Monitoring Equipment

There are many options for monitoring your homemade hydroponic system. I have put these in order of importance for your system.  Please note that for optimal produce and commercial systems all of these are important.

CF MeterCF Meter

The concentration of nutrients in a solution is measured as Conductivity Factor (CF),  the more nutrients in a solution, the more conductive the solution becomes. The CF level of your hydroponic solution is the most important to control; it is actually possible to starve your plants by having too higher nutrient concentration, this process is called reverse osmosis (some weed killers use this method)

CF Meters range hugely in price, models can be found from around $100 for a hand held model to many thousands of dollars for fully automated CF control systems.

CF Meters can be purchased from Amazon, click here for the CF meter I use Blue Lab Commercial Truncheon PPM / EC / CF Meter

Litmus Paper / pH Meter

The acidity / alkalinity of your nutrient solution is measured as pH.  Pure water has a pH of around 7,  acidic solutions have a pH below 7 and alkaline have a pH above 7.

The pH level of your nutient solution is the second most important.  Different minerals in the solution are released at different acidity levels, there is a chart showing the absorption levels here .  A pH range between 5.8 and 6.3 is good for most plants.

Litmus Paper is a very cheap way of checking the pH level of a solution.  A paper strip is dipped into the hydroponic solution and it will change color.  Litmus Paper comes with a color chart, the strip is compared to the color chart, this will show the pH of the solution.

A pH Meter performs the same task as Litmus paper, the meters do cost a lot more than Litmus Paper.  Most pH meters have a sensor probe and digital display.  The sensor is placed into the hydroponic solution for a specified time and the pH level will be displayed on the meter.  The sesor probe on pH Meters normally need to be re-calibrated regularly, a calibration solution is provided with most sensors, this solution is at a know pH level allowing you to calibrate the meter.

 

Combo Meter

Combination Meters

Combination meters are available and generally work out much more cost efficient than purchasing the meters individually.  The displayed model is available on Amazon, click here to go directly to the Amazon page Bluelab Combo Meter pH, Conductivity and Temperature Monitor

CO2 System

Plants breath carbon dioxide (CO2) and need for photosynthesis.  CO2 is present in relatively low quantities, 300-450 Parts Per Million (ppm) in the air. Plant growth can be increased and accelerated by as much as 35% if the level of CO2 is increased to 1500 ppm.

There are several basic CO2 systems that you can easily build or buy

CO2 Fish Tank SystemFermentation

The CO2 systems used in fish tanks can be used.  Place the CO2 dispersion unit into a container of water.  These units can be purchased from Amazon, click this link to be taken directly to the page on Amazon Hagen Nutrafin CO2 Natural Plant System with CO2 Activator and Stabilizer

Using a plastic soda bottle, a soft plastic tube and a small container.  Drill a hole in the lid of the soda bottle and carefully glue the tubing into it, making sure the hole is completely sealed.  Glue the other end of the piping into the bottom of the container.  Put several inches of water into the container, ensure that the end of the pipe is fully submerged.  Put a cup full of sugar and two teaspoons of yeast into the soda bottle and fill to around 1/2 way with warm water.  As the mixture ferments, CO2 will be produced and slowly released through the water.

Oil Lamp / Candle

The most simple CO2 is an oil lamp or candle (tea lites are good and burn for a long time), as these burn, CO2 is released.  Please remember that fire can be dangerous, ensure that you have these well away from anything flammable.

 

CO2 Bottle SystemCO2 Bottle

For larger scale glasshouses CO2 can also be purchased in gas tanks and be released into the growing environment using regulators and solenoid valves.

Small CO2 gas bottle systems used in fish tanks can also be purchased from Amazon, these are good in a small enclosure.  Click here to go directly to the page on Amazon Fluval Mini Pressurized 20g-CO2 Kit – 0.7 ounces

 

Thermostat

A thermostat is used to regulate the temperature of your glasshouse, they can be used to automatically open and shut windows, run fans and control heaters.

 

 

 

 

 

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Growing Under Lights

We are all familiar with the idea that “Plants require light to grow”, however this is not strictly true. Plants utilize energy in the form of radiation for their necessary processes, solar radiation is the primary source of this energy.

The main photosynthetic of plants is chlorophyll. Chlorophyll mainly absorbs light in the red and blue spectrums.

Visible Light Spectrum

 

What we perceive as ‘light’ is not necessarily what plants require for healthy growth, this is why simply using a normal light bulb is very ineffective.

