diy aquaponics made easy | Second Floor Fish tanks – beam loading for the non engineer

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diy aquaponics made easy

 

Second Floor Fish tanks – beam loading for the non-engineer

Taken in its entirety from: http://www.monsterfishkeepers.com/forums/showthread.php?t=164188 

As posted by:daleros 

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This is a question I see come up a lot and I haven’t seen a good answer yet. Also, articles I have read on the internet seem to be geared for another engineer. So, I am going to try to give an reasonable explanation for people who passed high school math. Also, from the questions and comments, I might rewrite a little of the article.

The first assumption is going to be that the building is built to modern American building codes. These were implemented in about the 1920’s and modern codes haven’t changed much since the 1950s. (40lbf/ft2 room load, 16” on center framing, etc)

Modern rooms are designed to withstand a force of 40lbs per square foot. This is a confusing notion because you can safely place an aquarium that has a floor pressure of more than 40 lbs/ft2. This standard means that you can place 40lbs/ft2 everywhere in the room and still be safe. This is a matter of how to safely load a beam.

So, let’s imagine that we did place steel plates that are 1’X1’ and weigh 40 lbs everywhere in a room. We will use a room that is 8’X16’ for an example. This is a safe room load.

Now, we can re-stack these plates and redistribute the load. This is simplified representation of the plates. This is also a safe room load.

Things can be moved around again. This is also a safe room load.

But don’t do this. This is an unsafe room load.

As you can see in the examples, it you take the beam length and multiply it by 40lbs/ft2, you get the total load that a beam can withstand. The longer a beam the more weight it can hold because it is thicker.

Find your fish tank weight
Water is 8.33lbs/gal. A safe assumption to include the stand, filtration, rocks, and the water in filtration is use 10lbs/gal. Then add the dry tank weight.

Full Tank weight=10lbs/gal + Dry tank weight


Now, you can see if the tank can be placed safely using the 40lbs/ft2 stacked load concept. Let’s use a 125 gallon glass tank (200 lbs dry weight) for an example in our room. Also, the stand will be 18” wide and 6’ long.

Full Tank Weight = (125 * 10) + 200 = 1450lbs
Since we are concerned about weight per linear foot
(Total weight)/(stand length) ---- 1450/6 = 241 lbs per linear foot
We could have calculated the pounds per square foot, but we used the same stacking principal as we did with the steel tiles in example 1.

Now, let’s put it into our room. And see what we get.

Since 241 lbs/ft2 per beam is less than our 320lbs/ft2 per beam this is a safe room load.

Summary:
Calculate the safe beam load ---- Beam length * 40lbf
Calculate the aquarium weight --- 10lbs * #gallons + dry tank weight
Calculate the lbs per linear foot of the stand ---- full aquarium / stand length
Make sure the lbs per linear foot of the full aquarium don’t exceed the safe beam load

Assumptions: The room is up to modern building codes, the beam direction is known


A note about approaching safe loads and exceeding safe loads.
1) If you pass the safe load by a small amount, (less than 10%) you might not be past the safety factor and the situation might be OK.

2) If you pass the safe load by 25%-50% this shouldn’t produce catastrophic results, but probably will cause sag over time. This is not only bad for the building, but can cause a glass tank to crack,

3) If you pass the safe load by 100% or more (i.e.: putting the tank parallel to the beams) you are asking for catastrophic failure during filling.

A final thought. You might have a couch or other furniture in the room that needs to be taken into account as well. People don’t count because they are considered a dynamic load and not a dead load.

Most large lumber yards (ones that sell trusses and engineered lumber) have somebody who can help with this problem.

There have been cases where people have put extra joists and columns in their basement to hold the load. If you do this, place a column under each corner of the tank and put one or 2 extra joists under the tank edges. Also, it helps to lag screw the extra joists to the existing framing. Putting in an extra joist that spans from load bearing wall to load bearing wall can double the load that that particular area can hold. This makes sense; a doubled joist can hold double the weight. Also, there are engineered laminates that can hold more than 40lbs/ft2.

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Last edited by daleros; 08-15-2008 at 1:47 PM..

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http://3.bp.blogspot.com/-Sw6cUgc0TYw/T38X2EYtYUI/AAAAAAAAABI/s7yUY-jzmyk/s1600/What+is+aquaponics+2.jpg | Stocking large fish and Non Custom tank sizes

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Stocking Large fish and Non Custom tank sizes 

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I see a lot of people with different fish in different size tanks. Its a common question for newcomers to ask how to decide what tank can hold what size fish.  I dont feel it is my place to tell people what fish they keep in what tank. In reality if you were to ask me what size cage I would prefer to spend my entire life in, I would obviously say none at all...lol  Thats not entirely true either because for now at least we are all confined to the planet earth.  Even in their natural environment the domain of any species of  fish is finite.  Our modest accommodations for our pet fish are tolerable at best. Before we condemn others for what they choose to keep their fish in we must also realize even a 10,000 gallon aquarium is as a mere "shot glass" compared to the body of water most fish naturally come from.

