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Forgotten Heroes...


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One thing I love about this hobby is the constant ability to learn something new.  However, there are also occasions where it is worth learning something old. Techniques that reefers used historically but are in dire need of resurrection, forgotten heroes (or heroines) so to speak.

 

As such I wanted to share a few topics on reefing that I hope you find useful.  So let's start the ball rolling with the first forgotten hero...

 

Sulphur Denitrifiers. 

 

For the life of me I just don't understand why Sulphur Reactors are not more popular after all they are possibly one of the easiest "set and forget" ways to reduce nitrate. Just throw some yellow Sulphur Beads (about 1kg of Sulphur per 500L) along with some calcium reactor media (e.g. ARM) into a reactor and add water. That is it. Best of all is you can leave it for a year or slowly flowing denitrified water back into your system. So simple.

 

Ok there is a little bit more.  yes, it is best if you use a recirculating reactor, but honestly a normal reactor will work well too. After filling and adding water perform an initial purge of the reactor chamber into a bucket, you dont want sulphur dust in your system. Next step is you will need to dial in the flow. At the start it should be a constant drip drip drip each second. Over time you can increase the flow.  To dial-in the correct flow rate test the effluent for nitrates regularily over the next couple of weeks and if nitrates are too low (plus to avoid the smell) increase the flow rate or remove some sulphur media. However, if the nitrates are still too high decrease the flow or add some more sulphur.  It will take a couple of weeks to kick into action as the bacteria starts to populate, but once you have it dialed in, it will operate in an equilibrium growing bacteria in relation to the available nitrate. The media can last well over a year with little to no maintenance, just check for clogging (tip... Don't use any sponges in the reactor). Did I mention sulphur media is also fairly cheap I saw some@aquamarin for $8.80 a kilo.

 

Ok sounds too good to be true, easy, cheap and works for ages. Well the downside is that your Alk will take a hit. Hence, the recommended addition of the calcium reactor media into the reactor to help buffer against that reduction. But you may need to up your alk dose. Also at the start (for a day or so) and at times the flow is too low there is a tiny little smell. But I simply blame the dog Haha.

 

Sulphur reactors are so easy to set up, Yet it appears there are few reefers enjoying their delights and even fewer newbies aware of the pure ease and simplicity and money savings a sulphur reactor can bring. For more info I suggest you visit the interweb, and lookup 'Parker's Reef Sulphur' on youtube. As he has a good introduction to Sulphur Reactors amongst many other goodies.. Enjoy!

 

(If there are any forgotten heros you feel need mentioning PM me).

 

More forgotten heroes shortly.

 

Sent from Singapore Reef Club mobile app

 

 

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Forgotten Heros Part 2: Diatom Filters

Imagine if you will a filter that is so fine it can polish your saltwater removing even bacteria. That, my fellow reefers is a diatomaceous earth (aka Diatom) filter.

Now, the funny thing about a diatom filter is that, well, it isn't a filter per se. [Huh??] It is actually a natural powder made form fossilised algea (diatoms). The powder is added to a filter to reduce the size of the pores of that filter and is equivalent of adding millions of microscopic 'bio balls'. These microscopic particles (which are actually fossilised diatom shells) contain two holes, one that is approximately 3 micron in diameter and another 'inner pore' which is roughly 0.5micron in size.  As such it's natural shape provides it with an ability to trap microscopic elements, producing simply stunning cleansing power.

However, with such cleaning power this filter can easily get clogged up, as it basically polishes everything out of the water column. Hence running one aftee a series of progressively finer sediment filters or some fine carbon is recommended. 

There are special external diatom filter systems from likes of marineland, votrex, haywood that you can buy, or you can easily DIY using an rodi type filter as a base (a quick Google will return many designs). Either version allow you to add the powder to an existing filter solution.

Unlike other weird and wonderful chemicals the diatomaceous earth powder is readily available (try pool supply shops). Note that there are two grades of powder; food grade or filter grade. Rich reefers tend to select food grade as it is more pure (risk of contaminants is lower) but there is still some debate on if it's really necessary, just make sure is 100% pure.

