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Green Living,  Irrigation,  Plan - Design - DIY

Rainwater Collection Systems 101 & FAQs

Last Updated on August 10, 2023

Rainwater collection, also known as “rainwater harvesting”, is an excellent way to offset some of your irrigation water use from other sources. It is also an easy way to obtain and store desirable chlorine-free water for those of us otherwise reliant on chlorinated city tap water. Our seedlings, air plants, cannabis, and compost tea microbes love it! The concept is pretty simple – collect rainwater from a downspout and then use it to water plants, right? Sure, that is the idea! Yet not all rainwater harvesting systems are alike, nor do they fit every climate, situation, or intended use. 

Read long to learn the basics of rainwater harvesting, including tips for setting up and using a basic rainwater collection system at home. This article covers rainwater tank options, supplies, and info to help choose what type of system may best suit your climate or needs. We’ll go over frequently asked questions – such as rainwater collection laws, water contamination and bacteria concerns, mosquito breeding, how to keep rainwater tanks clean, and more. 

Disclosure: This post may contain affiliate links to products for your convenience, such as items on Amazon. Homestead and Chill gains a small commission from purchases made through those links, at no additional cost to you.


Rainwater Harvesting Laws

Before you get started, make sure you can legally collect rainwater at all! As crazy as it sounds, capturing rainwater is illegal in some places. Therefore, check with your local and state laws before investing in rainwater tanks. Here is a list of rainwater-related laws by state in the US. Thankfully, rainwater harvesting is legal and encouraged in most locations. 

What Size Rainwater Tank Should I Get?

The answer to this question depends on several things, including what you intend to use the rainwater for, and perhaps most importantly: your climate. If you get frequent rain throughout the year, you can get by with fewer and smaller tanks – such as average 50-gallon drums. As you use the water, the tanks are able to refill more often with periodic rain. 

In contrast, some places have a distinct “rainy season” with otherwise dry weather the rest of the year. For example, it only rains during the winter here on the Central Coast of CA. Therefore, we need enough tank capacity to catch and store as much rainwater as possible during our short 4-month rainy season – to last until next winter. One 50-gallon barrel would not last us long!

To take full advantage of our limited rain supply, we have one smaller 140-gallon rain barrel and two large 530-gallon “slimline” rain tanks – for a total of nearly 1300 gallons of rainwater storage capacity on this homestead! We’ll talk more about various tank options below.

DeannaCat is standing next to the newly purchased 530 gallon slimline rain tank. This is a great tank for rainwater collection in narrow spaces. There are two pallets of pavers and stones sitting in front of them, though these are for a separate project unrelated to the rain water tank.
Bringing home our second 530-gallon Bushman slimline BPA-free rainwater harvesting tank

Roof Surface Area vs Tank Size

Assuming that you’re planning to catch rainwater that falls on your roof, keep in mind that your rainwater tanks will fill up WAY quicker than you’d expect them too. A storm that dumps one inch of rain does NOT mean that you will collect one inch of rain in your rainwater tank. To figure out how much rain you could collect in a storm, consider the entire surface area that the rain falls on and is collected from.  

Consider this example scenario:

  • Say you have a 2,000 square foot house.
  • Your roof has a pitch in the middle. If you hook up a rain barrel to a gutter downspout on one side of the house, you are capturing the rain that falls on that one half of the roof – maybe 1000 square feet. Let’s say the approximate size of the roof is 50’ x 20’.
  • A nice little storm comes through with 1 inch of rainfall. 
  • If you convert your 50’ x 20’ roof area to inches, it is 600” x 240”. Multiply that by the 1” of rain to get the volume of rainwater in cubic inches. 600” x 240” x 1” = 144,000 cubic inches of rain.
  • The standard conversion for water is 1 gallon = 231 cubic inches. Thus, if we divide 144,000 by 231, that means….

…it is possible to capture up to 623 gallons of water from a 1000 square-foot roof in just a single 1-inch rainstorm!

