicarbonate of soda) to maintain your 120 TA?

If you are seeing the slow drop in TA, then "aquarium" hit the nail on the head and the solution to your problem may very well be to drop your TA. Of course, if it has been dropping already you could just wait longer and eventually your pool will stabilize, or you can accelerate the drop using Ben's method. The explanation is that every pool has a "natural" rate of outgassing CO2 based on aeration and usage and while every pool will drift up in pH with this process, this can be slowed quite a lot by maintaining a lower TA level. Ironically, this will make your pool more susceptible to pH swings from other sources (i.e. the pH moves more with the same amount of acid/base), but that's the catch-22 tradeoff with TA. However, you could safely go to a TA of 100 which could very well solve your problem and still give you decent buffer capacity.

By the way, do you have any aeration features in your pool such as water slides, fountains, etc.? Do you have kids or others who splash a lot in the pool? There are three factors that increase the outgassing of CO2 and make this upward pH drift worse: high TA, low pH, and aeration. You have the first, not the second, and I don't know about the third.

If you are not seeing a slow drop in TA over time, then perhaps there is more base in your 6% bleach then I would have guessed.

Also, your CH can't be 10 -- is that some sort of mistake? It's probably around 200 isn't it?

Anyone else have any other ideas as to the cause of the increasing pH?

Richard

Thanks for your very interesing post. I want to learn more about this, because not too long ago I made a similar post about pH increasing and was told to increase my TA from 80 to 100 - 125. Here is a link to that post: http://www.poolforum.com/pf2/showthread.php?t=3715.

I do not have any water features that would increase aeration and I normally try to keep my return flow so that it does not splash. I have read on this forum that splashing can decrease TA, so I have always tried to keep return flow from splashing very much.

I believe I do see TA slowly decreasing. I have not taken notes on this, but my recollection is that it slowly decreases over time. I accounted this to the process you describe being accelerated when I add acid. Normally when my pH gets to 7.8 I will add acid to get it back down to 7.4 or so. But even when my TA was 80 (earlier this year), I still saw pH rising at about the same rate. After increasing the TA, I have not noticed pH rising slower.

So, are you saying that my TA will continue to decrease until it gets to a stable concentration and then pretty much stay there. And at that point, my pH should only rise about 0.1 units per week? If that's true, that would be great. I will pay more attention to my TA and see if I can notice where it gets to a stable point and if my pH increase slows.

Very interesting info, but it seems to go against what I have read so far which is to keep my TA around 125.

Thanks again for the interesting info.

Jim

If "aquarium" is correct and this extra pH rise is due to your outgassing carbon dioxide from your pool to the air,

Not really what I said, and I'm wrong anyway. :p

I keep what is called a high-tech planted aquarium. I inject CO2 from a pressurized cylinder into the aquarium water so the plants will grow well. I've been down the road of -very- high tech automation and don't want to go there again with the pool. But I am familiar with the alkalinity-CO2 relationship.

In Austin, from where we recently moved, the water comes out of the tap at 10 pH and about 80ppm alkalinity. They intentionally drive all CO2 out of the water to -raise- pH and -lower- acidity so the water will be gentle on the pipes. Let that same water just sit out for a few hours and it will take in CO2 from the atmosphere and settle in at a pH of about 7.6.

I should have known that if I lowered my pool water to 80ppm alkalinity that it should behave similarly, and so it has. The pH has now risen to 7.6 and so far is holding there. But it's too soon to tell if that will hold. It seems to move in increments.

I wasn't suggesting that outgassing is caused by pH, I'm suggesting that the alkalinity of the water will -set- the pH due to the natural interaction between the water and air as CO2 in both reaches a balance point.

