The following covers some of the basics of lighting and considerations for an aquaponics system.
Gardening: Lighting Terminology & Lighting System Comparisons
Lumen: This is the basic unit of light. If you could grab a bunch of light in your arms, the term lumen
would describe the amount of light that you have. Since this is the description of the TOTAL amount of
light, it would go to follow that if you stuffed that light (the ball that you had in your arms) into a jar,
the amount of lumens you have is still the same. Conversely, if you let the ball of light expand to fill
the room the amount of lumens is also the same.
Foot Candle: This is the basic unit of light intensity or how much light you shine on a given area. The
foot candle is based on how many lumens of light you shine on a given area (measured in square
feet). An example would be: If you shine one lumen of light on one square foot - you get one foot
candle. If you shine 10 lumens on one square foot - you get 10 foot candles. Light intensity is what
really counts for plant growth. This is the term that you need to understand, for we will be talking
about it the most.
Watt: The watt is a unit of energy that is commonly applied to electricity. We will be using this term
in relation to artificial lighting.
Lumens per Watt: This is relation to artificial lighting. Lumens-per-watt refers to how many lumens
of light that a bulb generates per watt of electrical usage. The higher the ratio, the more efficient the
lighting system will be.
Reference Points
Outside Daylight: This is the biggy! Direct outside daylight in the summer time is somewhere in the
neighborhood of 10,000 foot candles. This is equal to 10,000 lumens per square foot. If you already
know a little bit about lighting, you will find this really amazing. If not, as our discussion continues this
will eventually hit you as amazing.
Overcast Daylight: 1,000 foot candles.
Open Shade: While standing under a large tall tree, you experience the amount of light referred to as
open shade. The light intensity you experience here is somewhere in the neighborhood of 300 foot
candles.
Deep Shade: 50 to 100 foot candles.
Average Lit Room: 5 to 10 foot candles.
Full Moonlight: .02 foot candles.
Starlight: .00011 foot candles
The human eye is extremely sensitiv. It can see high intensity daylight and something as dim as starlight. This is a ratio of 90 million to 1 when comparing daylight to starlight. What is more amazing is the fact that the eye can make the bulk of this adjustment in a fraction of a second. The rest of the eye adjustment in this situation happens in about 20 minutes.
Lighting Systems
the major lighting systems, their efficiency, and examine how they perform in a
horticultural situation. If, per chance this discussion gets too technical or boring you can skip to the
end of this segment and look at the overall comparison chart to get a general idea of how different
lighting systems perform.
Basis for Calculations: In all of the following examples we are going to assume that the efficiency of
the lighting system is 75%. In other words, only 75% of the light created by the bulb is reflected onto
our example garden. Furthermore, we are going to greatly simplify things by assuming that all of
the light aimed at our target area actually hits the area - there is no "spillage" so to speak. In practice
results will be much different - typically much lower than the stated figures. The idea of this
presentation is to communicate the practicality of different lighting systems by placing them on
common ground (which really doesn't exist) and comparing them to one another.
Incandescent: Incandescent lighting is your common everyday household light bulb. Its efficiency is around 4 lumens per watt. This means that a 100 watt bulb will generate 400 lumens -
TOTAL. (Here's the big leap) Now, if we COULD reflect all of that 400 lumens onto 1 square foot we
would get a light intensity of 400 foot candles. It is really not practical that we could design any
reflector system that is 100% efficient, so for the purposes of our discussions we will assume 75%
reflectance for all of our lighting systems. If we account for the loss in reflectance, we now get 300
foot candles from an incandescent bulb focused on one square foot.
Let's step back here and do a comparison.... 300 F.C. Compared to 10,000? Wow! we aren't even close
to daylight.
If we used one 100 watt bulb over a 4 foot by 4 foot garden the light intensity would be 18.75 F.C.,
Which is totally useless. If we wanted to shoot for 500 F.C. for growing low light plants, we would
need 26 - 100 watt bulbs. If we wanted to shoot for 1000 F.C. we would need 53 - 100 watt bulbs
over our garden. Aside from the electrical nightmare, we have succeeded in creating an easy-bakeoven
instead of an indoor garden. I hope that you see that incandescent light bulbs are truly
impractical for horticultural purposes.
Quartz Halogen: Halogens use about 20 lumens per watt. Halogens are available in 1000 watt bulbs and since we are trying for as much light as possible, we'll use this for our example. A 1000 watt bulb producing 20 lumens per watt give us 20,000 lumens of total light energy. Our hypothetical light fixture can only reflect 75% of this, so we now have only 15,000 lumens to work with. Our sample garden, 4 foot by 4 foot, has 16 square feet. When we shine our 15,000 lumens onto 16 square feet of growing area we get a light intensity of 937 foot candles. No we're getting into a useable range but, there is one major drawback to halogens.....HEAT. Halogens produce a disproportionate amount of heat in comparison to their light output. Let's look for something better.
Fluorescent: Since we are trying to be educated gardeners, we will have sought out the extra high
output tubes for our garden. These Fluorescent tube generate 2750 lumens per 40 watt tube. That's
68 lumens per watt - now we are getting somewhere. Let's use enough fixtures to cover our 4x4
garden. The fixtures are 4 feet long by six inches wide. This allows us to cram 8 fixtures over our
garden - using a total of 640 watts. Each fixture hold 2 tubes, so we have a total of 16 tubes
generating 2750 lumens each - that's a total of 44,000 lumens. Subtracting for the loss due to
reflectance, we now have 33,000 lumens to cover our garden with. 33,000 divided by 16 square feet
equals 2062 foot candles of light intensity, ASSUMING the lights are right on top of the plants. When
you raise the lights to accommodate for the plants the light intensity drops rapidly. When you double
the distance, you cut the light intensity by four times - OUCH. Using an array of 16 - 40 watt tubes
you can expect to achieve about 500 foot candles at a distance of 12 inches. With this setup we can
grow low to medium light plants without burning them.
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Lighting Part 2 <--
Lighting Part 2