As you can see, a modest 50-gallon rain barrel is going to overflow very fast. Plus, right after a storm, you don’t need to water anything outside! So the barrel will sit full, and overflow with every subsequent storm. That is all precious rainwater you could otherwise be capturing.

Different Types of Rainwater Collection Barrels or Tanks

Rainwater collection tanks come in all shapes and sizes. Really! Some tanks have a classic cylinder shape, or some more angular, designed to fit into corners. Our 530-gallon slimline rain tanks look like giant Cheez-Its, with sections missing in the middle for structural support. Other rainwater collection systems are less rigid, such as giant bladder or bag-type containers designed to fit in the space under a house or deck. Some rain tank are available in BPA-free drinking-water grade plastic (further discussed in the contamination section to follow).

Sizes range from 50-gallon barrels to massive 5,000 gallon water tanks and beyond. Many folks daisy-chain multiple smaller containers together by either connecting them with pipes at the bottom, or allowing them to overflow into each other – cascading from one tank to the next. When our tanks are overflowing, we store excess rainwater in 5-gallon buckets and large trash cans too. 

Truth be told, any type of sturdy water storage tank, barrel or container could be used for rainwater storage tank! Especially if you are handy and able to retrofit it to have the components described below.

A rain water capture system is shown that consists of four earthen looking cisterns sitting in a row. The gutter downspout is connected to the top of the first barrel and each one is connected to each other by a hose that is connected to each barrels spigot which is located at the bottom of each barrel. They are sitting on a raised wooden platform. This is a fairly common set up for many people who utilize rainwater collection.
Many smaller rainwater barrels “daisy-chained” together at the bottom, with one tap to fill containers on the far left. Image courtesy of Indiana Environmental Reporter.

No matter the size or shape, a rainwater collection tank should ideally have all these common elements:

  • An inlet or downspout to direct the rainwater into the tank, generally on top but covered with a screen.
  • An outlet that allows you to dispense and use the collected rainwater, usually near the bottom. For large tanks, a hose bib that you can connect a hose to is ideal.
  • Made of a non-transparent material that does not allow sunlight through, unless you can completely cover it with a tarp (or paint) to block the sunlight. Sunlight + Water = Algae.
  • Have fine-mesh screens securely in place over all openings to prevent the entry of insects, pests, or debris.

A simple single rainwater barrel, elevated and with a hose tap.
A digram of a rain water capture system. It shows rain landing on a roof, which goes to a gutter, to a downspout, which eventually connects to a rain water tank. It also shows a first flush diverter, overflow pipe, and another outlet with a hose bib for easy use.
Example of a more elaborate rainwater collection system, courtesy of

Where Can I Buy Rainwater Barrels or Tanks?

Check with your local water tank supply company. These businesses carry large water tanks primarily designed for drinking or irrigation water storage, such as for a rural home or farm. Again, you could convert most traditional water tanks for rainwater storage quite easily. Or, perhaps they’ll carry tanks specifically designed for rainwater harvesting systems too! If they don’t have what you’re looking for on hand, ask about the options and availability of special orders.

Both large and modest-sized rainwater tanks are available to purchase online too. However, it may be expensive to ship big tanks, so going local could save you a bundle! We were able to find our rainwater tanks at a water tank company, but later noticed they also carry many of the same tanks at our local Farm Supply store as well. 

Is the Cost of a Rainwater Collection System “Worth It”?

That is ultimately a personal decision, determined by your situation and motives. Depending on the cost of your regular water supply versus the expense of setting up a water collection system, it may take several years to “pay off” or equal out. Yet for some, harvesting rainwater isn’t just about saving money.

Some people like to collect rainwater for environmental and ethical reasons – to feel good about offsetting at least a portion of their water use. Especially in areas where water is scarce and/or expensive. Others have a strong desire to have a supply of easily accessible chlorine-free water, like my friend with a serious orchid and tillandsia hobby. Additionally, some folks feel more self-sufficient and secure to have water stored at home in case of emergencies. Our motives are inline with all of the above. On the other hand, some places utilize rainwater as their primary source of household water!


