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Why Reverse Osmosis Water is Acidic

Why Is Reverse Osmosis Water Acidic? The Science Explained

You installed a reverse osmosis (RO) system for cleaner, safer water. You check the pH and find out it is between 6.0 and 6.5. But isn’t that acidic? Possibly you panic, wondering if something is wrong and your water is unsafe. 

Let’s calm you down. Slightly acidic RO water (pH 6.0–6.5) is completely normal and completely safe. It is actually a good sign, meaning your system is working just fine. The reason why reverse osmosis water is acidic is that the RO membrane removes 90–99% of alkaline minerals like magnesium, bicarbonate, and calcium that act as natural buffers for water when its pH drops. Without these buffers, purified water is unable to resist the slight acidity that occurs when it absorbs carbon dioxide from the air.

We’ll be going into more detail behind this concept in this article. It talks about why RO water is acidic, gives you an understanding of the pH scale, highlights factors that affect the RO water’s pH, and discusses how acidic RO water affects your health.

Key Takeaways

  • RO water typically tests between pH 5.0 and 6.5. It is slightly acidic but completely normal and safe to drink. This acidity indicates your system is working just fine and there isn’t any flaw.
  • The acidity of RO water is rooted in chemical facts. RO removes 90–99% of alkaline minerals (calcium, magnesium, bicarbonate) that act as natural pH buffers. With no buffers, purified water cannot resist the acidity created when it absorbs CO₂ from the air to form carbonic acid. 
  • Your body holds its pH balance steady regardless of what you drink through homeostasis. What you drink has zero impact on your blood pH.
  • Health organizations like WHO, Health Canada, and the EPA have set pH limits between pH 6.5 and 8.5 for corrosion control and taste improvement, not for health.
  • If you prefer neutral or alkaline water, introduce a remineralization filter to your RO system. It restores minerals in the water, raises pH to 7–8, and improves taste.

The Short Answer on RO Water and pH

RO water is acidic due to two main reasons. First, the RO membrane removes 90–99% of minerals like magnesium, bicarbonate, and calcium (also known as pH buffers for water) that are alkaline in nature. When they are discarded from the water, its pH naturally drops. Second, CO₂ from the air dissolves in the water and creates carbonic acid, which further lowers the water’s pH. As the RO water has no pH buffers, its pH then remains slightly acidic.

What the pH Scale Means

The pH scale, ranging between 0 and 14, measures the acidity or alkalinity of a substance. It has three main categories:

  • Acidic: Wondering, what is the acidic pH range? If something has a pH between 0 and 6.9, it is acidic. Lemon juice is acidic and has a pH of 2.0.
  • Neutral: If something has the pH of exactly 7, it is considered neutral. Pure water has a pH of 7.
  • Alkaline/Basic: If something has a pH above 7, between 7.1 and 14, it is basic. Baking soda has pH 9 and is basic.

The pH scale is logarithmic, similar to the Richter scale for earthquakes. A one-point drop or increase in the pH brings a tenfold change. So a pH of 4 is ten times more acidic than a pH of 5, but the latter is more alkaline than the former. A pH of 12 is ten times more alkaline than pH 11, and the latter is more acidic than the former.

Typically, Canadian municipal water lies between pH 6.5 and 8.5, depending on the water source and treatment. Municipal water treatment plants usually add chemicals to water to raise its pH. As the water becomes more alkaline, it prevents pipe corrosion and protects the infrastructure. However, when the city water passes through an RO system, the filtration process strips away the additional minerals from it.

Why pH Alone Doesn't Tell You if Water Is Safe

Often, people equate the word ‘acidic’ with 'dangerous.' When they notice that RO water has a low pH, they instantly panic, assuming it is unsafe too. pH only gauges a substance’s acidity or alkalinity, not contamination or purity. 

Lemon juice is acidic too, but nobody complains about how toxic that is. Low-pH water can be perfectly clean and safe as well. Usually, distilled water has a pH of 5.8. However, high-pH water can be toxic, like lye at pH 13 is extremely caustic. 

Safety depends on the cause behind the pH shift, not the precise pH number. In the case of RO water, the low pH comes from the dissolved CO₂ (carbon dioxide), which is harmless in that form, and the absence of minerals that raise the pH. 