That having been said, from a humanitarian perspective when asked how large a tank one should have for any fish my thought is as large as you can afford and accommodate.  That isnt always practical so there are some minimum sizes that a fish can tolerate without exhibiting negative behavior or health issues.  My purpose of this article is to provide the hobbyist with the framework to make the best decision that suits their situation.

I often see veteran hobbyists quoting the adult size of a fish for their recommendations on tank size.  I agree as a final quarters for a fish it is important , I also strongly believe one should consider the final adult size of a fish before they buy it or try to get a tank for it.  My feelings on this topic differ from the common views in only one way.  Although a fish may become a foot or even longer as an adult many of the fish that reach such sizes are slower growing as they get older. Most fish older then juveniles come from trade-ins or auctions, or private hobbyists.  A very small percentage of non juvenile Fresh Water fish come from wild caught.  This means that if a hobbyist wants an adult or medium sized fish they must raise it from juvenile or buy one from a trade-in or private hobbyist.  Those fish would not exist in the market if it were not for people who buy them and raise them till they reach the limits of their tank and then sell or trade them.  For these reasons when I see someone who wants to get a fish that gets larger than the tank they currently own Im ok with this concept as long as they are aware of the final size of the fish and know they will have to eventually either sell the fish or get a larger tank.  So it is in this spirit that I offer information on:
"Stocking large fish and Non Custom tank sizes".
The general "Golden Rule" of tank selection is basically that "longer and wider is better than taller".   This has mostly to do with the fact that air enters the water through the surface area (the place where the air meets the water) of the tank.  It is a common myth that the bubbles rising in a tank from an air stone actually add air to the tank water.  The truth is they only add air because they stir the surface which effectively exposes more water molecules to the surface which is the only place they can dissolve oxygen.  In the short time it takes a air bubble to reach the top of the water there is really very little of it (so minute that it really doesnt effect anything) gets dissolved into the aquarium.  We can achieve the same or even better levels of "D.O." (dissolved oxygen) in our aquarium by simply agitating the surface of the tank with the return from our filtration.  Many advanced hobbyist (knowing this fact) dont even own air stones or air pumps.  So this is why it is better to have a tank that is as long and wide as possible.  Since this allows the water to continually acquire as much oxygen as possible naturally without agitation of the surface.  Additional considerations include: Swimming room for the fish you intend to keep, the different strata (areas) of the tank that fish inhabit.

When it comes to recommending tank sizes for large fish, we often find even the advanced hobbyists advising people to get a minimum of 200 gallon tanks etc.  This is really not completely accurate.  As you read on you will notice that there are very specific tank sizes that yield progressive improvements in width and length of aquariums and for the most part most increases in tank volume is just a matter of the manufacturer making the tank taller.  Taller tanks are of little value in giving a fish more room to swim.

Tank Size::
There are basically 5 important aspects of an aquarium.  They are listed in the order of importance:
Length
Width
Height
Capacity
Material

http://www.glasscages.com/?sAction=ViewCat&lCatID=



The above link is a very good representation of the standard (Non Custom) tank sizes available in the industry.
Lets look at how aquarium specifications are commonly displayed.  Take for example a 55 gallon tank.
The Specifications are 48" x 12½" x 21" Tall 55 Gallon Glass Aquarium:  The first number is the length of the tank, The second number is the Width also called the depth, the last number is the height.  The word "Tall" in this example is used to make the customer aware that the last number is the height of the tank.   
*NOTE* Aquariums are commonly measured and referred to(Named) by their outside dimensions, we should not be confused by this "Name" to think it is the actual holding Capacity of the tank.  Due to glass thickness and the physics of measuring somthing from the outside versuses the inside the capacity of the tank is always less than what the tank is "Named", In our example above the tank is called a 55 gallon however if we measure the inside dimensions 47 in L x 12 in W x 20 in H we find our 55 gallon tank only holds 48.83117 US gallons of water - This calculation can also be useful when determining the proper dosages of medication or additives to use in an aquarium.
When looking for a home for a large fish the actual dimensions are more important than the total gallons a tank holds.  In fact the first two numbers are very important indeed.