Here are a few important factors to consider as you choose your rainwater tank and figure out your collection system design. 

Location for a Rainwater Tank

Choose a location near a gutter downspout for easy filling. Yet depending on the size of your tank or layout of your property, that may not always be feasible. If needed, it’s possible to add downward-sloping runs of gutter or pipes to passively transfer the rainwater from the roof area to a tank in the general vicinity. We installed section of gutter that delivers our rainwater over our chicken run and into a tank inlet about 12 feet away. Another more complex option is to pump the water from a small collection area into a larger tank. 

It also ideal to locate the tank somewhere convenient to access and use the rainwater, such as to fill up a watering can. That is, unless you intend to pump it to the point-of-use. The tank should be located on a sturdy and level foundation or base. Thankfully, most water tanks are so heavy once they are full that it would be very difficult for them to topple over. Support straps are recommended for those elevated on platforms.

The view from the roof of a house, it shows a four foot gutter section that has been affixed to a valley of the roof. A downspout is connected to the gutter system and is connected to a rain water tank about ten feet away from the gutter. The downspout travels over the top of a chicken run to where the tanks reside. A greenhouse is located in front of the tanks and chicken run, showing how you can take advantage of minimum space.
It is a little awkward, but our best option to fit large rainwater storage tanks was on the side yard near the largest valley/runoff area on our roof. Yet the area was already fairly crowded with the chicken run and greenhouse, so we opted for these tall and narrow “slimline” Bushman rainwater tanks. They tucked nicely behind the chicken run, and we can still access the hose spigots at each end. We use a lot of our rainwater in the greenhouse for seedlings, so it is quite convenient!
A three way image collage, the first image shows the two rain tanks connected at the bottom of each tank by a hose bib that is connected to a thick pipe. Each one can be opened to  allow the water from one to flow into the next. The second image shows a hose bib connected to a small section of hose at the opposite end of the rain tank as previously shown. This is where the rain water is harvested from fro use in the garden. The third image shows the other rain tank and the hose bib connected to the bottom with a hose lying nearby for easy use.
Our two slimline rain tanks are connected in the middle with a hot water heater hose (we needed something flexible, drinking water safe, and durable for outdoors) and valves so we can close off each tank. Rainwater collects in the first tank, and we open the valves between them to fill the second tank once the first one is full. On each far end of the system, a hose bib is easily accessible on each tank.

Take Advantage of Gravity: Head Pressure

If you look through images of rainwater collection systems, you may notice many smaller tanks are elevated on a sturdy, level platform. This serves two purposes:

One, most tanks have a tap or spigot at the bottom. In order to fill a watering can or bucket, you need some space below that tap to fit the container.  Plan to elevate your tank at least slightly if you don’t intend to use a pump and have a fairly small tank.

Two, elevating a tank takes advantage of gravity. Water is heavy and exerts weight, pressing down on itself. This is referred to as “head pressure”. The larger the volume of water and the taller or higher the tank, the more head pressure it exerts. This means that a very large, tall tank will create enough head pressure to potentially connect a hose to – and have the water run through it at a decent rate. However, do not expect to connect a full-blown irrigation system to a rainwater tank without the assistance of a booster pump, unless perhaps it all runs downhill from the tank.

On the other hand, smaller and shorter tanks exude less head pressure. Thus, if a small rainwater tank sits directly on the ground, you likely would not be able to connect a hose to a tap at the bottom and get enough pressure to fill containers (let alone water with a hose directly from the tank) – as the hose would have to go upwards to get into a container. The weak water pressure will not be able to overcome the force of gravity, or will trickle very slowly. 