Tom

I wasn't suggesting that outgassing is caused by pH, I'm suggesting that the alkalinity of the water will -set- the pH due to the natural interaction between the water and air as CO2 in both reaches a balance point.
Tom
Tom,

The problem is that in a pool the extra carbonate (alkalinity) that is put into the pool as a buffer puts the pool way out of balance with respect to CO2 in the air. At standard NSPI middle ranges of pH 7.5, TA 100, CYA 40, CH 300, there is almost 10 times as much dissolved CO2 in the pool water as there should be for equilibrium with air. Yes, that means that if you were to fully aerate your pool, you would lose some of the carbonate in the pool and the pH would rise. My calculations show that full aeration and achieving equilibrium would happen after about 14% of the total carbonate (no TA change since TA is also a function of pH) in the pool were outgassed and the pH rises to 8.4

So there is always this natural tendency for pH to rise with all pools that aren't running at 8+ pH (Ben wrote about having pools operate at high pH, but that's another discussion...). So with this pool situation, we simply can't set a balance point that is at equilibrium because we won't be running the pool at 8+ pH. So we instead have to figure out the sweet spot between the two competing factors -- low TA large pH swing vs. high TA lower pH swing but increasing pH "push". However, my gut tells me that there's some other significant source of base being added to this pool and that's what we need to figure out.

[EDIT]The graph CO2.png (http://richardfalk.home.comcast.net/pool/CO2.png) (which I think you've seen before in some of my other posts) shows the relative outgas rates of CO2 at various levels of alkalinity and pH. The relative scale is 0 at equilibrium, 1 when there is twice as much dissolved CO2 in the water as in the air, 2 when there is three times as much dissolved CO2 in water vs. air, etc. So a relative number of 20 outgasses twice as fast as one of 10. The "Limit" line is somewhat arbritrary but seems to be close to where many people complain of an upward pH drift that seems excessive.[END-EDIT]

Richard

My comments in bold in your quoted post below.


Thanks for your very interesing post. I want to learn more about this, because not too long ago I made a similar post about pH increasing and was told to increase my TA from 80 to 100 - 125. Here is a link to that post: http://www.poolforum.com/pf2/showthread.php?t=3715.
Thank you so much for including this link. The advice that was given to you was correct for the problem you described at that time because a large pH shift at the lower TA of 80 will get reduced (somewhat) at higher TA because higher TA buffers the water to make the pH move less when there is a "push" to make the pH move (in your case, from base to increase pH). TA can be confusing because having a low TA makes your pool more easily change in pH, but a high TA makes your pool more likely to rise in pH from outgassing carbon dioxide. With more info, a "balance" can be obtained though it will still result in a rise in pH, but will hopefully lower the amount of acid you need to add each week.

I do not have any water features that would increase aeration and I normally try to keep my return flow so that it does not splash. I have read on this forum that splashing can decrease TA, so I have always tried to keep return flow from splashing very much.
What you read on this forum is correct. Splashing, combined with adding acid, will decrease TA. When you splash, you can increase the transfer of carbon dioxide from the pool water droplets into the air and this process raises pH without changing alkalinity. Then, when you later add acid to compensate to restore the pH, you lower both pH and alkalinity. So it is the combination of splashing and adding acid that lowers alkalinity, but for practical purposes, you can think of splashing as lowering alkalinity which is what you've heard on this forum.

I believe I do see TA slowly decreasing. I have not taken notes on this, but my recollection is that it slowly decreases over time. I accounted this to the process you describe being accelerated when I add acid. Normally when my pH gets to 7.8 I will add acid to get it back down to 7.4 or so. But even when my TA was 80 (earlier this year), I still saw pH rising at about the same rate. After increasing the TA, I have not noticed pH rising slower.
In the post you linked to (above), you mention adjusting from a pH of 8.0 down to 7.4 once a week and that's a larger change than you are dealing with now which is from 7.8 to 7.4 (or 7.7 to 7.4 since you said a 0.2-0.3 pH change per week) so it does look like the higher TA is helping to reduce the pH bounce somewhat (which is expected). On the other hand, it may also be starting to cause an additional pH increase with outgassing -- this is why the change in alkalinity over time is important to note as this is how to answer what is going on.