Lets first think about what our goal is. It is to make our fish as comfortable as it is affordable for us to do so within reason. Ok so what is the minimum required to accomplish this goal?  As an  example lets look at housing an Oscar (Astronotus ocellatus)  or perhaps a pair.  they can get up to 15" or more although the most common size of an adult is about 12".  Lets say we have an adult that is 15 " long. that means if we really want to afford this fish the minimum mobility neccessary we should think of the fish as a ball that is 15" in diameter.   Imagine moving that ball around in a fish tank.  This imaginary ball represents our fishes ability to assume any position and not have to bend its body or have parts of its body patruding from the water.

Length:
If you notice the dimensions of tanks. When one speaks of large tanks you  will notice there are basically four lengths worth consideration:. 48, 60, 72, and 98". A 48" tank is basically the length of three adult Oscars. That is not really a lot of swimming room.  Basically the minimum acceptable length for a 15" fish  is 72" (even thats only 4 adult Oscars long).

Width AKA: Depth
Now the width a large tank which is typically called the depth varies from 12.5" to 48". An ideal Minimum width for a tank containing a 15" fish  would be 18", this allows the fish room to turn around without having to bend its body.


Height
On our reference chart above The heights of large tanks varies from 17" to 31" .  We should concider the habits of the fish we plan to stock when we look at height.  Here we ask ourselves the following:
What strata of the tank will the different fish we plan on keeping inhabit?  What is the swimming habits of the fish I plan to keep?  In our example of an 15" Oscar we need to make sure out tank is at least 15" in height so that our fish can point straight up and straight down yet still remain in the water.Looking at the available dimensions we would consider 17" the minimum height.

Materials
The cheapest choice is Glass.  It is also the heaviest and most resistant to scratches.  The alternative is Plexiglas  which is far lighter more flexible but more susceptible to scratches and considerably more expensive.  an additional advantage is Plexiglas has a refraction index which is much closer to water. this means, theres less distortion when you look through Plexiglas as water than when you look through glass.  You will find it very common for people to say you can easily repair scratches in "Plexi" while this is entirely true it should also be noted that each time you repair a scratch in "Plexi" you will make the area around the scratch appear slightly more "Clear" thus over time you end up with a non uniform view of your fish.


How many fish can go into a tank?

A home aquarium is a balancing act of many factors. Just to name the main few.:
The number, size, and metabolism of the fish you keep,
Filtration,
Surface area of the tank,
Available space in the strata of the tank that the types of fish you keep, inhabit (Bottom, Middle, Top),
Feeding,
Aeration,
Temperature,
Enviornmental stress,
Temperment of fish.
Interrelationships between different species
All of the above plays a huge role in the health and longevity of your fish in a "Home Aquarium."
When you ask people or search online about the capacity of a given tank size. The formulas used to calculate the proper capacity are basically templates to build in a certain level of safety to allow for mishaps and mis- calculations and things that there simply isnt enough time to explain properly to someone who possibly isnt familiar with this balancing act called the home aquarium. As with any "Cookie cutter" formula you can bend the rules. However before you can do so with any hope of success, you need to completely understand the relationships between each of the factors I listed above. You just might find that by the time you do fully understand the above principals you will no longer even want to overstock... - Which is the meaning behind the opening statement, and the reason many people have several tanks. 


As mentioned above the stocking capacity is decided by several factors however two of these factors stand very high on the list.  They are:
D.O. - Disolved Oxygen (Aeration of the water)
Common sense


There are two basic rules for tank capacity. These rules like most rules are designed to be simple and avoid lengthy explanation (and possibly boring new fish keepers like I am now..lol) of the underlining principles. Giving a new user a simple Semi-fool proof guide to which to go out and succeed.

1) Volume Calculation rule - This is most popular one used due in part to its simplicity in explanation. (1 inch of fish per gallon of water.)

2) Surface Area Calculation rule - You seldom hear of this because it is more complex. (The surface area is calculated by multiplying the width times the length of the tank, the tank can be stocked with one inch of fish for each twelve square inches of surface area.)

Both of these rules assume that the fish are slender common variety and must be adjusted for bulkier/more active fish.

Adjustments to Basic rules:
1) Heavier Fish require 1.5 to 2 gallons of water for every one inch of fish
2) Heavier fish require twenty inches of surface area for every one inch of fish.

Since oxygen for the fish in a fish tank is basically supported by the surface area of the tank. In a fresh water tank both of these rules will cover you provided you have ideal conditions plus or minus a few notches in any one parameter (room temp, water temp and barometric pressure.).

Both of these rules allow for electrical failure under semi-ideal environmental conditions as mentioned above. This is the foundation for avoiding overstocking in which case the surface area of the overstocked tank would not be able to support the oxygen needs of the fish.

Now as hobbyists we like to tip the odds into our favor and agitate the water and stock plants. These things further increase the aeration of the tank.

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