Acid Neutralizer for Well Water in Montgomery County, Maryland
Acid Neutralizer for Well Water in Montgomery County, Maryland
Last updated: Feb 2026
Written by Aidan Walsh (Mid Atlantic Water)
32 years installing, repairing, sizing and shipping whole-home well water systems. I'm hands-on with this stuff every week.
Quick summary: If your well water pH is below 7.0, it's acidic. Acidic water eats plumbing and fixtures. Montgomery County estimates about 17,500 properties in the county use an onsite well for their water supply, so there are a lot of well homes here that could be tested for acidic water. For most homes, 2.5 cu ft is the most recommended size because it handles demand better and cuts down on top-off frequency.
If this is you - do this
- pH 6.0 to 6.9 and low iron - Non-backwashing upflow calcite neutralizer (simple, no drain, septic-friendly).
- pH below ~5.5 - Use a calcite + Flomag (magnesium oxide) blend (calcite alone is often too slow at very low pH).
- Iron or heavy sediment - Backwashing neutralizer (and if you are backwashing, Vortech is preferred for higher flow and more effective cleaning).
- On septic - Backwashing can be fine, but make sure your septic system is in good working condition and can handle the extra discharge. Avoid backwashing unless iron or sediment forces it.
Why Montgomery County homeowners run into low pH well water
In Montgomery County, public water service is provided by WSSC Water or one of two municipalities - the City of Rockville or the Town of Poolesville. In the lower-density suburban and rural areas of Montgomery County where public service is usually not available, the County notes that private onsite systems (wells and septic systems) provide water supply and wastewater disposal service.
DEP estimates that approximately 17,500 properties in Montgomery County use an onsite well for their water supply, and that most onsite systems tend toward the western and northern parts of the county. That matters because if you're on a private well, your water quality is whatever comes out of the ground on your lot, not what a utility adjusts and stabilizes for you.
Much of Montgomery County sits in Maryland's Piedmont Province. In the Piedmont, groundwater commonly occurs in rock fractures (a fractured rock groundwater setting), and most groundwater is stored in the weathered bedrock (saprolite) over solid rock. Water from these settings can look "clean" but still have low buffering power (low alkalinity). When buffering is low, the pH can run low, and once it's low enough you get corrosion. People replace plumbing parts, fixtures, toilets, water heaters, and they never fix the actual cause.
This is treatable. You do not need to guess. You test the water, then you choose the right neutralizer type and size.
How common is this around here, and why?
Low pH (acidic) well water is one of the more common "quiet" problems because the water can be clear and still be aggressive. In Montgomery County, it tends to show up in the parts of the county that rely on onsite wells, because the pH is not being adjusted by a public utility before it reaches your house.
What "pH" means in plain English
The pH scale runs 0 to 14. 7.0 is neutral. Anything below 7 is acidic. The lower the number, the more aggressive the water is.
pH is logarithmic. Water at 6.0 is about 10x more acidic than 7.0. Water at 5.0 is about 100x more acidic than 7.0.
What makes Montgomery County different town to town
Montgomery County is a mix of public service areas and onsite well areas - and the County notes that WSSC Water provides the majority of public water and sewer service available in Montgomery County. That is why I do not "size by county." We size by your test and your flow needs.
Also, if you're seeing corrosion and you're using water softeners, high chloride, or you have a lot of plumbing repairs in the past, those factors can stack. Low pH is often the main driver, but it's not always the only one.
We've solved this exact problem in Montgomery County homes
We've helped over 2,000 homeowners across Maryland fix low pH (acidic) well water since 1997, with many of those in Montgomery County.
When I hear "metal taste," "blue-green tub stains," "pinhole leaks," or "shower heads failing early," I already know where this is headed. You can keep swapping parts, or you can neutralize the water and stop feeding corrosion.
The warning signs are usually obvious
- Metallic taste (especially in homes with copper plumbing).
- Blue-green stains in tubs and showers (copper corrosion).
- Pinhole leaks, failing shower heads, running toilets, degraded rubber seals.
If your home was built before 1986 and has copper plumbing, there's another reason to take this seriously: older copper lines were often joined with lead solder. Acidic water can speed up corrosion issues. Don't guess. Test the water.
Best solution for most well homes: a whole-home acid neutralizer
An acid neutralizer is a tank filled with food-grade calcite limestone (and sometimes a calcite + Flomag blend). You install it right after the pressure tank. As water passes through, it raises pH and helps stop corrosion.
What it beats, and what it does not do
- It beats "doing nothing": corrosion keeps going until you stop it.
- It beats random part replacement: you fix the cause, not the symptoms.
- It is usually simpler than chemical feed (soda ash): fewer moving parts, no pump, no solution tank, less babysitting.
- It does not remove iron, sulfur, or bacteria: it's for pH correction. Those problems are separate.
Non-backwashing vs backwashing: which one is best?
| Type | Best for | Pros | Cons |
|---|---|---|---|
| Non-backwashing (upflow) | Most well homes with low pH and low iron | No drain, no electricity, simple install, no backwash dumped into septic | Not the best fit if you have heavy iron or heavy sediment |
| Backwashing | Homes with iron or sediment where media needs periodic cleaning | Helps prevent media fouling in tougher water | Needs electricity + drain line, dumps 100 to 150 gallons per cycle, more moving parts. If you're on septic, make sure it's in good working condition and can handle the discharge. |
When iron is not the problem, our default recommendation is the non-backwashing upflow neutralizer. Simple. Fewer parts. Less hassle.
Vortech vs gravel-bedded tanks
On backwashing systems, you'll see traditional gravel-bedded tanks and Vortech-style tanks. Vortech allows higher flow rates and more efficient, more effective backwashing. If we're building a backwashing neutralizer, Vortech is usually our preferred platform.
