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  1. #1
    Aquaponics 101 Oliver's Avatar
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    Aquaponics 101 Part Three: System Design, Continue

    This is the third in a series of posts that are going to teach you most of what you need to know about Aquaponics. So, if you're curious about the most amazing food growing technology on the planet today, watch for this series of educational posts on Aquaponics and please, become interactive by making comments or asking questions.

    In Part One, "The Process", I wrote about what Aquaponics is and why it is important to Preppers (those preparing for what is about to come down the pike), the fact that you can grow food for you and your family year round as long as your Aquaponics system is in the proper environment. I also gave a description of the biological processes involved that make Aquaponics work.

    In Part Two, "System Design", I wrote about the components of a basic system.

    To quickly review, I wrote about the need for a bio-filter and that it is usually combined with the grow bed to form a single Aquaponics component called the grow bed, which is the most important part of an Aquaponics system. I told you about the grow bed media, the grow bed shape, and that you need about one gallon of grow bed/bio filter volume for every gallon of fish tank volume and the reason for this ratio.

    So, let's continue with the discussion on system components.

    Some will argue that the standard is two gallons of grow bed container capacity to one gallon of fish tank capacity instead of the one to one ratio I mentioned in Part Two. Again, the number for expanded clay is 1:1 and for gravel about 1.5:1 gallons of grow bed container capacity to fish tank capacity. The reason for this one to one ratio limitation is that the water in the fish tank goes up and down during the grow bed's flood and drain process and too much variation in water height can stress the fish. You can use the 2:1 number only if you flood and drain some of your grow beds but not all; or if you add a sump tank to catch the water that would otherwise be returned directly to your fish tank.

    The simplest Aquaponics system design has a low to the ground fish tank that is 24 to 30 inches high and grow beds that are up on tables high enough so that the water pumped up from the fish tank to the grow beds can gravity flow back into the fish tank from the bottom of the grow bed siphon. I prefer 24 inch high fish tanks so the grow beds don't need to be so high and, therefore, you don't need a step up to comfortably reach across them. This allows for at least six inches of extra siphon draw down below the grow bed thereby reducing the grow bed's drain time (more on this later).

    The grow beds' siphons activate on their own timeline; but at some point, with multiple grow beds, the siphons arrive at nearly the same schedule. Like two or more metronomes, occasionally they all sync up and drain at the same time filling the fish tank to capacity and then they simultaneously pump water into and filling all the grow beds. With a two to one grow bed to fish tank ratio, the extra water required to fill the grow beds leaves the fish tank with a dangerously low amount of water, which will stress the fish. With a one to one grow bed to fish tank volume ratio, the water level in the fish tank won't go so low as to stress the fish. So, one to one is the number you want to aim at in your Aquaponics system design.

    Some will argue that one way to avoid this water level in the fish tank problem created by increasing grow bed volume is to add a sump tank (mentioned above) that catches the drained water from the grow beds. The water is then pumped back to the fish tank from the sump tank after it's water reaches a certain level by way of activating a float switch connected to a submersible pump in the sump tank. This allows the sump tank to absorb the intermittent water flowing into it and helps keep the fish tank from experiencing major swings in water level during grow bed siphoning.

    For a short fish tank that sits on the ground, this requires an extra pump (in addition to the one in the fish tank) and a float valve switch (mentioned above) in the sump tank, which adds extra parts, cost and potential points of failure. Turning a pump motor on and off repeatedly shortens its life, and, if either the pump motor or float valve switch were to fail (and eventually one or the other will fail), you will have water all over the place, a fish tank void of water and dead fish. In my opinion, this is not a good design. You might as well increase the size of your fish tank and keep the same number of fish, thereby saving yourself the cost of the sump tank, pump and float switch, along with its complexity and poor reliability.

    Other system designs raise the fish tank or have a tall fish tank, like a tall IBC tank with its top cut off, that overflows through a pipe into grow beds that are positioned at a lower level. The water returns to a low siting sump tank from the grow bed siphons and directly from the fish tank overflow where a continuously running submersible pump is pumping water from the sump tank into the fish tank. Additional plumbing is used to be able to divert the water as needed for system maintenance without turning off the complete system and to adjust the flow of water into the grow beds. It is an elegant design because it adds only minor complexity and cost to building your system while using a single continuously running pump, and it works well. It is very important that a float valve be added to the sump tank in order to assure that there is enough water in the system; for evaporation will reduce the water level in the fish tank to a level where it won't overflow, thereby starving the pump in the sump tank.