Why Reverse Osmosis Water Becomes Acidic? (The Science)

RO water turns acidic through a combination of natural chemical reactions and mineral removal. Let’s walk you through the science behind it.

Removal of Alkaline Minerals (Calcium, Magnesium, Bicarbonate)

Natural water contains alkaline minerals, such as bicarbonate, calcium, potassium, and magnesium, that act as natural buffers in water. They neutralize acids and keep the water’s pH stable above 7. Think of these minerals as a ‘pH shield.’

RO membranes eliminate approximately 90–99% of these minerals during filtration. With no mineral buffers, the water cannot resist pH fluctuations. This is basically a sign your RO filtration system is doing its job properly and isn’t a design flaw. So if you are thinking, does reverse osmosis make water acidic? The answer is yes, the RO process does that.

Dissolved Carbon Dioxide Forms Carbonic Acid

The acidity in water basically arises when CO₂ from the air dissolves into water, forming carbonic acid (H₂CO₃). The equation below shows this reaction:

H₂O + CO₂ → H₂CO₃

In mineral-rich water, bicarbonates absorb this carbonic acid, neutralizing it, which keeps the pH stable. But RO water is devoid of minerals; hence, there is no buffer to neutralize the carbonic acid. The carbonic acid stays in the RO water, lowering pH to 5.5–6.5.

This is the same science that explains why rainwater is naturally acidic with a pH of 5.6. Pure water absorbs CO₂ from the atmosphere. Purer the water, the more CO₂ it can absorb, and the more acidic it turns.

Low TDS Means No Buffering Capacity

Total dissolved solids (TDS) refers to the total concentration of dissolved salts and minerals in water. Typically, tap water has 150—500 TDS, and RO water has 10—50 TDS.

Buffering capacity refers to the water's ability to resist pH changes. RO water has a very low TDS count, so it is basically mineral-free. In the absence of minerals, it cannot absorb acidic compounds. When RO water absorbs the slightest amount of CO₂, it results in a significant drop in the pH. This isn’t a health hazard, just normal chemistry.

Why Your RO Water Tests More Acidic Than It Is

Your RO water tests more acidic than it should be? That’s probably due to the different factors that influence its pH, such as the source water’s quality, air exposure, storage conditions, and inclusion of remineralization stages in the RO system.

The table below gives a quick overview of these factors.

Factor

Effect on pH

What to Do

Source water alkalinity

Higher alkalinity equals higher pH

Test your tap water as a baseline

Air exposure

More CO₂ = lower pH

Test immediately; use airtight containers

Storage conditions

Plastic allows CO₂ permeation

Use glass or stainless steel

Remineralization

Adds minerals = higher pH

Replace cartridge every 6-12 months

Membrane age

Older membrane = higher pH (less pure)

Replace the membrane every 2-3 years

System pressure

Higher pressure = lower pH (purer water)

Maintain 40-60 PSI; use booster pump if needed

Source Water Quality

Your incoming tap water’s pH and alkalinity directly impact your RO water's final pH. If the source water is more alkaline (due to addition of more dissolved minerals and bicarbonates), the final RO water will also have a slightly higher pH because some buffering minerals remain in the water even after filtration. 

In Canada, the Prairies, South Saskatchewan, North Saskatchewan, and regions in northern Alberta and the Northwest Territories have municipally treated water with high pH, ranging from 7.95 to 8.63.

Conversely, water with naturally low alkalinity, common in areas with soft water or those that have well water sources, produces RO water with low pH. Atlantic Canada and regions in Northern Ontario have low pH source water. Data collected from the survey of drinking water plants in Canada shows that the Newfoundland-Labrador drainage region’s water has the lowest average pH of 6.30.

Check your tap water’s pH prior to installing a reverse osmosis system. If the tap water’s pH falls below 7.0, your RO water is likely to have a pH between 5.0 and 6.5. This way, you have a baseline for comparison and won’t go into undue stress on seeing your RO water’s low pH.

Air Exposure

Air exposure is a direct, immediate, and significant factor that influences the RO water’s pH. Pure water attracts carbon dioxide. The instant RO water leaves the membrane and comes in contact with air, CO₂ starts dissolving in it. The result? Carbonic acid, which you already know, drops the water’s pH. In just an hour, a fresh glass of RO water’s pH drops from 7 to 5.5, or even lower at times.