Do you notice needing to add more acid per week now than you did when the TA was at 80?

So, are you saying that my TA will continue to decrease until it gets to a stable concentration and then pretty much stay there. And at that point, my pH should only rise about 0.1 units per week? If that's true, that would be great. I will pay more attention to my TA and see if I can notice where it gets to a stable point and if my pH increase slows.
Well, sort of, but not quite. At the recommended pH near 7.5 and TA near 80-120, a pool is always going to be out-of-balance and will want to outgas carbon dioxide. So there will always be some pressure for pH to increase. The idea is to find your pool's ideal sweet spot where the outgas effect is relatively small (TA is low enough) while at the same time you have sufficient buffer to minimize your changes in pH (TA is high enough). That's two competing factors. At the sweet spot, the amount of added acid each week is smaller but without too much of an annoying pH swing.

Very interesting info, but it seems to go against what I have read so far which is to keep my TA around 125.
With the additional info you provided that earlier on you had a TA of 80 and had a large increase in pH, then the advice is not inconsistent. You were clearly in a bad situation with the TA of 80 and you are in a somewhat better situation now with a TA of 125, but perhaps you might be in an even better situation with a different TA (maybe 100 or 110?) but we really haven't figured out what that should be yet.

Thanks again for the interesting info.

Jim
Jim,

Since you still had a very high tendency to increase pH even when the TA was low, I don't think the main problem you are having is outgassing of carbon dioxide. Yes, by setting the TA as high as you have you may have started to introduce a little more extra pH increase as would be seen by a more rapid (but still quite slow) drop in alkalinity and a small increase in the amount of acid you need to add. So perhaps your TA should be dropped a little bit (which will happen slowly over time if you don't add any bicarbonate of soda), but that will not solve the core problem you are having, namely that something is adding a lot of extra base to your pool.

Unless there are other chemicals you are adding to your pool besides chlorine and acid, this extra base being added to your pool must either be coming from the chlorine you are using or from something entering into your pool. One thing you could try, just for a few weeks, is to use a different source of bleach. Even though it's not part of the BBB system, if you go to the pool store and get the more concentrated 12% liquid chlorine, then at least I'm more certain of the amount of base that is in it. Just remember that you only need to add about half as much as you were before. At least this is something to try.

If anyone else has any ideas as to the possible source of this pH increase that isn't significantly affected by TA, please chime in.

Richard

Thanks for the additional info. I have a few comments / questions.

1. I just purchased enough bleach (found it on sale) to last me the rest of this season. I normally close early to mid September. And the only local pool store I have had never heard of using bleach let alone selling it. When I asked from Sodium Hypochlorite, they looked at me like I was an alien. When I told them it was bleach, they still looked confused. So I can't find the higher strength stuff, but I have used at least 3 different brand names of bleach this year and seem to get similar results.

2. I forgot to mention this in my past post, but my CA is in fact 10ppm. I have very, very soft water. Using my Taylor test kit, it only takes one drop to get a color change. I have asked if this is a problem on this board before and even Ben has said for vinyl pools low CA is not a concern. I thought about using some Calcium Hypochlorite for a while to increase it, but I can get bleach cheaper so I have just stuck with bleach.

3. I have not really noticed needing to add acid any less frequent at 120 TA than at 80. However I have not really been keeping records either. So it may be but I just have not taken notice. I still add acid about once a week.

4. Now for a radical question. If having high TA causes an imbalance in the water and if having low TA causes the pH to want to increase less, why not just go with little or no TA? I understand that pH would swing more, but from what I hear you saying it will tend to reach equilibrium and maybe the pH would increase 0.1 units per week. That would not be so bad. So why would I not just have very little or no TA so my pool would be at equilibrium?

Thanks again for the interesting posts.

Jim

My comments below in bold.


Thanks for the additional info. I have a few comments / questions.