There are many different lights specifically designed for providing the required light for plants

High Intensity Discharge (HID) Lights

High Intensity Light (HID)HID lights are very efficient. HID lights are always used with a reflector and require a ballast to operate. Check the manufacturers installation instructions to ensure that you have sufficient space around the light, HID lights can produce a considerable amount of heat.

There are two types of HID lights:

High Pressure Sodium Lights (HPS)

HPS lights produce light in the orange to red spectrum, this light can trigger an increase of budding and flowering in plants. HPS are a great supplementary light used with natural sunlight of Metal Halide lights. Bulbs will last up to 10,000 hours operation.

Metal Halide Lights (MH)

MH lights produce light in the blue spectrum, this color light promotes plant growth and is great for leafy green growth and keeping the plants compact (without blue spectrum light the plants will grow thin and lanky). Bulbs will last up to 18,000 hours operation.

 

Fluorescent Grow Lights

Sun Blaze LightFluorescent lights have been used for a long time to encourage growth of plants in fish tanks. Until fairly recently fluorescent lights have not been powerful enough and have been too large and bulky to be used commercially.

There are now compact bulbs and much higher power tubes.

Fluorescent lights are very energy efficient and can have a very wide and varied spectrum of light output, the also produce a lot less heat than HID lights.

Compact Fluorescent LightLights should be placed within a few feet of the plants if possible.

Check that you get the correct light spectrum (red for flowering, blue for plant growth) or purchase full spectrum bulbs.

It is not necessary to use reflectors with fluorescent lights, use reflectors when you need to direct the light to a specific location.

Incandescent Grow Lights

Incandescent Grow LightThese are the cheapest lights to buy and are the most inefficient and are the worst light source for plants.

It would be much more cost effective and you would get a much better light source using a compact fluorescent grow light.

 

LED Grow Lights

LED lights have progressed massively over the last few years and they are now becoming popular in all sorts of technology, this is because they are cheap and very efficient.

There are some drawbacks of using LED grow lights, the main one is that the light can give thLemnis Lightinge plants a very unnatural appearance, the level of light can also be lower than other types of light.

LED lights give of almost no heat so can be place virtually anywhere you want.

The latest LED system I discovered has been developed by Lemnis Lighting. As you can see there are lights in the red and blue spectrum’s to specifically target the requirements of the plants. The missing yellow and green spectrum colors cause the plants to appear unnatural.

 

General Lighting Guidelines

  • Blue light spectrum for plant growth
  • Red light spectrum for flowering and budding
  • Use light reflectors to direct the light
  • Paint and solid walls white to reflect white
  • Watch out for heat from the lights
  • Light your plants for 14-16 hours for foliage growth
  • Light your plants for 12-16 hours when flowering
  • Make sure you plants have darkness of at least 8 hours

 

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Hydroponic Wick System

Hydroponic Wick SystemThis is the most basic Homemade Hydroponic System that exists and is incredibly quick, cheap and easy to build.

This is a great project for your children to complete during their vacation,  not only is is fun and easy to build the hydroponic system, they can also watch their own plant grow.

Have the children decorate the container with paint or stickers to complete the project.

This system is ideal for growing herbs, lettuce and even flowers, I have a Pansy growing in the pictured system.  (The nutrient solution has food coloring in it for clarity.)

The plants can sit on any ledge where they can get plenty of sun.

Basic Design

The nutrient solution is contained in a reservoir underneath the plant pot.  A wick is placed into the plant pot and run down into the nutrient solution.  The wick draws  the nutrient solution up into the plant pot where the roots of the plants can use it.

Design Considerations

  • Select containers big enough for the plant you wish to grow
  • The nutrient needs to be kept in a dark reservoir to stop algae growing, you can decorate the outside of the container to stop light getting in

Design Components

Reservoir

The size of the reservoir is dependent on the size of the plant pot you are going to use, the plant pot needs to sit securely in the top of the reservoir.

In the picture I have used a soft-drink bottle with the top 1/3 cut off and inverted to make the plant pot.  The wick has been thread through the mouth of the bottle down into the nutrient solution.

Ensure your reservoir does not let light in and that it is not susceptible to corrosion.  Good reservoirs are made of plastic, glass or stainless steel.