A rain water collection system shown next to a plastic shed, the smaller rain barrels are connected to a downspout which is connected to a gutter that is hanging from the sheds roof.  The barrels are elevated on a wooden platform and a hose is connected to one of the barrels hose bibs which is filling a watering can.
Elevated rainwater barrels, taking advantage of gravity to fill watering cans. Note that this system collects rain from shed roof – which brings up a great point! Rainwater collection systems can be installed around any structure with decent surface area to catch rain. Photo courtesy of Brooklyn Farm Girl.

Keeping Your Rainwater Tank Clean with Screens

The best way to keep your rainwater tanks clean is to prevent the entry of debris in the first place! To prevent junk from getting in your rain tanks, it is important they have fine-mesh screens at the inlet. The screens should be fine enough to keep out leaves, sloughing from asphalt roof shingles, insects, or other small critters. One of the perks of using a tank designed especially for rainwater harvesting is that they typically come equipped with screens. See the photo of our rain tank screens below.

In addition to screens on the tank itself, you likely also want to add initial screens to the gutters or downspout to catch leaves, twigs, or other larger material before reaching the tank screen – which also helps keep that area more clean. 

First Flush Diverters

A step beyond screens is to add a “first flush diverter” (aka roof washer) to your rainwater collection system. A first flush diverter is a contraption that redirects the first purge of water coming from the roof during a storm away from the rainwater tank. This essentially washes away and prevents capturing the sediment, dirt, and debris that has accumulated on the roof since the last rain.

We do not have first flush diverters. However, they’re highly recommend for folks who receive excessive roof debris, or anyone interested in potentially drinking their rainwater. We’ll talk about drinking rainwater in a moment, along with routine tank maintenance and cleaning.

A diagram of a first flush diverter, it shows that while the chamber is filling it will release the rain water as runoff until the chamber is full wherein, once full, the water will flow across the piping into the tank.
A first flush diverter valve. Photo courtesy of RainBank

How to Prevent Algae in Your Rainwater Tank

Algae is a common concern in any water storage tank. As we already briefly discussed, the best way to prevent algal growth in your rainwater tank is to always use an opaque tank that does not allow sunlight in. Even then, a small amount of algae may be introduced from roof runoff, but will not be able to flourish inside. Other ways to combat algae include treating the water with chlorine or other algaecide additives. In my opinion, that sort of defeats the purpose of collecting pure water. Even after sitting in our tanks for nearly 9 months, our rainwater has only a very slight green tinge to it!

Can I Capture Rainwater If I Don’t Have Gutters?

Yes! You can totally set up a rainwater harvesting system even if you don’t have gutters. Our house doesn’t. All you need to do is find a location along your roof line (assuming it is sloped) where rainwater naturally collects and streams down most heavily. This will commonly be in a corner, or at the low point of a valley in the roof. Then, create your own little gutter or downspout! 

In our front yard, we fashioned up an old copper funnel attached to the eaves. To that, we attached tubing that fit snugly over the funnel’s bottom hole and ran it to the top of our 140-gallon rainwater tank. On our side yard, we installed a small section of gutter below a valley with heavy runoff, including a section of downspout. We “glued” end cap pieces on each open end of the short 3-foot section of gutter with waterproof silicone. That way, all the water caught in the gutter is directed down the spout to our two 530-gallon rain tanks nearby.

A view from the top of a rain tank, it shows a downspout connected to a gutter, traversing a chicken run and connected to the top of the rain tank. There are solar panels on top of the run next to the tank which power fans that are inside the greenhouse which is visible from the tank.


Risk of Bacteria Contamination in a Rainwater Harvesting System

Rain. It seems so clean and refreshing, right? Rainwater that falls directly from the sky is generally quite clean. Although, it does have the potential to pick up local airborne particulate matter or pollutants as it falls. Furthermore, rainwater will only stay as clean as the container it is stored in. Rainwater collected from roof runoff can easily be contaminated in a number of ways. Dirt and debris on the roof can introduce bacteria. Better yet, wild animals who walk or poop on the roof can introduce nastier bacteria, viruses, or parasites such as E.Coli or Giardia.

