How to Build Your Own Nomadic, Hydroponic Garden On a Limited Budget


Introduction: 
 These are plans to make a fairly portable, and very inexpensive 
 water culture (advanced hydroponic) system.  These plans only 
 explain how to make the garden itself, and do _not_ explain how 
 to use/maintain it. If you plan on using this garden, you should 
 get yourself a good book on hydroponics, and look it over 
 (especially the parts about what nutrient solutions to use, your 
 garden vareity Miracle-Gro won't do the trick). 

Disclaimer: 
 I am intentionally leaving out those parts about plant 
 nutrition, light cycles, etc. so as not to appear to be writing 
 a guidebook for growing marijuana.  It is also to make you seek 
 out _another_ source of information so your knowlege of 
 hydroponics comes from more than just this file.  I do not grow 
 marijuana, and never have.  I'm just a high-tech home gardener 
 with information to share.  If you are caught growing marijuana 
 while using the system described herein, don't even think of 
 running to me, I didn't tell you to grow marijuana.  In fact, 
 I'd suggest planting a crop of cherry tomatoes, which can be 
 fooled into producing fruit indoors year round, and is a very 
 easy plant to start hydroponics with. 





Materials: 

 1 5-10 gallon bucket 
 2 Pieces of PVC or ABS pipe, 8-10" long, 5" or greater diameter. 
 4 Caps for PVC/APS pipe ends. 
 1 waterpump capable of about 50 Gallons Per Hour (you will need 
    a bigger pump if you choose to make this a larger system)  
 4' of hose that will fit the waterpump (often 3/8") 
 1 TEE joint (or Y-splitter) that fits the water hose 
 4 clamps for the water hose (one for pump to hose, and 3 for 
     hoses to TEE fitting.) 
 1 Airpump, airstone, and some airline from a fish tank. 
 1 Can White epoxy based spray paint 
 1 Can Black Epoxy based spray paint 

  1. Everything must be made light tight.  Paint all hoses, the 
    bucket, the PVC/ABS (which will be called PVC from now on) 
    and the lid of the bucket with a layer of black paint.  Let 
    it dry overnight, and then cover it with a layer of white 
    paint (to make it reflective, and reduce the temperature of 
    the nutrient solution). 

 2. Take each of PVC pieces and drill a 1" hole in the side, 
    about one inch from the end. Then epoxy the caps onto the 
    ends of the PVC. 

 3. Drill the inlet/outlet holes (these should be located on the 
    caps of the PVC), See diagram 
                                               +------ 1" hole 
                                               V          here 
                ------------------------------  ----
   Outlet ---> |                                    | 
    hole       |                                    | 
               |                                    | 
               |                                    | <-- inlet  
                ------------------------------------      hole 
 
    The inlet hole should be as low as possible  (as close to the 
    wall of the PVC), and the outlet hole should be as high as 
    possible) 

 4. Now cut two 5" holes in the sides of the bucket (close to the 
    top), and epoxy the PVC in place, so about 2" of pipe (and 
    the outlet hole) are inside the bucket, and the 1" hole is 
    facing straight up. 
  
        _ssolve 
    oxygen into the nutrient solution, and not to dissolve CO2.  
    CO2 can kill rootsystems.  If you are growing outside, or not 
    enriching CO2, then the pump can sit anywhere. 

 6. Place the waterpump in the bottom of the bucket (assuming it 
    is a submersible one) and attach a hose to it. long enough to 
    reach the top of the bucket.  Cut a hole in the lid of the 
    bucket for this hose to go through.  Then attach the TEE 
    fitting to the hose.  Now attach hoses to the free ends of 
    the TEE, and run them to the inlet holes on the end of the 
    PVC pipes.  Use clamps on the TEE fitting and on the pump 
    itself, but use epoxy to attach the hoses to the PVC.  This 
    seal must be completely water tight. Let them dry for 24 
    hours. 
 
 7. Put some water in the bucket and turn on the pump.  What 
    should happen is the PVC pieces will fill with water, and 
    then when they are full, they should begin to continuously 
    drain out the outlet holes, and back into the bucket.  If you 
    are getting leaks anywhere, fix them immedately.  If water is 
    coming out of the 1" hole on the top of the pipe, then either 
    your pump is too strong, or your outlet hole is too small.  
    Fix one or the other. 

 8. Empty the system (hint, remove the hose from the pump to 
    drain the arms), and replace the water with some form of 
    hydroponic nutrient solution (look in a hydroponics book for 
    details on what exactly to use, or visit a gardening store, 
    and ask) 

 9. Place your plants into the system.  The best way I have 
    found to do this is to take a 1 1/8" garden hose and cut a 
    1" tube off of one end.  Then slit the tube down one side.  
    Wrap the stem of your plant (just above the roots) with 
    polyester fluff (available at aquarium stores, for stuffing 
    into external water filters) and then wrap the garden hose 
    around the fluff.  Then force the hose into the hole at the 
    top of the PVC arm.  People also have used rubber stoppers. 

 10. Turn on the air/water pumps, and let your garden grow. 

Comments: 
    This is obviously just a small setup, but these plans can 
  easily be modified for much larger systems, using longer pieces 
  of PVC, or more than one pair of arms, and a larger bucket to 
  hold the nutrients (I've seen one made with a 55 gallon drum, 
  and 8 seperate arms, each holding 4 plants) 

    I personally use this setup indoors (under a skylight in my 
  apartment) to grow 2 cherry tomato plants.  What you do with 
  your own garden is your own business, and Obviously I can't be 
  held responsible if you choose to grow anything illegal. 

Starting Seeds: 

  This system is not for seeds.  Either purchase small plants, or 
  start your seeds in a pan of vermiculite, flooded with 1/2 
  strength hydroponic nutrient fluid.  When they are about 4-6 
  inches tall, they are ready to be moved to the system.  Remove 
  them gently from the vermiculite, using clean water to get 
  every last chunk off of the roots.  Then wrap the stems in 
  polyester fluff and garden hose (see above)

Continue reading here: Destroying The Myths Hydroponic F.a.q.'s

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