Wick

The wick can be made from a large number of materials, the material simply needs to absorb liquid.  In the picture above I have used a wick designed for an oil lamp (new wick as oil in the wick will stop it from working).  For larger systems have multiple wicks.

Here are a few household items that can be used as a wick:

  • dish sponge
  • dish cloth
  • piece of a tea towel
  • rope (not nylon)

Media

In the picture Hydroponic Wick System I am using washed Pumice for my Pansy to grow in, other aggregates you can use include washed Gravel, Perlite, Vermiculite and Rock wool.  You can find further information on these aggregates here.

Please send me photos of your Homemade Hydroponic Wick Systems as I would love to see them, email them to Henry(?)HomemadeHydroponic.net

NB please replace the (?) with @ in the email address.

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My NFT PVC Pipe System

I have a small glass house that has my two Homemade Hydroponic NFT systems in it.  I have one system using Panda Film and the other one using plastic pipe, both of these systems have their own Nutrient Reservoir as I grow completely different types of plants in them and their nutrient requirements are not compatible.

Nutrient ReservoirNutrient Reservoir

I have a 20 litre plastic tank, it is raised off the ground so that I can easily get the PVC pipe in and out of it as required.   I have not yet painted the outside of the reservoir, I currently simply cover the reservoir to stop algae from growing.

I have a plumbed in water float valve to keep the water level constant.

I do not have a heater or air supply in this tank.  There is over 60 cm fall from the NFT channel to the reservoir and this is enough to aerate the solution.  I generally only use this system from late spring to early autumn so heating the tank is not really necessary.

Submersible PumpI have a small fish pond submersible pump, shown at the right of the tank in the middle.  There is a black plastic pipe connected to the  pump, this runs to the high end of my NFT channel.

It is important to make sure that the pump is capable of pumping water to the high end of your NFT channel, this is often described as the pump “Head” on the labeling.

NFT - PVC Downpipe ChannelNFT Channel

My channel is about 2m long and made of 80mm white PVC down pipe, I have two of these connected together at the lower end of the channel with PVC joiners

I have cut 60cm holes along the length of both pipes.  I have also made some covers to go over the holes that I am not using, I made these by cutting the side out of some plastic containers and placing a cable tie over the lid to hold it in place.

At the top end of the PVC pipes I have a ‘Tee’ connection in the nutrient pipe from the pump, this allows the nutrients to flow into each of the PVC pipes.

Planting

I generally grow Lettuce or Strawberries or a mixture of plants that have similar nutrient requirements.  I always use plants that are 10-15cm tall and definitely plants that do not require external support.

Make sure you get all of the dirt off the plant roots, I always soak the plants in a bucket of water and then the soil comes of pretty easy.  Run the roots under water to get more dirt off.

I have small grow pots that fit nicely into the holes in the PVC pipe and allow the roots of the plants to easily reach the nutrient solution.

I use a mixture of aggregates to hold the plants in the grow pots.  As the aggregate is not in contact with the nutrient solution, you can use anything from rock wool to gravel.

I currently do not have anything growing in this system and will upload some pictures when I do

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My NFT Panda Film System

I have a small glass house that has my two Homemade Hydroponic NFT systems in it.  I have one system using Panda Film and the other one using plastic pipe, both of these systems have their own Nutrient Reservoir as I grow completely different types of plants in them and their nutrient requirements are not compatible.

Nutrient ReservoirNutrient Reservoir

I have a 68 litre black plastic tank.  I have partially sunk the tank into the ground leaving around 10cm above the ground to provide protection from ground water and soil bound diseases and pests.

The hole that the tanks sits in has a plastic liner and then sheets of polystyrene in it to provide some insulation for the tank.

I have a plumbed in water float valve to keep the water level constant, this is the white device, bottom left in the picture.

I have a stainless steel heater and thermostat, this keeps the nutrient solution at around 20 c, the heater is the silver bar in the bottom of the tank.  I use a pump because of cold ground temperature in spring and autumn, this allow the plants to grow a lot quicker than if the nutrient was not heated.  Plants generally require their roots to be over 15 c to really thrive.

I have a air pump with air stone, the air stone sits underneath the heater close to the pump, this is not visible in this picture.  The air pump is sitting underneath my NFT channel with a green air pipe running to the air stone.

Small Submersible PumpI have a small fish pond submersible pump, shown at the right of the tank in the middle.  There is a black plastic pipe connected to the  pump, this runs to the high end of my NFT channel.