Talking of the powder this stuff is super fine so you do not want to be breathing it into your lungs the use with a good N95 mask is recommended. (You can also wet down the powder a little). 

Whilst they have fallen out of fashion (reefer amnesia?) these filters are still widely used in the the pool cleaning, food and beverage industries where most Beer manufacturers use them. Now this is good news, as these 'filters' have continued to be refined overtime and have subsequently evolved since the 1980's when they were popular additions to aquariums.  As such modern alternatives to the powder now exist in the form of Ceramic Diatomite Filters.

These ceramic filters are now so fine it is possible to get them down to 0.1microns (to put that in perspective that is 2000 times more filtration power then your average reef sock!). They can be used just like a normal 10 inch filter or you can buy them in bricks. Either way they can be easily installed on the reef tank with an appropriate housing. These filters are not super expensive (sub $15) and work extremely well, too well infact, stripping everything haha. So keeping them clean is as mentioned a challenge plus you may need to supplement if you run them alot. Although the modern ones are reusable, my experience is that you can only reuse them effectively a few times and expect the same flow rates. However, the good news is that used ones can potentially be repurposed as bio media.

So if you want to super-polish your water, drastically reduce the impact of an ich outbreak (free floating stage), use as part of a water recycling system or just want to experiment with powders / ceramics and a cool new piece of gear, maybe you will consider using a Diatom or the more modern Diatomite filter going forward(?).

I wonder if anyone here is using them?? Either way, Happy Reefing!!71Lbef6ECmL._SL1500_.jpeg

Sent from Singapore Reef Club mobile app

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Forgotten Heros Part 3: Ozone
When you mention Ozone to a fellow reefer you may get some strange looks, or illicit some interesting emotional responses. "Oh I didn't think people use that anymore" or "Are you kidding me. it will kill your dog and pollute the environment!", this is what I was told when I first said I was going to use Ozone.  But my dog is still very much alive, and I would need to run my ozone generator on full blast for nearly three years to produce the same amount of Ozone as one bolt of lightening. Whilst yes there are some precautions and knowledge needed to use it, Ozone is an extremely valuable tool for the reefer and is starting to see a  revival as we better understand how best to implement it safely and more effectively.

Warning: This is a really long post. So get a cup of tea and settle in. I would also urge the use of cookies to maintain your calorie intake as this could take a while.

Ok let's begin...

So, what is Ozone? Ozone (O3) is made up with two bound oxygen  molecules and an additional unstable oxygen molecule that loves nothing more than to split off and bind itself to other molecules in your tank. As it does so it reacts with various oxidizable inorganic and organic materials. Through the process of oxidation Ozone can decompose organics rather violently, and as such, this little unstable molecule produces some amazing results for the reef tank. (In no particular order)...

Firstly Ozone will provide you with clear water (and I mean crystal clear!) as it eliminates impurities in the water, breaking organic molecules down so that the light waves are is no longer blocked or deflected by them. The result is the clearest water you can get in a reef tank. This ensures that all the lovely PAR and spectrum from your expensive lights actually reaches your corals.

Secondly, Ozone will help you maintain high levels of disolved oxygen in the system. Once the water has been processed the Ozone turns back into oxygen, replenishing the oxygen levels in the water column.

Third, Ozone like carbon can remove toxins in the water. However, O3 has significantly more cleaning power and needs little to no maintenance once set up. To put it in perspective Ozone has nearly twice the cleaning power of chlorine. By reducing toxins ozone reduces the impact of coral warfare, and effectively allows you to have more corals in a smaller space.

Fourth benefit is that ozone cuts down the organics in the tank. This improves the mucus level of corals and combined with the secondary  bromide production it has been known to improve polyp extension. Less organics also means less nitrates.

