Using Ozone in the Home Aquarium
The use of ozone has long been a standard practice in industrial and public water purification plants, and large scale public aquarium filtration, as one of the best and most efficient means to increase water quality, while still being able to promote water conservation. One of the biggest problems to overcome in these closed water systems is the accumulation of dissolved organic waste from various biological sources such as animal waste and decomposing food and plant material.
In aquariums of any scale, mechanical filtration will remove large organic and inorganic solids, and biological filters will remove dissolved organic material in the form of Ammonia and Nitrite, this still leaves behind a large number of other dissolved and colloidal organic materials that will accumulate over time (the ones causing colors and odors being most noticeable). In most cases these materials are only removed by physical water changes, or chemical absorption media. While frequent water changes may be practical for removing these dissolved materials in smaller aquariums where you are not dealing with large volumes of water, it is not a practical method for removal of these materials in large systems or in systems where water conservation is at a premium. Using chemical absorption media is expensive, and is limited in is ability to remove all of these undesirable dissolved organics. This is where the use of Ozone comes in, I will try to answer some basic questions about ozone below
So, what is ozone, and how does it work to remove these dissolved organic molecules?
Ozone is a naturally occurring highly reactive form of oxygen gas comprised of three oxygen molecules (O3) that is also highly unstable and short lived. It is this inherent instability of the ozone molecule that is taken advantage of for use as a strong oxidizing agent. “Normal” oxygen, as found in air and water, has two oxygen molecules (O2) and is very stable. When ozone molecules break down, they lose an oxygen molecule, forming a stable “normal” oxygen molecule, and a free single oxygen atom. It is this free oxygen atom that attaches to dissolved organic compounds, which in turn causes them to break down into simpler forms that can consumed by heterotrophic bacteria , or recombine into forms that can be removed with mechanical filtration or protein skimming. The organic molecule that gained the free oxygen atom and subsequently broke apart is now said to be oxidized. This is a bit of an oversimplification of the process, but it is a about as general an explanation as I can give without losing too many of you. (and myself, chemistry was never my strong point)
How do I get ozone, and how do I use it in my aquarium?
As I have already discussed ozone is a highly unstable gas, so it is not possible to store, or purchase ozone, it only has a life span of a few seconds before it breaks apart. Ozone needs to be generated as needed with a device called an ozonizer or ozone generator. Most modern units available for the aquarium hobby use a Corona Discharge method to create ozone. In a Corona Discharge unit, air is passed through a strong electrical field which causes atmospheric oxygen (O2) to break apart into single oxygen molecules. Some of these oxygen molecules will then combine back together after passing through the electrical field to form Ozone (O3). This generated ozone gas must then be quickly used before it breaks apart again. Most marine aquarium hobbyists already have the perfect piece of equipment for introducing ozone into their aquariums, their protein skimmer. Ozone needs to have contact time with the water so that it is exposed to the materials that you wish to oxidize. Fractionating the ozone gas by drawing it into the air intake of your protein skimmer, you can use your skimmer as a highly efficient contact chamber. This works for both venturi type, and air pump driven protein skimmers. You need to make sure that your skimmer is made of ozone safe materials, and that you use ozone safe air tubing. Some plastics and rubber can be damaged by ozone, and cause leaks or failures if exposed for prolonged periods of time. There are also ozone reactors available, but they are a bit more difficult to use, and harder to find.
How much ozone needs to be used, and is it safe for aquarium inhabitants.
The best way to monitor and control ozone is with the use of an ORP monitor or controller. ORP stands for Oxidation Reduction Potential, and In terms of your aquarium water, it reads an electrical voltage in Milli Volts (mV) which measures the oxidation ability of the water. As Ozone is applied the ORP level increases. Natural sea water has an ORP value of 350-400 mV. ORP levels of 200 or less in your aquarium are indicative of low oxygen, high dissolved organic, conditions. By monitoring the ORP level in your aquarium, and maintaining it between 250-350mV, you can adjust your ozone dosage accordingly. Using an ORP controller simplifies this process to shut off you ozone generated at a desired ORP level. You should never exceed an ORP of 400mV in your aquarium. Ozone units like the Red Sea AquaZone Plus have a built in ORP controller.