See acid neutralizers | Non-backwashing options | Backwashing options
Video: how an acid neutralizer works (5 minutes)
This shows what the tank is doing, where it gets installed, and why calcite works without chemicals.
How to size an acid neutralizer for your home
Sizing is based on three things: (1) your pH, (2) how many bathrooms can run at once, and (3) how many people live in the home.
Common sizing mistakes I see
- Buying too small because it is cheaper. You end up topping off constantly and the pH is less stable at high flow.
- Ignoring iron and sediment. If your water fouls the media, a non-backwashing tank may underperform.
- Assuming "county average" applies to you. It doesn't. Test the actual water and size around your peak demand.
Simple sizing guide (based on pH)
| pH Range | Typical Media | Typical Size | My take |
|---|---|---|---|
| 6.0 to 6.9 | Calcite | 1.5 to 2.5 cu ft | Works in many homes. If you want lower maintenance and better handling of demand, go bigger. |
| 5.5 to 6.0 | Calcite (often upsized) | 2.0 to 2.5 cu ft | 2.5 cu ft is the most recommended for most homes because it is the safe, low-hassle pick. |
| Below ~5.5 | Calcite + Flomag blend | Needs review (often 2.5 cu ft+) | Below ~5.5, calcite alone is often not enough. A calcite + Flomag mix is typically used to raise pH fast enough to protect plumbing. |
Most homeowners don't want constant maintenance. That's why the 2.5 cu ft unit is the most common choice for us. More media usually means less frequent top-offs.
If you want us to size it: send us your pH, how many bathrooms, and how many people live in the home. That's enough to give you a straight answer on size and type.
2.5 cu ft non-backwashing (common pick)
2.0 cu ft non-backwashing
1.5 cu ft non-backwashing
How to test for acidic well water (do this before you buy anything)
Do not buy equipment first and "hope it fixes it." Test first.
Minimum test
- pH
- Iron and sediment (helps decide non-backwashing vs backwashing)
Smart test (if you have corrosion symptoms)
- pH
- alkalinity
- hardness
- iron and manganese
- TDS
- copper (if you have copper plumbing and symptoms)
- lead (especially if your home is older or you suspect old solder)
If you want accurate metals results (lead, copper), use a state-certified lab. Maryland's Department of the Environment runs a Drinking Water Laboratory Certification Program and maintains a list of state-certified drinking water labs. A basic home kit can help you screen pH, but lab testing is the right move when metals are on the table.
Note: Heated acidic water can be more aggressive than cold water and can shorten the life of water heaters and fixtures.
Example Montgomery County patterns (not customer stories)
These are example patterns for Montgomery County well homes, using real place names but not real customer stories. Your exact sizing comes from your test results and peak flow needs.
| Area | Problem severity | Solution installed | Outcome |
|---|---|---|---|
| Damascus area (older well home) | pH in the mid 6s, copper staining | 2.5 cu ft non-backwashing calcite | Staining slowed down, fixtures stopped getting chewed up |
| Poolesville area (well + septic) | pH low 6s, homeowner replacing valves often | 2.0 to 2.5 cu ft non-backwashing calcite | Corrosion symptoms stabilized, lower maintenance than chemical feed |
| Germantown area (high demand household) | pH around 5.8 to 6.0, multiple baths | 2.5 cu ft upflow calcite, upsized for flow | More stable pH at peak use, fewer top-offs |
| Clarksburg area (iron present) | Low pH plus iron that fouls media | 2.0 to 2.5 cu ft backwashing neutralizer (Vortech) | Media stayed cleaner and performance stayed consistent |
| Gaithersburg area (very low pH) | pH below ~5.5, corrosion moving fast | Calcite + Flomag blend (often 2.5 cu ft) | pH came up faster, corrosion risk reduced |
DIY install vs hiring a local installer
If you're somewhat handy, you can install a non-backwashing acid neutralizer in about 2 to 3 hours. It's basically an inline tank install: inlet, outlet, bypass, and a flush procedure.
DIY is a good fit if:
- You can shut off water, cut pipe, and make clean connections.
- You have room right after the pressure tank.
- You're comfortable handling media and following a flush procedure.
Hire a pro if:
- Your plumbing is tight, corroded, or needs rework to add a proper bypass.
- You need a backwashing unit (drain line, electrical, programming).
- You're on septic and want the discharge routed correctly and responsibly.
Most people DIY for one reason: you can save $1,000+ in labor on the same equipment. If you do not want the headache, hire it out and be done with it.
FAQ (5 common questions)
1) What pH should I be aiming for?
For most homes, you want to get out of the corrosive range and into a stable, neutral zone. If you can hold pH in the mid 6s to 7s, you usually stop the corrosion problems. Your lab report and your plumbing symptoms matter here.
2) Will an acid neutralizer remove iron, sulfur, or bacteria?
No. It's for pH correction. If you have iron, sulfur, or bacteria, you treat those separately (or with a properly designed combo system).
3) Does an acid neutralizer add anything to the water?
It dissolves a small amount of calcite as it neutralizes. That's the point. It can slightly increase hardness, depending on your water.
4) How often do I need to add more calcite?
It depends on how low your pH is and how much water you use. Check the media level periodically. Most homeowners review it at least once a year.
5) Should I use a backwashing neutralizer in Montgomery County?
Only if your water has iron or heavy sediment that will foul the media. Otherwise, non-backwashing upflow is simpler, cheaper to run, and easier on septic systems.
On septic: If you do need a backwashing system, make sure your septic system is in good working condition and sized and maintained properly to handle the added discharge.