Finally a quality ozone system should last 15 years. So for 'lazy' reefers like me it is ideal as once set up you shouldn't need to touch it for ages! (Although some maintenance is beneficial)

So what is the right level of Ozone,  and how best can you safely implement Ozone?

One of the most important factors to understand in utilising ozone, is to understand how long Ozone actually survives within various systems. In the air O3 has a half-life of 12 hours, whilst in water Ozone's half-life is drastically reduced to just over 20mins, as such ozone dissipates 36 times more quickly in water than in air for a given concentration. This is where many people get mistaken about its relative safety and also where the choice of implementation begins to matter (Afterall a skimmer is an open air reactor, whilst an ozone reactor is an enclosed water based system... hopefully you see where I am going with this). So, with this knowledge of half-life in mind let's look at the two primary goals in using Ozone, water clarity and sterilisation.

Goal #1. CRYSTAL CLEAR WATER...  first some good news, It takes a relatively small amount of Ozone to keep your display tank super clear.  My 500L DT system has a 300mg Ozone generator,  which to be honest is way way way way over-powered for what I am using it for.  Currently I have it set at just 10-15% (30-45mg/h). This keeps ORP (a sudo-measure of water cleanliness) at 350 and produces a noticeably clear water column.

Typically Ozone in a display system is implemented in conjunction with a Skimmer.  Whilst this is fine for a moderate DT setup, it is certainly not ideal if you need higher levels of O3 production due to the increased air/gas interface that a skimmer generates with the atmosphere.

That said, for my DT setup I personally add Ozone to my skimmer by attaching the air from my ozone generators output to the air input of the skimmers silencer. The air input to the ozone generator itself is taken from an airline I have running outside my house and via a  carbon filter. I do this 'outside air thing' as so to reduce co2 and for PH reasons (note ozone will not impact your ph), although you can simply pull air from anywhere that is dry.  I use ozone resistant fittings and pipes post the ozone generator. Note, contary to popular belief you don't need an air pump. I made this mistake as in the past I used to have an air pump push air into the ozone generator, however I have been told by one manufacturer that this changes the amount of ozone generated, so the best idea if you need a pump is to find a vacuum pump and pull air through the ozone cell. Possibly an even better solution is to simply let the skimmer draw the air as needed through the generator - which is much easier and doesn't cause issues with your skimmers performance.

The skimmer sucks in the Ozone gas and mixes it into the water column. As a skimmer produces bubbles it mixes the ozone gas with the water by increasing the surface area of the water within the skimmer chamber and allowing for more gas exchange to occur. HOWEVER, this gas exchange works both ways as gas can not only be absorbed into the water column it can be expelled too. This is where the first potential issue arises, just as skimmers are great at releasing CO2 through 'degassing', the agitation of water will allows for a higher proportion of the ozone gas to escape back into the atmosphere. This is where it can potentially lead to issues, especially if it is left to build up, or you are inextricably producing large amounts of O3. As such skimmers are not the most effective methods of installing Ozone.

Typically for a DT the amount of O3 used should be relatively small and so any potential issues are easily delt with by having some carbon sitting on top of the skimmer cup (or you have a 3d printed sleeve). Whilst not perfectly ideal these solutioms are good enough fixes for low level O3 generation. That said, a better way to implement O3 is to have a dedicated Ozone reactor (or passive inline Ozone diffuser).  These machines mix the Ozone in an enclosed space, vastly reducing the amount of air bound ozone and ensuring ozone is kept in the water column longer where it can dissipate more easily.  From what I can tell any sealed reactor made with cast acrylic could be converted to O3 usage as long as you use ozone resistant connections and fittings (special 'O' rings for example). Buying a purposefully designed O3 reactor is always best, as all you need do is you add in some plastic bioballs to slow down the flow of the gas, increasing the reactors dwell time. 

One way to control the O3 generation is to run it for just a few days each week (friday and Saturday so you DT looks good for the weekend haha). This way you can simply turn it on for an hour or two each day. This is a reasonable way to use ozone without any other controls (like ORP controller) in place. I have, however, read that a constant very low level of O3 is much better than switching it on and off.