Most manufacturers of ozone units recommend a dosage rate between 5-15mg per hour per 100 liters (26 gallons) many different size units are available, so you can choose an appropriate output unit for your size aquarium, and most have a variable output. Controlling your ozone output is very important, too much is not a good thing; very low doses will provide you with excellent results in most cases, overdosing can be harmful to both you and your aquarium inhabitants. There are several methods to make sure that you are applying the correct amounts of ozone into your aquarium. The goal when introducing ozone into your protein skimmer is for all of the ozone to break down in the chamber or escape through the top of the skimmer. You do not want ozone to escape freely into your aquarium, it will also oxidize organic material in there, which will cause damage to fishes gills, and invertebrate tissue. You also do not want high concentrations of ozone to escape into the air; it is harmfull to your lungs if in high enough levels. Most hobbyist units do not produce dangerous levels of ozone. You can use carbon in your sump chamber that the skimmer discharges into, or on top of your protein skimmer to absorb residual Ozone, and use an Ozone test kit to make sure that none is escaping the reaction chamber into your aquarium. Overdosing Ozone can also produce some harmful compounds, mainly in the form of hypochloric and hypobromic acids, this is why you should not exceed and ORP of 400 mV It is a not a good idea to use ozone in small confined spaces, a well ventilated room or aquarium cabinet should be considered. If you are not using an ORP meter or controller, a conservative approach should be used, stick to the 5mg per hour, per 100 liter rate to be safe. Another caution when using ozone is to use an air dryer to make sure that the air that is drawn into the ozone generator is dry, a simple and effective unit like the Red Sea Air Dryer, uses regenerable desiccant beads to draw moisture out of the air. Moisture can react with Ozone to create nitric acid, which can damage equipment, and lower the pH in your aquarium.
What are the benefits of using ozone?
Water clarity is the number one reason most people use ozone. There are many dissolved organics that can discolor your water, ozone will oxidize these and produce water that is crystal clear. This is especially beneficial to reef aquariums where light penetration is crucial. Many people do not even realize how discolored their water is until they see the difference ozone can make. Ozone also has disinfecting properties, pathogenic bacteria, single cell parasites and algae, viruses are all destroyed by contact with ozone. Increased dissolved oxygen levels from the reduced organic load and bacterial oxygen consumption. Ozone will destroy pesticides, detergents, and many other toxins that may be in your tap water. Many organisms release substances that are intended to defend themselves, or inhibit predators or competitors that can accumulate over time and become problematic will be destroyed by ozone. Ammonia and Nitrite are oxidized into less harmful Nitrate when exposed to Ozone. And as mentioned previously, using ozone can reduce the amount of water that needs to be changed in closed systems.
I hope that this has shed some light on Ozone use in the home aquarium, and that I answered some of the questions that you may have about Ozone use. Feel free to leave comments if you’re looking for any additional info.
Until next time,
Dave
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about 3 years ago
I have a large 800 lelitre aquarium with fresh water with discus & other fish. It has fine gravel driftwood and well planted. I have a large ozotech & controller skimmer in the sump. Could you please tell me what levels of ozone for fresh water I should use & if you have other imformation.Grant.
about 3 years ago
For freshwater, I would reccomend keeping to the lower end of the scale for ozone use. 5mg per hour, per 100 liters. Introduced through your skimmer in the sump. With ozone use in any system, it is always smart to be conservative. Start with your unit at its lowest setting, and see how much ozone is needed to raise your ORP to the 300-350mv range. Every system is going to act differently depending upon its given organic load.