Because of this, you do need to be cautious about how you use your rainwater. Don’t be too alarmed though! It’s not as scary as it sounds. See the “Using Captured Rainwater” section to follow.

Rainwater Tank Material and BPA Contamination

Aside from bacteria growing in your tank, another common concern is chemicals leaching from the tank itself. As water sits in a tank in contact with plastic, there is a chance for some migration of chemicals from the plastic to the water. This is especially true when the plastic is exposed to heat, such as in direct hot sun, or when the water is stored for a prolonged period of time. However, does that contamination make it into the plants you water?

There have been fairly limited studies on plants abilities to uptake BPA, and most are done using unrealistically high concentrations of BPA. However, this study was performed with lower, more realistic concentrations of BPA (and other endocrine-disrupting compounds) found in waste water. The study found that lettuce and collard greens did uptake a significant quantity of BPA into their roots, but only a tiny bit into the above-ground stem and leaf tissues. Therefore, I would be particularly cautious using rainwater from a non BPA-free tank on root crops such as carrots, radishes, potatoes, beets, or turnips.

When we were shopping for rainwater collection tanks, I found that most small rainwater barrels were not listed as BPA-free. As you move into larger tanks, it is easier to find BPA-free plastic options since many are also designed for drinking water use. We were eventually able to find BPA-free options, though at a slightly higher cost. The classic blue barrels designed for emergency drinking-water storage are BPA-free, though they don’t usually come ready for rainwater collection with spigots, inlets, filters, and so on.

Do Asphalt Roof Shingles Contaminate Rainwater?

Our roof is made of asphalt shingles, and I will say this much: I don’t let that stop us from collecting rainwater! There is some risk for the less-than-ideal substances found in asphalt shingles to get into your rainwater. However, “what” and “how much” depends on the age and condition of the roof. Very old roofs (pre 1980-ish) may contain asbestos, which was later banned. Brand new roofs give off a higher concentration of dissolved organic carbon (DOC), yet that is only hazardous if it is combined with chlorine and creates dioxin. Other common shingle roof contaminants include zinc and iron. In some wet locations, asphalt shingles may be pre-treated with moss killer. 

If your intention is to irrigate plants with the rainwater you collect, I wouldn’t worry too much about this. We’ll talk about what amazing natural toxin-buffers soil, worms, and compost can be in a moment. Yet if you hope to consume your rainwater, advanced treatment would be recommended. 

How Do I Prevent Mosquitoes from Breeding in My Rainwater Tank?

You know those debris screens we talked about? That’s how. As you likely know, mosquitoes breed in standing water – and open rainwater tanks are a mosquito magnet!

In order to prevent mosquitoes from breeding in your rain tank, you must prevent them from accessing the inside of the tank altogether. Ensure that every opening on your tank is equipped with a tight-fitting, completely sealed, fine-mesh insect screens. This includes the inlet area, any overflow outlets, or vents. 

A two way image collage, the first image shows the inlet screen of a rain tank before it has gotten any use, it is clean with no debris to speak of. The second image shows the inlet screen after a season of rain collection, there are leaves. roof debris, and miscellaneous  other debris that has been collected in the screen. Keeping the inlet screen clean will help a lot to fully utilize your rainwater collection system.
Our tanks inlet screen new versus after a season. It captured many now-dead beetles trying to enter the tank, along with bits of asphalt from the roof and a few leaves. Most of the bigger debris is stopped at the screens on the gutters.


Hand Watering versus Pumps

Most basic rainwater collection systems require the user to manually gather and distribute the rainwater to target plants, such as by filling watering cans or buckets directly from a spigot or valve near the bottom of the tank. This is how we utilize our rainwater at the moment. If the tank design creates enough head pressure (see gravity section above) then it may be possible to attach a hose and water nearby plants with it. Large elevated or uphill tanks could potentially have gravity-fed drip irrigation systems connected to them. 