    The problem I have with this fish tank overflow design is that, even though the overflow water is gathered from the bottom of the fish tank, it is not run through a pump prior to entering the grow beds. This allows the fish waste solids to go directly into the grow beds in their sheathed form. The solids I have witnessed and watched on my fish cam are wrapped in a clear sheath, which appears to be the slim component of the worm like solid. By sending the solids through a submersible pump they get macerated, thereby breaking them into smaller components, which allows for the heterotrophic bacteria to do a faster job of mineralization. To leave them in the sheathed form may allow them to accumulate in the grow beds often on top of the media.

    The simplest of systems has a submersible pump in a low fish tank that pumps ample water under pressure to the grow beds. The water can be controlled by valves at the grow beds in order to regulate their fill rate while providing some additional water under pressure to be jetted back into the fish tank in a high velocity stream for added aeration. This extra pump pressure allows for purging of the lines to the grow beds by fully opening the grow bed control valves individually for a short period of time. This needs to be done periodically because the fish waste solids are heavier than water and the slow flow up to the grow beds doesn't allow for all of the solids to make it into them. This slow upward flow causes some accumulation of solids in the plumbing, which the purging alleviates.

    The auto siphons return the water to the fish tank from the grow beds by gravity. This is accomplished by using a line connected from the bottom of the siphons below the grow beds to the fish tank above the water level. The grow beds are high enough without being too high, and the fish tank is low enough to allow for a good flow return from the siphons. This pretty much describes the systems I have designed (minus the aeration) and am currently using, which are elegant in their simplicity and very cost effective. Again, to be clear, I have borrowed significantly from others tried and tested work.

    Grow beds can be made of wood with plastic liners, but fitting them with the needed bulkhead fittings that don't leak may prove to be a challenge. However, it is successively done all the time. The bulkhead fittings in the grow bed bottoms are necessary and are part of the siphons. Some Aquaponics system builders use flush valves instead of siphons and slowly filled plastic water bottles to trigger the flush valves. I am told they work quite well and are very adjustable while adding minimal moving parts and complexity even though they are not very aesthetically appealing.

    Hydroponic reservoirs make good grow beds (at least the twelve inch deep square black ones do). These seventy gallon, ten plus square foot (one square meter) reservoirs are what I have used in our systems, and they are very sturdy. These reservoirs do need bottom support when used as elevated grow bed containers because they are made to sit on the floor. The rectangular white ones are very flimsy, somewhat pricey; and I wouldn't recommend them, even though they have a nice form factor of thirty inches wide. They can be used with some side and bottom support.

    I recommend using animal stock tanks as fish tanks. They are twenty four inches tall and, depending on the brand, are very well made from USDA approved polyethylene with UV inhibitors. You don't want to have a black fish tank because it limits the light in the tank making it hard to see the fish. Many fish species do better with more light.

    As for submersible pumps, I recommend magnetic drive (mag-drive) pumps because the motor is in its own sealed compartment and should never leak any oil out into the fish tank water, which would be really bad for the fish. Good ones are relatively inexpensive and have a three year warranty. The pump should be capable of turning over the total gallons in the fish tank about every thirty minutes at six feet of head pressure minimum. Be careful of advertised flow rates at zero head pressure because that doesn't tell you what you need to know for your system (more on this below).

    In sizing your pump, make sure you have enough flow to fill all of your grow beds at least four times and hour. For example, let's say you have a 120 gallon fish tank and two 70 gallon hydroponic reservoirs as grow bed containers for a total of 140 gallons of grow bed capacity. The water in the grow bed will only be filled up to the 60 gallon mark, for a total of 120 gallons for two grow beds. The grow bed media will displace half of that so now we are looking at about 60 gallons of water total in the two grow beds. Not all of the water will drain, so let's say about a total of 50 gallons drains out before syphon break. We replace that four times an hour so we need 4 X 50 = 200 gallons per hour just to fill the grow beds. We need another 20% to jet back into the fish tank for additional aeration, which is 40 gallons per hour. The total water is 200 + 40 = 240 gallons per hour at 6 feet head pressure. This works out to be twice the fish tank volume every hour.