[Hold on, I thought you said Ozone can give 'pest free water', and I definitely recall you saying it could save me money?] Well, glad you raised that, we are just getting to that part now. So take another sip of tea, grab another cookie and let's look at the other ozone related goal we had in mind, sterilisation.

Goal #2: STERILE WATER. At Ozone levels of just 35-50mg/hr you won't be getting the full benefits of Ozone, as some toxins can still exist and you haven't really done much to kill off water bound pests. Now, whilst you may be tempted to turn the displays Ozone generator way up high (afterall more is better right?) please don't do that. High levels of Ozone will kill off your beloved DT bacteria relatively quickly, leading to all sorts of issues. At an O3 rate of 1.5-2ppm, 90% of your hetrotrophic bacteria will die with just 35 seconds of exposure. O3 not only improves water clarity it is a very efficient combatant of viruses, bacteria and fungus, however at higher rates it can produce some insoluble compounds which would need to get removed (carbon is your friend here). My view is best not have these in your DT, so how can you get the best out of an O3 system?? 

A more effective manner to opperate ozone is to use it in a seperate system all together away from your DT.  Here you can sterilise and effectivrly 'recycle' your water.  This is how it works in many public aquaria, where replacing vast amounts of water via traditional water change methods is inordinately expensive. As an alternative to water changes they will siphon water out of the return and pump it into a seperate holding container.  With no danger of hurting any livestock and having a controlled enclosure the water is subjected to significantly higher levels of Ozone. Sterilising it. The water is then allowed to settle as the ozone naturally dissipates leaving nothing but sterile, oxygen replenished, crystal clear, bug free water.

If you have watched any reasonable amount of reef related youtube you would have no doubt heard that to process water to an effective sterilisation rate using ozone requires thousands of mg/hr.  This is true, to process large batches of water takes alot of O3. However, this misses an important point, as hobbiests we don't actually need to process large amounts of water in one go. We can batch process small amounts overtime, vastly reducing the amount of Ozone needed, and this is where hobby level ozone equipmemt can be configured to cope with this goal (I am currently setting this up on my own aquarium so will be able to give a full breakdown in future posts)

That said there are two challenges we need to overcome.  Firstly is to calculate the amount of Ozone production needed to reach 'sterilisation' levels.  Secondly in any system with higher levels of ozone we want to avoid the production of air-bound ozone as much as possible.

Challenge 1. How much ozone needs to be produced?
Let us examine this further with some math... an ozone dose of 0.4mg/L for 4 minutes is regarded an an effective treatment for pre-treated water (pretreated in that your water first went through an rodi system, then normal reef filtration).  Lets focus on the 4 minutes... Here, a recirculating ozone reactor can control the dwell time by reducing the flow inside the reactor via bio balls, also if it has a DC controllable pump you can change the rate at which the reactor circulates. A recirculating reactor also by its nature increases the contact time.  As such our focus can shift towards the level of Ozone production need to process the water in the reactor, in this case 4ppm or 4mg/hr

Time for math...  There are some complex ozone equations out there involving pressure, but in order to keep things simple

Mg/L = Ozone mg/hr x 0.00440288 / LPMx3.785

As such we can see that a 400mg/hr ozone generator would need a flow of approximately 1.5ltr a minute to generate a concentration of 4ppm.  At this flow rate a 30L ozone reactor would take just under 20 minutes to process the water held within it sufficiently. (Someone correct my math if I got this wrong hahaha).  As such this all seems well within the capabilities of hobby grade gear given enough time.

If you want to go 'full on' with your sterilisation goals you could always cover off any gaps by adding in UV. (Ozone in my mind is very much a complementary tool to UV) Remembering that UV works differently then ozone in that it stops bacteria from multiplying by destroying DNA, it doesn't necessarily break down organics, nor stop toxins, etc etc

Okay, take another sip of tea and possibly grab an extra chunky cookie for we are moving on to the second challenge of avoiding air-bound ozone and I will talk about the set up I am putting together.