As an alternative to hand-watering, you could choose to outfit your rainwater collection system with a booster pump. Small pumps are used to create pressure to deliver the rainwater through larger irrigation distribution systems. We have our eye on this little affordable 1 HP pump that gets great reviews, and may invest in one soon!

The use of a booster pump is most advantageous if you have a large rainwater collection system (e.g. 500 stored gallons or more) or have frequent rainfall to refill smaller tanks. A pump and extensive watering will quickly empty a small rainwater tank. 

A rain water tank is shown tucked into the corner of a front porch. There is a vintage funnel that is used to catch the water underneath a valley of the roof. The funnel is connected to a large plastic pipe that is connected to the water storage tank. A rainwater collection tank of this size will fill up quickly in a good rain storm. There are many plants surrounding the water tank such as Japanese Aralia, asparagus fern, jade, along with a few others.
Our smaller Polymart 125-gallon rainwater tank in the front yard garden. It actually holds about 140 gallons when completely full! We use buckets and watering cans to draw water from it. This tank would empty too quickly with the use of a pump (and not refill for months), though a booster pump would work well with our larger tanks. There is a screen on top of the funnel, along with the top of the tank.

Using Rainwater to Water the Garden (or Other Plants)

Rainwater can be used to water anything that needs it! If you have a petite garden, a decent rainwater collection system, and frequent enough rain to keep it full most of the time, it may be possible to water your garden primarily with collected rainwater. On the other hand, our garden is far too extensive (and our rainwater supply too modest) for us to water the vast majority of our plants with it. Furthermore, it would be too time consuming – since we water by hand with rainwater! Therefore, our garden beds, fruit trees, and perennials receive most of their water from an automated drip irrigation, soaker hoses, and city water. Check out this article for more garden irrigation solutions and ideas.

Rainwater is pretty dang precious, and plants LOVE it! Due to our limited supply, we use rainwater on our most spoiled and chlorine-sensitive plants. For example, to water our cannabis plants, seedlings in the greenhouse, air plants, and house plants. We also use rainwater to make actively aerated compost tea, for big batches of fresh aloe vera water as a soil drench for newly transplanted trees, and other special projects. In a pinch, another way to provide chlorine-free water is to filter your tap water with carbon hose filter. (Click on any of the links in this paragraph to learn more about each of those subjects)

Three five gallon buckets are full of clean rain water, the water is being used for worm cast tea. There are two snake bubblers, one each in two buckets. The water has turned brown from the worm castings and will create a nutrient rich tea for the garden.
One of our favorite uses for rainwater. Making actively aerated compost tea with worm castings from our worm compost bin… Or shall I say, making our garden’s favorite drink!

Is Rainwater Too Acidic for My Plants?

With an average pH of 5.0 to 5.6, rainwater is mildly acidic. It just so happens that the vast majority of plants prefer slightly acidic soil (6.0 to 6.5) over neutral or alkaline soil. Rainforests sure seem happy! Healthy soil and compost acts as a buffer to stabilize pH. However, soil exposed to frequent heavy acidic rain may become overly-acidified. If this is a concern, test the pH of your soil with a simple pH meter. Use limestone to naturally raise the pH of soil as needed. (Though we have never had this issue) 

Will Rainwater Contaminate My Edible Crops?

Because of the potential for bacterial contamination, it is best to avoid direct contact between untreated collected rainwater and the edible portion of your crops. Especially leafy greens, or something you are not going to cook before consuming. However, it is safe to use rainwater to irrigate the soil that food crops are growing in! Soil, compost, and worms are excellent at buffering and purifying bacteria and even toxins. 

Vegetable crops become tainted with bacteria when contaminated water is applied in heavy concentrations and bacteria adheres to the plant surface – not by bacteria being drawn up from the soil and into the plant tissue. Simply water close to the soil line around the perimeter of the plant, and avoid splashing and spraying it about.

Don’t let this freak you out! Watering soil with rainwater creates less potential risk than the damn birds, rodents and opossums running around your garden beds do! If you are extra nervous, use it to water trees, house plants, ornamentals, and or other non-edibles.