    Pumps come in discrete sizes, so we use a 1000 GPH at 6 feet of head pressure pump. The rule is to always over size your pump in case you wish to add other components to your system later that require water under pressure, like vertical grow towers or an elevated small brooding tank, both of which can gravity flow/overflow back into your main fish tank.

    You should never have any metal in your system or plumbing, including the fish tank, metal grow bed containers without liners, valves, especially copper, zinc or brass because they will leach toxic metal into the water and kill your fish. Just stay completely away from any metal coming into contact with your system water with the exception of iron or stainless steel.

    We use diaphragm type air pumps that require the diaphragms to be replaced after about one year of continuous use, but they are very inexpensive and easily changed. Air pumps are notoriously inefficient. They produce lots of heat and move little air, but they are absolutely essential for your Aquaponics system. You will need a pump rated at about 7 GPH of air for each gallon of fish tank capacity. With a change from 5 GPH to 8 GHP of aeration per gallon of fish tank water (a 50% increase), we saw a better than 1.5 ppm increase in DO (dissolved oxygen).

    The best way I have found to put air into the tank is through cylindrical air stones. Even though they have relatively large air bubbles, they don't clog up as much as the finer bubble diffusers.

    Our DO regularly measures between 6 and 7 ppm depending on water temperature. A study made with tilapia and varying amounts of dissolved oxygen (DO) in the water showed a doubling of growth rate from a DO of below 3 ppm to a DO above 6 ppm.

    Air pumps need to be run 24/7, to do otherwise is to kill fish. After all, how long would you last without air?

    This, and the previous post, describe one type of Aquaponics system with some variation; but, by no means, covers all of them. I've also shared some information about the design of the systems we have up and running. For those of you who will be building your own systems, we're sharing these details about how to build them yourself because we really believe food shortages are coming; and we want to help as many people as possible get prepared. So now you can buy the parts from various vendors and build your own custom systems. As long as you follow the above suggestions, you will have a system that has the potential to work well and produce food because it is properly designed.

    Oliver

    Part Four will be about System Start Up.
    To measure is to know

  2. #2
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    Re: Aquaponics 101 Part Three: System Design, Continue

    Oliver, I really appreciate all the info you are posting, free of charge. I have been searching the inter-net for 2 weeks trying to get info on aquaponics, and everywhere I go, people have their hand out.
    I have learned more in the last hour from you than I have in the last 2 weeks. I have watched all those post on U-tube from folks that seem to be high on something, that profess to have the solution to a cheap DIY for an aquaponic system, but it is a wast of time. I am in the planning stage, but I am getting close. Thank you very much...John
    Don't blame me, I voted for Sara

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    Moderator urbanfarmer's Avatar
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    Re: Aquaponics 101 Part Three: System Design, Continue

    Welcome kyrocketscientist!

  4. #4
    Aquaponics 101 Oliver's Avatar
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    Re: Aquaponics 101 Part Three: System Design, Continue

    Quote Originally Posted by kyrocketscientist
    Oliver, I really appreciate all the info you are posting, free of charge. I have been searching the inter-net for 2 weeks trying to get info on aquaponics, and everywhere I go, people have their hand out.
    I have learned more in the last hour from you than I have in the last 2 weeks. I have watched all those post on U-tube from folks that seem to be high on something, that profess to have the solution to a cheap DIY for an aquaponic system, but it is a wast of time. I am in the planning stage, but I am getting close. Thank you very much...John
    John,

    Thank you for the comment. There are a number of members of this forum that know a lot about different ways to make an Aquaponics system work and work well. So, please ask lots of questions here. You may receive conflicting answers at times but that is because Aquaponics is still in its infancy and we are all still learning.

    Welcome to the DIY forum.

    Oliver
    To measure is to know

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    Re: Aquaponics 101 Part Three: System Design, Continue

    I have a question, what about a bio filter? is it necessary and where would it be located in the system? I added one by the advice of a member on here and I'm not sure of the purpose. Just looking for conformation. Thanks.