It is important to make sure that the pump is capable of pumping water to the high end of your NFT channel, this is often described as the pump “Head” on the labeling.

NFT ChannelNFT Channel

My channel is about 1.5m long.  I have a board with small sides nailed on to help keep the Panda Film in place.  The board slopes about 3 cm over the entire length, the slope is toward my Nutrient Reservoir (shown in the background).  I have a cord running the length of the channel, the Panda Film edges meet at the cord and I use plastic spring clothes pegs to hold the Panda Film in place.

I also have some small patches of silicone underneath the Panda Film to ensure it doesn’t slide down.

At the top end of the channel I have a ‘Tee’ connection in the pipe from the pump and two pipes running nutrients into the Panda Film, this allows an even flow over the entire width of the channel.  I sometime will put some open weave multi cloth in the bottom of the channel to make double sure that the entire channel has a supply of nutrients.

At the bottom of the channel I have a piece of plastic guttering that collects the nutrients from the channel and drops them back into the nutrient tank.

NFT ChannelPlanting

I generally grow Tomatoes and Cucumbers in the Panda Film NFT system.  I always use plants that are 10-15cm tall.  Make sure you get all of the dirt off the plant roots, I always soak the plants in a bucket of water and then the soil comes of pretty easy.  Run the roots under water to get more dirt off.

I place the plants by cords running down from the roof of my glasshouse.  I support the plant by placing a plastic spring clothes peg either side of the plant, ensuring that the roots are partially in the nutrient solution.

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Hydroponic Aggregates

Aggregates are mediums used to grow plants in, these provide support for the plants and affect moisture retention  and aeration around the roots of the plants.  Jiffy-7 are the easiest for propagating seeds and Perlite is the best medium for propagating cuttings.

When using aggregates it can be advisable to elevate your pump from the bottom of the tank to avoid sucking in residue from the aggregate.

Gravel

GravelCoarse, washed, river gravel is a good growing medium.  Gravel does not absorb any moisture and will retain some moisture on the surface of the gravel.  Gravel sized between 3mm and 10mm is best.

Gravel can be mixed with river sand or Perlite to maintain a higher moisture level in the growth medium.

Ensure that the gravel is carefully washed before being introduced into your hydroponic system.

Jiffy-7

Jiffy-7

The Jiffy-7 Pellet is made from sphagnum peat from specially selected peat bogs. Lime and a special fertilizer with a low ammonium content are added to the peat in order to stimulate growth. The pellets have a pH of approximately 5.3 and are wrapped in a thin, degradable net.

Simply sit in water and the pellet expands upwards. A small indent is on the top of the pellet, place your seed here once the pellet has absorbed the water.

Perlite

PerlitePerlite is a natural occurring substrate formed from volcanic glass,  it is porous and inherently retains water within it’s structure.

Perlite is excellent for rooting cuttings and can be mixed with other aggregates to provide ideal medium for use in your homemade hydroponic system.

Rinse the Perlite in fresh water before introducing to your hydroponic system to remove residual dust.

Vermiculite

VermiculiteVermiculite is a natural occurring mineral that expands when heated in a process called exfoliation.

Exfoliated Vermiculite does not retain moisture and generally is mixed with Perlite to form a growing medium.

The Vermiculite in the mixture provides great drainage, while the Perlite will retain moisture and in combination provides a moist aerated environment for plants to grow in.

Rock Wool

Rock WoolRock wool is manufactured by heating rock to 1600ºc and then either spinning it into fine fibres or blowing air through it resulting in fine fibres.  Rock wool is good at retaining moisture and can be used without needing to be contained in a pot.

Ensure that Rock Wool does not end up getting sucked into your pump or it will quickly block it.

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Aeroponics Technique

Aeroponic PlantAs the name suggests Aeroponics is growing plants which are suspended in the air, there is no soil or aggregate to support the plant.  The roots are misted with hydroponic nutrients, this provides the plants roots with the maximum possible aeration.

Basic Design

A reservoir is partially filled with hydroponic nutrient.  Place a a small pump in the nutrient and attach a series of misting nozzles.  The plants are placed in net cups which are in turn placed in holes cut in the top of the reservoir.  The roots of the plants need to be partially through the bottom of the net cups, this ensures that the nutrient mist covers the roots.