The understory of a garden bed containing many veggies is shown. There is a watering can dispersing water onto the soil around the vegetables. This illustrates when using rain water it is best to be sure to water the soil and not the plants themselves, just in case the water is contaminated with something from either the roof or water storage tank itself.
Watering the soil between and below edible crops with rainwater.

Can I Drink Collected Rainwater?

The answer to this question is: it depends! The safety of rainwater consumption varies wildly depending on how it was collected, stored, or treated. Rainwater that falls directly from the sky and hasn’t been in contact with a roof or other surfaces is relatively safe to drink as-is, untreated. That is, unless it is rain falling in a nuclear hot-spot like Chernobyl. 

We’ve already discussed the various risks and sources of contamination that may impact the quality of rainwater collected from roof runoff: bacteria, algae/mold, viruses, parasites, or chemicals. That is to say, is not safe to consume roof-collected rainwater unless it is properly treated first.

Ways to Treat Rainwater

  • Vigorously boil the rainwater for several minutes. This kills most pathogens. Pair this with a charcoal filter to remove impurities.
  • Running the rainwater through a high-end filtration system like a Berkey filter or Life Straw may make it safe to drink. Both are rated to remove bacteria, parasites, viruses, and most chemical contaminants.
  • Add non-scented NSF-approved household bleach (5.25% chlorine) in the tank. Mix 1 gallon of bleach for every 1,000 gallons of water, or 1 quart for every 250 gallons of water. You could pair this with a charcoal filter or reverse osmosis system to further purify and remove chlorine byproducts.
  • All of these options will most likely prevent you from getting sick. Yet the low pH makes it less-than-ideal for long term consumption, unless the pH is adjusted.

Personally, drinking captured rainwater wouldn’t be my first choice. We simply don’t have the capacity or need to. In the case of a major local emergency, we are prepared to drink our rainwater if needed by boiling it and using a Life Straw. However, some places in the world rely on rainwater as their primary drinking water supply, including rural parts of Australia. Evaluate your situation, do further research, and make an informed personal decision.


Routine Maintenance

Alright guys, I am starting to feel like a broken record here… so we’ll wrap it up with this section! The recommendations for maintenance and cleaning of your rainwater collection system will vary depending on your unique set up, how grimy it gets, what you’re using it for, and so on. At minimum, routinely clean out the gutters and screens to clear debris. We do this once per year (because 80% of the year it isn’t raining at all), along with flushing the tanks.

To flush our rainwater tanks, we completely empty them every fall right before the rainy season starts. By then, we’ve likely used almost all the water inside. If there is a small amount left, we make an effort to use it up in the garden over a few week period instead of city water. Finally, we store any leftover bit of water in 5-gallon buckets or trash cans. Next, we open the bottom valves to set free any final standing water – effectively flushing it. 

Rainwater Tank Disinfection

The final step in our annual routine is to spray down the inner walls with a very dilute bleach water solution to disinfect the tanks. We add just a couple tablespoons of household bleach to a 2-gallon pump sprayer of water. I spray down the inner walls and allow it to sit for a minute or two. Finally, I use a hose to wash that away with water.

It may not be necessary to disinfect your rainwater tanks. During your routine flush, take a peek inside (if you can). How does it look? The first year we had our tanks, they stayed fairly clean. By the second year of use, some grime and slight algae built up on the inner walls. Keep in mind you can’t see bacteria or parasites though! 

Undiluted vinegar could potentially be used to wash down the inside of a rainwater tank, though it doesn’t have nearly the same disinfection strength as chlorine and also requires a much longer contact time (10 minutes). Remember, never mix vinegar and bleach! Another option is to use undiluted household-strength hydrogen peroxide. Peroxide also requires a constant contact time of around 10 minutes to be effective.  