  6. #6
    Aquaponics 101 Oliver's Avatar
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    Re: Aquaponics 101 Part Three: System Design, Continue

    Quote Originally Posted by mbrown
    I have a question, what about a bio filter? is it necessary and where would it be located in the system? I added one by the advice of a member on here and I'm not sure of the purpose. Just looking for conformation. Thanks.
    I suggest your read this series of articles titled "Aquaponics 101", starting with part one. I think your question will be answered along with, perhaps, other as yet unasked questions.

    Oliver
    To measure is to know

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    Re: Aquaponics 101 Part Three: System Design, Continue

    in most backyard systems, the biofilter is the growbed, this is where most of the bacteria live that perform the process of breaking down your ammonia to nitrites, and then to nitrates
    add some red wiggler worms in your growbeds to assist with breaking down solids..
    easy peasy HA

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    Re: Aquaponics 101 Part Three: System Design, Continue

    Quote Originally Posted by keith_r
    in most backyard systems, the biofilter is the growbed, this is where most of the bacteria live that perform the process of breaking down your ammonia to nitrites, and then to nitrates
    add some red wiggler worms in your growbeds to assist with breaking down solids..
    easy peasy HA
    Then is the bio filter necessary? My fish seem to be doing well, now, I did have a few die for what ever reason. Could have been me trying to change pH and alkalinity at the same time. I am going to try and add the worms and skip the bio filter, add more aeration and continue to add the liquid seaweed with chelated iron. Also I will add 12 more fish, this will give me 28 commit goldfish in a 300 gallon tank that works on a overflow system so the level only changes 4" total drop.

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    Re: Aquaponics 101 Part Three: System Design, Continue

    @Oliver or?
    You are using a low profile FT to reduce head, how many gallons is your FT('s), what is the foot print? I am still in planning stages and leaning towards an IBC for cost reasons and also for getting more gallons thus more fish. I can however partially bury to get to a desired height, or should I bite the bullet and purchase a tank designed for this? From what I've read a 275 Gallon system should be the minimum to reduce chemistry fluctuations.

    I'm leaning towards drain and fill but not at all against constant flow, would I be correct in stating that the constant flow method will use more energy? Also, you are not using a sump tank to catch solids but are using the additional flow your pump is capable of to clean out the solids in plumbing, correct? I'm assuming you do this after a harvest and with an empty bed, correct? I know most pumps do require some back pressure but can you create enough on the pump w/out damaging pump or are you diverting some back to FT?

    I want a big enough system to start for reasons stated above but I would think if one was planning on having a larger system you would not want several smaller systems thus creating more of a plumbing nightmare. I really would like to have 1k or 1.5k total FT gallons but would this be wise for a beginner?

    Yours or anyone's thoughts please, thanks.
    Certain things catch your eye, But pursue only those that capture your heart.
    ~ An old indian saying

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    Moderator JCO's Avatar
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    Re: Aquaponics 101 Part Three: System Design, Continue

    I don't know what has happened to Oliver, he seems to have disappeared on us, however in the past I have built my FT outside by building a frame work of 4"x4" post 3' or so in the dirt and about 30" above ground. Then I use 1"x6"s to build the sides above ground. Then I dig out the interior into the dirt the desired dept going from shallow to deep to encourage the poo to the deep end to be pumped out. I then mold and smooth the dirt interior to suit my taste then line the dirt portion with used carpet foam padding. The I line the entire interior with 10 mil black plastic (available at Home Depot 100'x20' for about $200.) (You will have plenty left over for lining the the grow beds for raft systems.) I put 1"x6" cap rails on the top all the way around to make it presentable and to hide the plastic that is tacked to the top of the top board.

    As for how big to go...I would go as big as you can afford...regardless of how many grow beds you have gallon wise as long as you have the bio-filter power to convert the ammonia and nitrites to nitrates, that's the major issue. With a big FT, you can always expand your grow beds as you please, but if you have a small FT, you will have to increase it's size in order to be able to handle more GBs. If you have more FT than recommended for the GBs and the plants aren't using all the nitrates, no problem...I have found nitrates to be relatively harmless to the fish (I have never had a problem with nitrates being too high myself) but you have to get rid of the ammonia and nitrites. They are the killers.

    I hope this helps.
    JCO
    Irish eyes are always smiling but
    • "In the eyes of the world, you are only as good as your last success"
    so never forget
    • "MAN IS ONLY LIMITED BY HIS IMAGINATION"

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