Design Considerations

  • The nutrient needs to be kept in a dark reservoir to stop algae growing, you can paint the outside of the container to stop light getting in
  • An air pump is not required as good aeration is provided to the plants roots in the mist
  • If plants need additional support use string hanging down from an overhead support and tie the plants to it

Design Components

Reservoir

Aeroponic ReservoirThe the reservoir can be any size,  just select a reservoir that fits the location you are going use it.  The nutrient solution should partially fill the reservoir, ensure that the pump is completely submerged to avoid overheating.

If you do not wish to make your own homemade reservoir, you will find reservoirs specifically made for Aeroponics available in you local hydroponic stores.

Ensure your reservoir does not let light in and that it is not susceptible to corrosion.  Good reservoirs are made of plastic, glass or stainless steel, other materials are fine if you use a plastic liner.

Pump

Misting NoozlesYou will require a submersible pump, the pump sits on the bottom of the reservoir tank, attach a pipe to a series of misting nozzles that are situated above the level of the nutrient solution in the reservoir.  I simply use parts from an in-ground watering system available from my local garden centre.  I attach a piece of pipe to the outlet of the pump, this is around 15cm long.  At the top of this pipe I attach a ‘T’ pipe junction and then a section of pipe on either end of the ‘T’ junction long enough to reach most of the way across the tank.  Insert 360º misting nozzles into the horizontal sections of the pipe.

Net Cups

Net CupsNet Cups are used to support the plants.  Cut holes in the top of the reservoir big enough to hold the net cups with around two thirds of the cup below the lid of the reservoir.  Net Cups can be purchased in a variety of sizes.  The plants may also be supported using a Plant Support Disk. Plant Support Disk For you homemade hydroponic system you can also use black polythene cut into a shape similar to the Plant Support Disk and taped to the list of the reservoir.

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Flood and Drain Technique

Flood and Drain Hydroponic system As the name implies this technique involves flooding the growing table with nutrients and then letting them slowly drain back into the reservoir.
There are many commercially available systems, these are good to provide you with design ideas for your own Homemade Hydroponic flood and drain system.

Basic Design

The nutrient solution is pumped from the reservoir under the grow table and then slowly drains back into the reservoir through a drainage pipe of holes.  The pump is only run for enough time to fill the grow tray to the top of the overflow pipe, this needs to be done frequently enough to ensure that the plants roots stay moist.  Plants can be directly planted in aggregate in the grow tray or be in pots sitting in the grow tray.

Design Considerations

  • It may be necessary to change the frequency and length of time the pump is running as the seasons change to ensure that the plants are kept moist
  • The grow tray needs to be above or partially above the nutrient reservoir
  • The nutrient needs to be kept in a dark reservoir to stop algae growing, you can paint the outside of the container to stop light getting in
  • Ensure that the pump stays covered with nutrients when the grow tray is fill to stop the pump motor overheating
  • The addition of an air pump provides good aeration to the plants roots

Design Components

Reservoir

The size of the reservoir is dependent on the size of the grow tray you are going to use, the reservoir should be large enough to fill the grow tray to the overflow height and still leave the pump covered with nutrients.  It is recommended that you use a fish tank air pump to aerate the nutrient solution in the reservoir.

Ensure your reservoir does not let light in and that it is not susceptible to corrosion.  Good reservoirs are made of plastic, glass or stainless steel, other materials are fine if you use a plastic liner.

Grow Tray

The grow tray would ideally be made of plastic and can either sit partially inside the reservoir or on top of it.  Ideally the grow tray would be at least 10cm deep to provide plenty for aggregate or pots to be places and to be completely flooded with the nutrients.

Pump

You will require a submersible pump, the pump sits on the bottom of the reservoir tank, attach a pipe to deliver the nutrient to the grow tray.   The pump should be on a timer that will run for enough time to flood the grow tray to the top of the overflow,  the frequency that the pump needs to run will need to be determined by how quickly the aggregate drys out.  The aggregate should remain moist with little nutrient sitting in the bottom of grow tray.

Overflow Pipe

The overflow pipe is simply a section of plastic pipe that goes through the bottom of the grow tray.  The top of the overflow pipe should be at the maximum height that you want the nutrient level in the grow tray to be at when the tray is in its flooded state.

Drainage Holes

There are several ways to drain the grow tray back into the reservoir.  If the grow tray is sitting on top of the reservoir, simply drill some small holes in the bottom of the grow tray.  It is also possible to put small holes in the side of the overflow pipe.