A four part image collage, the first image shows the inside of the rain tank before it has been cleaned. There are collections of algae here and there throughout the inside. The second image shows a person on top of the tank, holding a pump sprayer that has been filled with a dilute bleach mixture. The third image shows a hand spraying down the inside of the tank with a hose to help wash off the bleach spray that was previously applied. The fourth image shows the inside of the tank after it has been cleaned, there isn't a lot of algae growth left, most of it being removed in the cleaning process.  It is now ready for rainwater collection.
Before, during, and after our annual tank cleaning routine. I am carefully sitting on top of the tall tanks to access the inside.

Preparing Your Rainwater Collection System for Winter

If you live in a location with freezing temperatures in the wintertime, be sure to completely empty your tanks of water before freezing weather sets in. Also, drain any system pipelines of water. Switch your gutter downspout to no longer feed into the collection tank. Protect any pumps by draining them of standing water, disconnecting, and consider wrapping them insulation. For year-round use, the addition of an aerator or heat pump can be implemented to prevent the water from freezing.

And that concludes your rainwater harvesting 101 crash course.

Just for fun, here is an old video of our rainwater collection systems during a light rain, before we had two of the slimline tanks.

I hope you found this article to be informative and helpful. Please feel free to ask questions or share this article! Good luck setting up your own rainwater harvesting system, and thanks for tuning in. Also check out 17 Ways to Save Water in the Garden, or How to Install Easy Drip Irrigation in Raised Beds.

DeannaCat signature, keep on growing


    • Aaron (Mr. DeannaCat)

      Hi Carolyn, we linked this affordable pump in the article but it likely depends on your budget as there are a lot of options out there. Hope that helps and good luck!

  • Ryan

    Wow! You really do your research! My wife and I are learning a LOT here! Excellent and beautiful site! Thank you!

  • signcut

    I have built a fairly large catchment system, currently holding over 3k gallons, but havae been having issues with using it to water the lawn (significant part of why it was built). I use 4 330 gallon IBC totes connected together as a ‘pod’, with a double diverter for each pod, so there is 1000 gallons pressure, as they are all connected, open at the valve when watering, and the faucet is belos the level of all the totes. I am currently using a 1HP pump connected the faucet, but seem to have weak pressure, as the sprinkler has problems with the set pattern (impact sprinkler).

    Do you have any tips or suggestions as to what might need to be looked at to improve the situation?

    • Aaron (Mr. DeannaCat)

      There are a lot of variables to consider, such as, what is the diameter of the pipe after the tanks on the way to the sprinkler? Are there a lot of bends or turns in the pipe on the way to the sprinkler? What is the recommended inlet pressure of the sprinkler itself? Have you tried different sprinkler head? Is the 1 HP pump sufficient for the system? Anyway, there are a few things to consider and nothing concrete we can offer as far as a solution, an irrigation or water system specialist may be able to help you out with specifics in regards to your situation and point you in the right direction in which you should go. Hope that helps and good luck on getting your system running the way you intended.

  • Kendra Clark

    Would it be safe to fill my childrens swimming pools with collected rain water? We refill them nearly everyday in the summer and it feels so wasteful, but I want to be sure the potential water contaminates in collected water are safe for swimming.

    • Aaron (Mr. DeannaCat)

      Hello Kendra, we would avoid using collected rain water for your kids swimming pool as we can’t say for sure that the water doesn’t have various contaminates in it. This is especially so if the water is collected from the roof of a house or building. Hope that helps and good luck!

  • Jana

    I was astounded at how much info and thought process you put on this article! It had answer to things I would have never even thought about. It’s extremely informative and with the links makes it so much easier to navigate. Thank you so much for taking time out of your busy life to help the newbies and rookies !! Can’t wait to read more of what you write!!

  • Michael O'Leary

    thanks for the information… Im working on a small scale, in fact i have the same greenhouse 6×8 that you do.. and it has a small gutter with a water collection outlet. I am just working on a 45 gallon barrel.. but some good ideas here to work with. Thanks.. Once again I really enjoy your site and posts.

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