Your RO water’s pH reading depends largely on when and how you test. Draw water directly from the system’s storage tank and test it immediately, and the reading will be higher compared to that of the RO water sitting in an open glass for 60 minutes.

Testing pH at the tap? Use a fresh sample of water and test its pH quickly. Testing water that has been stored for quite some time? Expect a lower pH reading, and instead of fretting, know it is normal and not at all a sign of contamination.

Storage Conditions

How and where you store the reverse osmosis water substantially influences its pH over time. Plastic storage tanks, common in older RO systems, can allow CO₂ to seep through the material over hours or days. Gradually, the water’s pH lowers.

The water's temperature also plays a role. Cold water can hold more dissolved CO₂ compared to warm water. This explains why RO water in refrigerated storage has a lower pH.

If you prefer RO water with a higher pH, do the following:

  • Store the RO water in airtight glass or stainless steel containers instead of plastic containers.
  • Minimize headspace (air gap) between the water and the container's lid to minimize CO₂ exposure. While refrigeration does slow bacterial growth, it does not prevent CO₂ absorption. 
  • For daily use, draw fresh water from your system instead of getting stored water. If you notice your stored water tastes flat or slightly acidic, it is not a quality issue, just CO₂ doing what it’s supposed to do.

Remineralization Stages

Some RO systems, such as illi water’s tankless reverse osmosis system, include a post-filtration remineralization cartridge that adds back alkaline minerals, including calcium and magnesium, to the water after it has passed through the RO membrane. The RO water regains its buffering capacity, slightly alkaline and refreshing taste, and its pH rises to between 7.0 and 8.5.

If your RO unit has a remineralization filter, your RO water’s pH will be higher than that of a standard system. The remineralization filters deplete over time, demanding replacement every 6 to 12 months, depending on usage. 

As the cartridge becomes exhausted, you may notice the water’s pH gradually dropping. This indicates it is time to replace the filter. And if your reverse osmosis water is acidic, but you prefer alkaline or neutral water, customize your RO system with a remineralization filter.

Membrane Age and Condition

As an RO membrane grows older, its rejection rate for dissolved minerals slowly declines. Older membranes may allow relatively more calcium, magnesium, and other minerals to pass through. These minerals improve the water’s buffering capacity and also increase its pH compared to a fresh membrane.

However, a rising pH over time is not necessarily a good sign. It points to your system’s aging membrane, which loses its effectiveness with time and lets more dissolved solids enter your water. The water will be less acidic, but it will also be less pure.

Replace your system’s RO membrane every 2 to 3 years to get optimal contaminant removal as well as predictable pH performance.

System Pressure and Flow Rate

RO systems demand a water pressure between 40 and 60 PSI to effectively push water through the RO membrane. Pressure below 40 PSI obstructs the membrane’s capacity to discard dissolved minerals, letting more ions, including alkaline minerals, seep through. 

The pH readings start becoming higher, and so do the water’s contaminant levels. On the contrary, optimal pressure between 40 and 60 PSI improves the rejection rates, generating purer water with lower pH.

If you have high water pressure in your house or you have installed a booster pump with your RO unit, the reverse osmosis water will typically be purer and test lower on pH. It is a sign of efficient filtration. 

Got low pressure in your house, possibly due to older plumbing, or maybe your main water source is a well? Consider getting a booster pump to improve the system’s efficiency and contaminant removal. Pressure fluctuations cause pH variations. When the pressure becomes consistent, so does the pH.

What pH Should You Expect From RO Water?

Typically, the pH range of RO water is 5.0—6.5. The table below gives a quick breakdown of the pH range of different types of reverse osmosis waters. 

Water Type

Typical pH Range

Fresh RO water

5.0 – 6.5

RO water after CO₂ absorption

5.0 – 5.5

RO water with remineralization

7.0 – 8.5

Typical Canadian tap water

6.5 – 8.5

Fresh RO water has a pH of 5.0—6.5. The pH drops when it absorbs CO₂. Add back minerals to RO water as done by certain reverse osmosis systems with additional remineralization stages, and the pH rises to 7.0—8.5. 