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Static Solution / Deep Water Culture

Static Solution and Deep Water Culture systems are very similar so I will discuss both of these in this post

Static Solution System

Static Solution is one of the easiest homemade hydroponic systems that you can build.

Basic Design

The basic components of a Static Solution Culture system are a  reservoir and optionally an air pump with an air stone to aerate the nutrient solution.  The lid of the reservoir has holes drilled into it and the plants are suspended through the holes with their roots only very slightly suspended into the nutrient solution.  The plants are generally placed in pots filled with aggregate  to hold them in place.

With this method you can simply have one plant growing in a mason jar or any other conatiner with a lid that you have around the house.  A vase or other stylish container can be used, it’s really easy so give it a try.

Design Considerations

There are a few things to keep in mind when you design your Static Solution hydroponic system

  • The nutrient needs to be kept in a dark reservoir to stop algae growing, you can paint the outside of the container to stop light getting in
  • Ensure that the roots are only just in the nutrient to stop the roots from rotting
  • You will need to refresh the nutrient solution

Deep Water Culture (DWC)

Deep Water Culture (DWC) is another easy homemade hydroponic system that you can quickly build

Basic Design

The basic components of a DWC system are a  reservoir, an air pump with an air stone to aerate the nutrient solution.  The lid of the reservoir has holes drilled into it and the plants are suspended through the holes with their roots suspended into the aerated nutrient solution.  The plants are generally placed in a net pot to hold them in place.

Design Considerations

There are a few things to keep in mind when you design your DWC hydroponic system

  • The nutrient needs to be kept in a dark reservoir to stop algae growing, you can paint the outside of the container to stop light getting in
  • The plants require air around the roots to stop the roots from rotting
  • You will need to refresh the nutrient solution

I have located the following YouTube video which demonstrates building a DWC system.  In the video a system is built for propagating plants, simply up size the reservoir for normal plants.

Please refer to the Vegetable Growing Guide for the required nutrient concentration to place into the reservoir.

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Nutrient Film Techinque (NFT)

NFT ChannelAs the name implies, the Nutrient Film Technique is a hydroponic system based on a moving film of nutrient solution.

This system is widely used in commercial hydroponic installations and can just as easily be used in your homemade hydroponic system.

A NFT hydroponic system can be as small as a single 1m channel to as big as you entire yard, give it a try and you will amazed at how well it works.

Basic Design

The basic components of a NFT system are a sloping trough or channel, a reservoir, a pump to circulate the nutrient solution and some plumbing.

Basic Operation

The nutrient solution enters the raised end of the sloping channel and flows in a thin film to the lower end of the channel where it flows into the reservoir.  The nutrient is recirculated to the top of the channel by means of a pump.

Image by chooyutshing via Flickr

Design Considerations

There are a few things to keep in mind when you design your NFT hydroponic system

  • The nutrient needs to flow not puddle around the roots of the plants to keep the roots from rooting
  • The nutrient needs to be kept in a dark reservoir to stop algae growing, you can paint the outside of the container to stop light getting in
  • The plants require air around the roots

Design Components

Channel

There is an almost endless number of items that you can use as a channel to grow your plants in, here are some of the ones I have used

  • Plastic roof guttering
  • Plastic down pipe with hole cut for the plants
  • A plastic film called Panda Film, this is black on the inside and white on the outside.  I lay the film on a board and fold the two edges up to form a triangular shape.

Reservoir

The size of the reservoir is dependent on the amount of channel that you are installing and the amount of plants you are planning to grow.  A small reservoir with a large number of plants will require dosing daily, a large tank with a large number of plants may only need dosing every two or three days.  Try and set up your channel so that as the nutrient drain from the channel they drop a distance causing bubbles in the nutrient solution, if this is not possible it may be necessary to use a fish tank air pump to aerate the nutrient solution.Reservoir for your Homemade Hydroponic System

Ensure your reservoir does not let light in and that it is not susceptible to corrosion.  Good reservoirs are made of plastic, glass or stainless steel, other materials are fine if you use a plastic liner.

Pump

Submersible Pump for your NFT System

There are a number of pumps that you can use, one of the easiest is a submersible pump.  The pump simply sits on the bottom of the tank with the pump intake on the side, a spigot is provided to attach some pipe to deliver the nutrient to the top of the channel.

Ensure you check the height that the pump is capable of pumping to, this needs to be more than the height of the high end of your channel.  This measure is generally known as the Head.

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