1. I just purchased enough bleach (found it on sale) to last me the rest of this season. I normally close early to mid September. And the only local pool store I have had never heard of using bleach let alone selling it. When I asked from Sodium Hypochlorite, they looked at me like I was an alien. When I told them it was bleach, they still looked confused. So I can't find the higher strength stuff, but I have used at least 3 different brand names of bleach this year and seem to get similar results.
If they sell it at all, it's called liquid chlorine or chlorinating liquid.

2. I forgot to mention this in my past post, but my CA is in fact 10ppm. I have very, very soft water. Using my Taylor test kit, it only takes one drop to get a color change. I have asked if this is a problem on this board before and even Ben has said for vinyl pools low CA is not a concern. I thought about using some Calcium Hypochlorite for a while to increase it, but I can get bleach cheaper so I have just stuck with bleach.
OK, you've got a vinyl pool and that's true you don't need extra calcium, but it does change my calculations in subtle ways, but not too much.

3. I have not really noticed needing to add acid any less frequent at 120 TA than at 80. However I have not really been keeping records either. So it may be but I just have not taken notice. I still add acid about once a week.
What I was asking was the total amount of acid you add per week, but it sounds like that hasn't changed very much so that means that the outgassing of carbon dioxide is probably not very high and not the source of this rising pH problem.

4. Now for a radical question. If having high TA causes an imbalance in the water and if having low TA causes the pH to want to increase less, why not just go with little or no TA? I understand that pH would swing more, but from what I hear you saying it will tend to reach equilibrium and maybe the pH would increase 0.1 units per week. That would not be so bad. So why would I not just have very little or no TA so my pool would be at equilibrium?
If you had a plaster/grout pool then you would need the TA along with CH to prevent corrosion, but since you have a vinyl pool you don't need TA nor CH for that purpose. However, if you had little or no TA, then your pool's pH would swing HUGELY and you'd have to be adding acid every day if not more frequently!

If we assume, based on your numbers, that the additional "hidden" source of increasing pH is equivalent to roughly 1 ounce weight of caustic soda or lye per day, then every day you add chlorine to your pool your pH goes up 0.15 and the chlorine then gets used up during the day and your pH drops back down resulting in a net increase of 0.04 per day. This is at a TA of 120. At a TA of 80, adding chlorine has your pH go up by 0.23 and then the chlorine gets used up and your pH has a net gain of 0.06. At a TA of 10, adding chlorine would make your pH would go up almost 1.1 units! And yes, as the chlorine got used up your pH would drop back down for a net of 0.26, but that's a huge swing and is why you don't want very low TA in your system. Even adding acid every day wouldn't help the situation with a TA of 10. You'd have to add a very small amount of add acid almost every hour to maintain a reasonable pH! If you were willing to add acid every day along with your chlorine (not mixing them, of course), then you could go with a TA as low as 60 which would give a 0.30 increase when adding chlorine and a net gain of 0.07 which you would neutralize with about 3.5 fluid ounces of Muriatic acid per day. I wouldn't go any lower than this 60 TA, but I really don't see much benefit of that since it's more convenient to have the higher TA (say, 100) and add acid less frequently, but it's really up to you.

Thanks again for the interesting posts.

Jim

...every day you add chlorine to your pool your pH goes up 0.15 and the chlorine then gets used up during the day and your pH drops back down resulting in a net increase of 0.04 per day. This is at a TA of 120.

Then something is definetly adding more to pH than the bleach. In 5 years, I have never seen this small of a net increase in pH. I have only used generic brand bleach (5.25 and 6%), but have used a number of different sources. All seem to have similar results. So I don't understand what it could be. I only add bleach and muriatic acid, then maybe adjust alkalinity once around mid-summer with baking soda.

Thanks again for the info.

Jim

Then something is definetly adding more to pH than the bleach. In 5 years, I have never seen this small of a net increase in pH. I have only used generic brand bleach (5.25 and 6%), but have used a number of different sources. All seem to have similar results. So I don't understand what it could be. I only add bleach and muriatic acid, then maybe adjust alkalinity once around mid-summer with baking soda.