If your RO water’s pH drops to below 5.0, that is definitely concerning. It is likely indicative of membrane issues, problems with your water source, or low feed water pressure. If the pH is 6.5, it is likely because your system has a remineralization stage, or because your feed water is unusually alkaline.

The exact pH reading of reverse osmosis water depends on several factors, which we’ll be discussing below.

Is Acidic RO Water Safe to Drink?

Yes, acidic reverse osmosis water is completely safe to drink. Homeowners worried about this concern can rest easy now.

Let’s take a look at its safety aspect.

What Health Experts Say About Low-pH Water

The WHO, Health Canada, and the EPA do not set a minimum pH for drinking water safety. 

  • Health Canada’s operational guideline for the pH of finished drinking water falls in the range of 7.0 to 10.5. They have set this range to control corrosion in pipes and protect them. It does not relate to health. pH below 6.5 is likely to rust or corrode metal plumbing, which increases the risk of leaching metals such as zinc, copper, or lead into the water. That would be dangerous. Slightly acidic RO water? Not so much.
  • The World Health Organization recommends a pH range of 6.5 to 8.5 for drinking water. WHO explicitly states that the pH of drinking water is ‘not directly linked to consumer health concerns.’ Their range exists primarily to control corrosion and improve the aesthetics, primarily taste, of the water.
  • The U.S. EPA sets a secondary (non-enforceable) standard of pH of water between 6.5 and 8.5. This standard is for cosmetic effects, such as skin or tooth discoloration, and/or aesthetic effects, such as taste, odor, or color, and not at all for health.

Does Acidic Water Affect Your Body's pH Balance?

No, acidic water does not affect your body’s pH balance at all, and neither is acidic water bad for you. Your body maintains blood pH at precisely 7.35 to 7.45 irrespective of what you drink. This phenomenon is known as 'homeostasis,' a self-regulating process by which your body maintains internal stability while constantly adjusting to variations in external conditions. 

Your stomach acid is pH 1.5-3.5, which is far more acidic than RO water. Whenever you drink acidic water, your stomach instantly neutralizes it before it makes its way to your bloodstream.

You may have come across statements like you must balance your pH. These are all ‘alkaline marketing’ claims. Your body is capable of stabilizing its own pH perfectly without any help from the water you drink. 

When Should You Be Concerned About Water pH?

pH alone is not a direct health concern, but there are specific scenarios where the pH of RO water matters:

  • pH below 4.0: Yes, that would be unusual and is likely to point to membrane failure or chemical contamination. Get a water test, and have a professional check your system.
  • Corrosive water (pH <6.5) in metal plumbing: Low pH tends to release lead or copper from old plumbing pipes. If you have lead or copper plumbing in your home, consider a corrosion inhibitor for the pipes or a remineralization filter in your RO system.
  • Unusual cloudiness or taste: pH is not the real concern you need to worry about if you notice your water tastes different or becomes cloudy. Look for other signs of contamination. An unpleasant odor or taste suggests your water has high chlorine levels. A metallic taste indicates there may be metal contamination. Cloudiness points to sediment. And if the water results in limescale formation or leaves spots on your appliances and dishes, you may have hard water issues.

For most Canadian homes with stainless steel or PEX plumbing, the pH of RO water is not an issue.

Two Myths Worth Clearing Up

Misconceptions have surrounded RO water for quite long. Let’s debunk two of the most common myths.

Myth #1 Acidic Water Causes Health Problems Like Acid Reflux or Bone Loss

No, it does not. In fact, acid reflux is caused when the stomach acid escapes into the esophagus. Drinking acidic water does not cause acid reflux. And the cause of bone loss? That’s due to dietary calcium deficiency, not drinking water that lacks calcium. RO water only removes minerals from water; it does not affect the minerals in your body.

Myth #2: Alkaline Water Is Always Better

Promoting alkaline water nowadays is more of a marketing trend. It is not a medical necessity. Your body is fully capable of regulating its own pH perfectly. 

While drinking alkaline water may help some people struggling with acid reflux, there are no proven health benefits for the general population. Neutral or slightly acidic water is perfectly healthy, as proven by this 2022 systematic review published in Reviews on Environmental Health.