Thanks,
Dave
about 2 years ago
I have a frequent problem with unwanted algae in a reef tank an wanted to know if ozone will help. I do my 10 % water changes bi weekly with r/o & deionized wter.
about 2 years ago
It depends on the type of algae you’re having a problem with. Ozone will oxidize dissolved organic waste, so it will help control slime algaes, and maintain overall water quality. But will not directly effect higher forms of algae established in the aquarium. I would recommend looking at Nitrate, Phosphate, and light quality and duration as a cause for the algae before installing Ozone as there may be another issue to address to fix the problem.
about 2 years ago
I have a 140G fresh water discus tank. I tend to go overboard in buying equipment and would appreciate your recommendation for the appropriate ozonizer system model that will meet my needs.
Thanks,
David
about 2 years ago
David,
From an equipment standpoint, using Ozone on a freshwater aquarium can be a bit more difficult to use. To use ozone, you need some sort of a reaction chamber to introduce generated ozone to the aquarium water. In Marine aquariums this is easily accomplished with the use of an appropriate protein skimmer in the sump of the filtration system. If you use a sump type, or wet dry type, filter on your discus tank, then you can use the same method. Even in a freshwater aquarium, a protein skimmer will still act as an efficient reaction chamber.
If this is not an option for you, then you may be better off using Chemical media, Reverse Osmosis water, and Ultraviolet Sterilization to acheive an low organic load on your system.
Thanks,
Dave
about 2 years ago
Took me ages to find this post, this time I’ll bookmark it.
about 2 years ago
My set up is a 140G fresh water, WS-300 Eshopps wet/dry sump, and do use RO water. In preparation, I did purchase a protein skimmer. Do I need a charcoal reactor as well for the final step on the return to prevent O3 from going back into the tank?
Any advice on how to set components up and the a recommended system for my purposes at TFP?
Thanks so much!
about 2 years ago
Residual ozone is not usually a problem if you are dosing conservatively, especially if you are using an ORP controller to control you ozone unit. Using a carbon reactor can be used, and will have other benifits beyond that of absorbing any residual ozone. If you are planning on heavily dosing ozone, or are using an oversized ozone unit, then you may want to consider using a carbon reactor as a failsafe for your system. The other thing to make sure that you are doing is properly adjusting your protein skimmer so that all the gas bubbles are passing out the top of the reaction chamber, and not escaping into your sump.
Thanks,
Dave
about 1 year ago
Hi – I know it’s been a while since any comments on this post, but I am a graduate student working on a lab project and I need to find a way to inject ozone into my old Marineland 100 gallon freshwater recirculating tank.
I have an air dryer, ozone generator+controller, ORP electrode…however, I do not have a protein skimmer or reaction chamber of any sort. Is there any way I can bubble ozone through my existing system (in the sump), if I am using both mechanical and carbon filtration already??
If not, do you have any advice on what type of protein skimmer I should use to react the ozone? I am guessing I should look for a skimmer that has an air vent I can cover with activated carbon so I don’t poison the place with ozone…?
Thanks for the fantastic article — any help would be appreciated! I am very much a novice at setting up aquaria.
Anna
about 1 year ago
Anna,
The best option for your situation is to use an in-sump type protein skimmer as an ozone reaction chamber. Connect the Output of the Ozone generator to the air intake of the skimmer with ozone safe tubing, and let it draw the ozone through the system. I would not recomend using an air bubbler, that is not going to be efficient, and will waste most of the ozone being produced. If you are using a hobbyist type aquarium ozone generator, residual ozone should not be an issue, unless you are in a small confined space. Ozone breaks down very quickly in water, if you already have carbon filtration in place, then you should be fine.
Thanks for the question,
Dave
about 1 year ago
Great article, my question is similar to Anna´s one, I am planning a freshwater closed system (mostly for tetras) for about 3 tanks, in total the system will be around 200 gallons, these 3 tanks with sump, biotowers and the rest, I was thinking in add UV lamp at the end but UV radiation is not enough to control some possible diseases like White Spot.
I wonder if Ozone can also destoy that kind of possible parasites too?
I was thinking in the last part of the sump put the Ozone (using small ozone reactor) and after the time of contact (I would apreciate you tell me how long this time need to be) pass the water to other container and before pump it back to the system use a lot of air bubbles to remove any remaining O3.
For this size of system, what size and kind of O3 reactor would you recomend and what is the dosage?