Thanks again for the info.

Jim
.04/day is about .3/week and that seemed to be around what you were seeing. In your post #13 (http://www.poolforum.com/pf2/showpost.php?p=28344&postcount=13) you said that the rise in pH was ".2 to .3 units per week" so aren't we consistent?

Does anyone out there know the pH of bleach? For 12.5% liquid chlorine, the pH of just sodium hypochlorite in water would be 10.6 but the actual pH is about 13 because of sodium hydroxide (caustic soda or lye) that is added since concentrated chlorine breaks down faster at the lower pH. So maybe bleach is more basic than I would have thought and that would explain a strong tendency towards increasing pH for anyone on the BBB system.

Richard

.04/day is about .3/week and that seemed to be around what you were seeing. In your post #13 you said that the rise in pH was ".2 to .3 units per week" so aren't we consistent?

You are correct. I misread and thought you said .04 per week. Sorry, you are correct. That is about right.

The MSDS for 5.25% bleach says the pH is 11.4.

I think what I need to do is check my pH, add bleach and let circulate for an hour, check the pH again then the next day when chlorine concentration has decreased check pH again. It may be difficult seeing any change however with my test kit.

Since I also suffer from the increase of ph syndrome , I've taken an interest in this ..I dont have the ph swings that some have reported , but I do need to add muriatic acid maybe every 10 days (varies , I havent kept track)

My pool
ph 7.5 normally
ALK 110
vinyl liner

Thinking of the possible cause/contributors , I wonder how much an effect DE is having behind the scene. I dont know the ph of diatomaceous earth , but since its a "chalk" , wouldnt it be alkaline ? and following that couldnt leaching be a contributor ?

just a thought

The MSDS for 5.25% bleach says the pH is 11.4.

Well, if the 5.25% means the weight percentage of sodium hypochlorite then the natural pH would be 10.5 and the amount of base added to make it more stable (if any) is much less than what is in 12.5% liquid chlorine. So that isn't what is going on. Too bad since that would have been an easy answer.:D

Richard

Since I also suffer from the increase of ph syndrome , I've taken an interest in this ..I dont have the ph swings that some have reported , but I do need to add muriatic acid maybe every 10 days (varies , I havent kept track)

My pool
ph 7.5 normally
ALK 110
vinyl liner

Thinking of the possible cause/contributors , I wonder how much an effect DE is having behind the scene. I dont know the ph of diatomaceous earth , but since its a "chalk" , wouldnt it be alkaline ? and following that couldnt leaching be a contributor ?

just a thought
That's a possibility, but we'd have to see if there's a trend with the folks who see the consistent pH increase that isn't explained by other known factors like outgassing of carbon dioxide (which one can tell via the alkalinity drop over time, assuming pH is adjusted by adding acid). Are all of these people using DE filters?

Another possibility is the outgassing of chlorine gas, but this would not normally happen fast enough to affect pH except in salt pools -- either SWG pools or pools that have added salt. The concentration of salt (chloride ion) and the concentration of disinfecting chlorine (HOCl) determine the maximum rate of outgassing, though there are the same physical aeration issues as with carbon dioxide except that chlorine escapes more readily since there is virtually no chlorine in the air at all (so it's much further out of equilibrium) However, I don't have any evidence that this is really occurring in pools and it's very difficult to distinguish the difference between chlorine usage from breakdown by sunlight vs. outgassing except for the pH difference (the former is acidic, the latter is basic) and with so many things that can affect pH, well it's a mess to figure out!

You should also think about anything else added to the pool -- any other chemicals at all, including things to tie up metals and prevent staining. I know that non-chlorine shock (MPS) is very acidic, for example.

Then of course, there's the fact that people swim in the pool! I didn't think the pH of sweat was basic and I've seen reports of this rise in pH from people who don't use their pools much, so I don't think that's it.

At some point we may just give up on trying to explain this and just "live with it" and deal with it, but I'm not ready to quit yet!