Challenge #2. Reduce air-bound ozone to a minimum.  So a way to avoid this is to pump water into a seperate air tight container (nothing more then a drum with a good fitting screw lid). Very similar to how many mixing stations are set up (maybe you can even repurpose one as you wont really be needing it anymore hahaha). You will need a way to get water in and out of the air tight container, a pump to send water to the ozone reactor and later back to the tank. You would also need an air valve to allow for the intial displacement of air (by opening the valve to allow the water from the return to enter the container displacing the trapped air, and closed once the container is full. Maybe have a small carbon filter on the end of the air valve if venting back into a room).

So how does this 'recycling system' work? The air valve is opened and saltwater is pumped from the return section, filling the drum completely full. The air valve is then closed meaning the container is now airtight with as little air as possible inside.  The ozone generator is switched on and the water flows through the ozone reactor at the appropriate concentation.  As the ozone generator and the container are connected no air enters the system. In this basic set up the water from the reactor goes back into the airtight container. Water is cycled from the chamber into the reactor and back again multiple times until it's all be processed.  Then we switch off the ozone machine a leave it alone to let the ozone turn into oxygen.  The water then passes through a carbon filter (see bromate issue below as to why we do this) before making it's way back into the main system.

What we are doing is simply recycling the tank water.  This has some major savings over traditional water changes as it reduces the money needed for new water, RODI consumerables and even salt! I guess this is why public aquariums have used this method historically. 

Will it work / save money for every reefer? Well you may want to consider that the cost of an ozone generator is approximately 1-2 buckets of premium salt, an ozone reactor costs another 3 buckets and a state of the art double air dryer another 5 buckets.  Remembering the ozone equipment should last 10-15 years.

An additonal benefit is that this 'recycled water' is available almost daily (depending on how long it takes to process batches and let the ozone disappear). As such you can significantly increase your 'water change' schedule with no increase in costs* 

(* pro tip ... it is always good to ICP test the water coming out of the recycle water system espcailly when you first implement, and a few times afterwards, to understand what is going back into your tank, as certain elements may get depleted / added overtime requiring additional management)

So let's recap...

I am proposing two methods for two seperste goals. Firstly a low level of ozone system (via skimmer or O3 reactor) for the display system, producing asthetically clear water and improved dissolved oxygen. Keep the levels as low as you can get away with. Secondly using higher concentrations of ozone in conjunction with a reactor to recycle your water in batches replacing traditional water changes

What else is important to know?
I hope you noted I mentioned the need to run carbon post ozone production multiple times. This isn't to capture the Ozone per se, but to reduce the impact of any by-products of running ozone, namely OPO's and Bromate. To quote the king of reef alchemy Randy Holmes Farley "Ozone also has a dark side. When reacted with seawater, ozone produces a variety of highly oxidized halogens such as BrOH and BrO3-. If the ozone produced oxidants are not largely removed with activated carbon, they may enter the aquarium and be hazards to the most sensitive organisms in the aquarium".  So in both implementations (goal 1 and goal 2) carbon is still very much important.

Another impact of Ozone is that it will convert ammonia into nitrate.  So if there is ammonia in your tank and you run Ozone then nitrate will result... it would have happened anyways through the nitrogen cycle just you will accelerate the process which may result in initial spikes. So whilst ozone can reduce organics in the tank before they get a chance to turn into ammonia it may be necessary to keep an eye on your nitrates whilst running ozone.

Like other chemicals and gases we use in the hobby Ozone if inappropriately used can be dangerous.  I mean you wouldn't drink a bottle of trace elements, or pump CO2 into your living room (well I hope not).  So use common sense, Ozone needs to be treated with respect. Whilst Ozone in small doses is not really a safety concern less than 0.25ppm/25mg.hr, You shouldn't take any risks and it is prudent to have safety measures in place. These include having air bound carbon filters where there is a chance of gas escaping (skimmer cup, or end of air valve).  Major ozone issues tend to come from not using the correct fittings or pipes leading to O3 gas leakage, So make sure your ozone system is only fitted using ozone resistant connections, pipe and fittings.