Waiting your comments
Raul
about 1 year ago
Hello Dave
This article is extremely helpful. Thank you. I am in the process of planning a wild heckel discus biotope aquarium. It is going to be approximately 700 litres. I don’t have a sump. I have two large eheim canisters one of which is a wet and dry type. I will drill the bottom of the tank and run my canister filters in a closed loop type system. I had initially thought of adding ansurface skimmer fed canister with the chemical media known as Purigen for the dissolved organics plus a uv steriliser unit for getting rid of the unwanted nasties. I also thought of using an oxidator for achieving higher ORP values. Oxidator was relatively popular in the eighties. It works by converting liquid hidrogen peroxide into a steady steam of pure oxygen. Lately, however, I have been increasingly veering towards the idea of using ozone instead. Reading your article made me more enthusiastic about the idea. Can I use ozone in a closed loop freshwater system without a sump? I thought of getting a hobby type ozonizer and using it in conjunction with a specially manufactured fresh water ozone reactor fed by prefiltered water from the surface skimmer. Does this all sound feasible to you? Could I get away with checking the ORP of the tank from time to time as opposed
To monitoring it constantly? And lastly,
would I be taking any significant risks
If I was to allow the water that comes out of the ozone reactor chamber go straight back into the tank whithout letting it past through an additional canister cantaining activated carbon? Would the
about 1 year ago
Sorry, i messed it up… In my last point I was trying to ask about not using activated carbon on the water entering back into the tank
as this would need to be regularly replaced which I could do without unless I have to. I hope this is not too longwinded. thanks.
Tolga
about 12 months ago
Tolga, what you are proposing sounds feasable, you can use an inline ozone reactor for your freshwater aquarium. I would definately reccomend that you somehow incorporate a carbon filter inline after the ozone reactor. You do not want free ozone in your display, it can be very damaging to animals in your tank. Running ozone in a closed system is much more risky, than running it in a skimmer in an open sump, which gives any risidual ozone a chance to vent off, before being returned to the aquarium.
about 12 months ago
Hello Dave, thank you very much for your reply and for sharing all this with us. I wanted to ask you about the carbon reactor as it is clear from your answer that i am going to have use one on my system. How do you monitor the effectiveness of the carbon without the risk of letting ozone seep into the water column? Presumably, if the carbon reactor contains enough activated carbon for the job, then it should work and everything will be alright. But after a while, this carbon may become exhausted which means that certain quantity of ozone may seep back into the system endangering the fish. My point is that by the time one realises that this has occurred, it may already be too late, so how does one know at the outset as to how much carbon is needed for the amount of ozone in question and for how long? From what I have read so far, I have gained the impression that there may not be much room for trial and error in dealing with ozone. But I might be wrong as I have not had any experience with any of this. Does the carbon absorb the ozone and retain it permanently in its structure or does it retain it temporarily until ozone transforms itself into something less damaging such as pure oxygen perhaps? Apologies if this all sounds too anal, but I am really interested in using ozone in the discus tank I am intending to set up very soon and I haven’t used activated carbon before so Im not familiar with its possibilities. Also, I have heard that ozone use in aquariums can sometimes lead to the reduction nitrites. It has even been claimed that nitrites can be eliminated completely from the biological cycle or they do not form at all. If that is the case, could this not lead to a dramatic reduction if not total elimination of nitrates? I’m really not sure about this, but I would have thought that Nitrates being the end product of biological nitrification process, would seize to exist in the absence of any nitrites? That is, if there are no other sources such as tap water which could account for their presence in the system. This latter point is pure speculation, so feel free to ignore it but the point about the carbon is something that is bothering me and I’l be grateful if you could shed some light on this. Cheers. Tolga
about 6 months ago
I purchased an ozone air generator recently and upon applying into the two fish tanks, the water in the fish tank was clearer and the fish that was suffering from a bacteria infection on the eye recovered after 2 days. The machine I bought had an in-built timer. By the way, the stale smell was also removed.
Now, I am a believer in the Ozone machine.