Richard

I use a cartridge filter and it's 3 years old, so I don't think my filter could be a contributor. I only use bleach, muriatic acid and baking soda. Nothing else. My swimmer load is very light this year, but I have not seen much differnce based on swimmer load either.

I use a cartridge filter and it's 3 years old, so I don't think my filter could be a contributor. I only use bleach, muriatic acid and baking soda. Nothing else. My swimmer load is very light this year, but I have not seen much differnce based on swimmer load either.
Well we have a mystery then. I'll double check my calculations since I could have made a mistake somewhere though I've used the same calculations elsewhere where they've been more consistent. Also, as has been pointed out in other threads (Saturation Index in The China Shop), the science can only go so far because the pool is not a closed system. Still, it would be nice to know the source of this base to cause pH to rise -- it must be annoying to have to add chemicals so frequently. Might be time to look at investing in a pool cover :)

[EDIT]I verified the calculations and don't see anything wrong with them. Because you haven't seen any change in the amount of acid you have to add when you were at a TA of 80 vs. a TA of 120 and because you don't see a drop in alkalinity over time, I think that rules out the outgassing of carbon dioxide as the source of the problem. So we are still left with what is adding base to your pool. Both you and "CToon" both have vinyl pools, I wonder if that has anything to do with the problem or if the low CH is a factor. Anyone else out there with a mysterious rising pH? Do you have plaster pools or vinyl pools and if vinyl pools, what's your CH?[END-EDIT]

Richard

Jim (jereece),

There's an experiment you can try that will at least isolate whether the bulk of the pH rise is due to the chlorine (or chlorine chemistry). If you double the level of chlorine in your pool which will probably double your chlorine usage, then if the pH increase per day and the amount of acid you have to add to compensate both roughly double, then the source of the pH rise is either in the chlorine (the MSDS is wrong) or in the chlorine chemistry (there is a breakdown or outgassing of chlorine as a basic or neutral process rather than being acidic, so the net overall isn't as neutral as originally thought).

The only processes I know that increase pH from chlorine are 1) when the liquid chlorine or bleach is added to the pool, 2) if the chlorine outgasses from the pool (which is a VERY basic process, but unlikely to occur enough in your pool), 3) when chlorine combines with ammonia or organics to form chloramines and chlorinated organics. The processes that are acidic and exactly counteract the basic (1) and (3) are 1) breakdown of chlorine by light, 2) breakdown of chlorine into chlorites and chlorates by temperature, 3) breakpoint of chloramines or oxidation of chlorinated organics.

If your "double concentration" chlorine test doesn't double the rate of pH increase nor the amount of acid you have to add (which you'll have to do more frequently to keep pH in check -- probably twice a week instead of once a week), then the source of the extra base is elsewhere.

I'll completely understand if you're not willing to try this experiment. It'll cost you twice the chlorine and possibly twice the acid plus is more maintenance, but you'll only have to do this for a few weeks (maybe just one week, if the results are immediately obvious). By the way, the double concentration of chlorine (8 ppm vs. 4 ppm) is no where near being hazardous. It results in 0.18 ppm HOCl which would be the same as adding about 0.4 ppm of chlorine in your pool if it didn't have any CYA in it.

Richard

First I want to run some lab tests. I'll try to do this weekend, but no guarantees. I was a lab chemist and water treatment operator for about 10 years (20 years ago), so I have some experience working with chlorination. I have a few lab tests that I want to perform. I will post a summary when I get them done. Not sure if it will tell me anything or not, but something I want to try.

Thanks,
Jim

First I want to run some lab tests.
Cool. I'm on vacation starting this Thursday and through next week so I look forward to your results upon my return (and am keeping fingers crossed that you find out something definitive).

Chem Geek - I posted the results and conclusions to my testing here. (http://www.poolforum.com/pf2/showthread.php?p=30991#post30991) Please review and let me know what you think.

Thanks,
Jim