As an additional control and safety measure on your DT you should use an ORP controller to control ozone generators. So if ORP goes above a set value of say 375 for the DT then it will switch off the ozone generator. I don't want to down play Ozone as an issue. But feel the dangers are over blown and just like other gasses we use in the hobby it needs to be used appropriately and I urge you to do your own reading around the subject.

Any other tips?  Well, an Ozone generator is much more effective if the air it uses is either oxygen rich (pure oxygen is used in some commercial implementations) and/or is very dry. You can buy special air dryers from manufacturers like Ozotech (IQ20/40 range).  Damp air in an ozone generator will cause nitric acids to build up inside the ozone cell, which reduces the ozone generators capability to produce ozone consistently. Although it should be noted that good quality Ozone generatoring corona cells can be cleaned simply with warm water and dried with compressed air to get rid of any acidic build up (possibly the only maintenance you need to do... apart from replacing carbon now and again)

Another thing to look out for is the quality of the equipment, any Ozone generator that is made out of plastic I would personally steer clear of them.  Given the aforementioned issue with having correct fixtures and fittings unless they tell you what the plastic couplings are made from, I doubt these plastic parts are ozone resistant and thus, COULD be prone to leaks in the future. That said I am in the process of buying one to simply take it apart and compare with my metal one. Also only use ozone generators designed for aquarium usage, not those air filtration systems you see on Aliexpress.

So there you go you made it to the end - one cup of tea and many cookies later. Congratulations, you should get a medal or something. 

I hope this was useful and hope this helps you reimagine the use of Ozone in your system, I hope it also reignited the prospect of low cost water changes.  IMHO, Ozone with its unstable molecule, is not only safe, but if implemented appropriately can work wonders for your reef. 

Good luck and Happy Reefing.

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Let me chime in. There are some similar effects on sterilization,  but ozone also have the ability to alter the water chemistry by oxidizing various compounds in the aquarium. For example it can breakdown some organics which can cause the water to appear yellow. 

Also the safety precaution between ozone and UV are rather different. Like what rob has described. It's important to have scrub off excess ozone before they escape into your room. 

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Let me chime in. There are some similar effects on sterilization,  but ozone also have the ability to alter the water chemistry by oxidizing various compounds in the aquarium. For example it can breakdown some organics which can cause the water to appear yellow. 
Also the safety precaution between ozone and UV are rather different. Like what rob has described. It's important to have scrub off excess ozone before they escape into your room. 
Exactly. I think@JiaEn said it better than I could haha.

To add... Ozone and UV are complimentary tools, but work in different ways.  UV requires that the parasites are in close contact with the UVC light in order for the light to impact that organisms DNA. So they require the parasite to be in a specific spot at a specific time.  Whilst Ozone is inserted into the water in sufficient numbers and goes off 'hunting' for organisms to bond with, oxidise and destroy.  As such Ozone is way more effective.

This is also why I find the current level of advice inappropriate. Not only does it ignore the air-bound vs water bound nature of Ozone, we have to remember that Ozone doesn't care what it destroys... it is a hunter-killer Hahaha.  Hence, unleashing this psychopath in your DT is okay if there are some soft targets for it to latch on to (fungus, algae, pests etc). But unleash too much and it will kill all your beneficial bacteria and even start to impact corals and fish. (Remember that SPS slime coats have 400 times the level of bacteria in them then the surrounding water).  Hence, the key is to have the lowest amount of ozone in the Display as possible whilst achieving your asthetic goals. 

My post was trying to highlight that Ozone has a lot of potential if only we used it differently.  If implemented seperately away from the DT altogether, where it is allowed to do its job and then allowed to dissipate, Ozone will not only kill everything in the water but also alter the chemicals in your water positively. 

Hope that helps.
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