Marketers also claim alkaline water is better, stating how RO leaves dead water, which again is a myth. Reverse osmosis does eliminate 90-99% of contaminants from water, but it also strips the water of many minerals. 

However, what we forget is that we get 99% of our daily minerals from food, not water. A glass of milk provides us with more calcium than 100 gallons of tap water. RO water is not dead at all, it is pure, clean H₂O. If you are concerned about your health, eat a balanced diet or add a remineralization filter to your RO system.

How to Raise the pH of RO Water (If You Want To)

Still prefer drinking neutral or alkaline water? Well, you have the right to. Here are the best options to increase the pH of water produced by RO systems.

Install a Remineralization Filter

This is the best available solution to raise your RO water’s pH. A remineralization cartridge rejuvenates minerals, such as calcium and magnesium, in the RO water. The pH of the water rises to between 7 and 8, and its taste also improves remarkably.

Use an Alkaline Filter Stage

You can add an alkaline filter to your RO water filtration system. These filters use magnesium oxide or calcium carbonate to increase the water’s pH. 

Some alkaline filters even use electrolysis or ceramic balls. Their effectiveness varies by brand. Choose a reputable brand, and remember that like other filters, alkaline filters too exhaust over time and need replacement every 6 to 12 months.

Store RO Water Properly (Minimize CO₂ Absorption)

Since RO water absorbs CO₂ from air, you can lower its pH by storing it in an airtight glass or stainless steel container, but not plastic, please. 

Avoid leaving water exposed to air for hours. And store the container in the refrigerator, as cold water holds less CO₂. This helps in increasing the water’s pH but doesn’t fully neutralize it.

Adjust Source Water Conditions

This option has limited impact, but if your source water is extremely soft or low-alkalinity (e.g., some well water or rainwater), the RO output will be even more acidic. 

Pre-treating source water with a calcite filter before RO can help, but this is rarely necessary for municipal water. For most Canadians, this is not needed.

Frequently Asked Questions

Is RO water more acidic than bottled water?

No, RO water is not more acidic than bottled water. Many bottled waters test at pH 5.5 to 6.5 such as Aquafina and Dasani. Some spring waters are pH 7 to 8. RO water has a pH from 5 to 6.5, just like that of many bottled water.

Should I worry if my RO water has a pH below 7?

No, there is nothing to worry about if your RO water has a pH below 7, ranging from pH 6.0 to 6.5. It is normal for RO water. If your pH drops below 5.0, test your source water and check your membrane. Otherwise, there is no health concern.

How quickly does RO water become acidic after filtration?

RO water immediately becomes acidic after filtration. The instant treated water passes through the membrane, it gets in touch with air. That’s when CO₂ dissolves and pH drops. This happens within minutes. 

Can I mix RO water with tap water to balance pH?

Yes. If you mix RO water with tap water (which contains alkaline minerals), the pH of the water mixture rises. A 1:1 ratio of RO to tap water blend typically results in a neutral pH 7. However, this also reintroduces tap water contaminants. Adding a remineralization filter to the RO setup is a better solution to balance the RO water’s pH.

Can RO water erode teeth?

Drinking RO water does not immediately erode or negatively affect your teeth like acidic drinks do, but RO water does have the potential to harm your teeth. RO water doesn’t contain the alkaline minerals that buffer the water’s pH. Over time, consuming RO water regularly starts to demineralize your enamel and eventually erode it.

The Verdict: Don’t Sweat the pH of RO Water

RO water is acidic because the reverse osmosis process removes minerals from the water that act as buffers to stabilize the pH. Secondly, the instant CO₂ dissolves in water, it forms carbonic acid, which further drops the water’s pH. Slightly acidic RO water lies from pH 5 to 6.5, which is completely normal and safe. And since your body maintains its pH, you need not worry about the low pH RO water harming your health at all.

For most Canadian homes, the slightly acidic RO water is not a problem. RO water is clear of harmful contaminants such as microplastics, arsenic, PFAS, and heavy metals and is good for your well-being. But if you still prefer the taste of slightly alkaline water, add a remineralization filter to your RO system to raise the water’s PH. 

Unsure of which RO system to get for your home? Take illi water’s quick system quiz right away to make the right call.

 

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