Nutrient Film Technique (NFT) Hydroponic Systems What is NFT? NFT, or Nutrient Film Technique, is a continuous flow hydroponic system that has been proven to show some amazing results. NFT is used by advanced hydroponic growers across the globe and is known to be one of the most productive single hydroponic systems available. Other Hydroponic Systems you should consider Aeroponics - This is the process of growing marijuana in an air or mist environment however without using soil or any kind of medium. Continuous flow – Continuous flow techniques include NFT and Drip systems. The basic concept is a continuous flow of nutrients with good drainage and flow. Deep Water Culture (DWC) + Recirculating direct water culture systems (also known as RDWC) + BubblePonics. Drip Irrigation – Also known as trickle, micro or local irrigation. Uses small emitters to drip nutrients directly onto the roots or soil of your plants. Saves water and nutes, can be used with mediums and soil. Ebb and Flow – Or Flood and Drain hydroponics is simply a method to flood your pots with a nutrient solution at regular intervals and then let it drain back into the reservoir. Buy LED Grow Lights today These are trusted partners to delivery Best LED Grow Lights worldwide. KIND LED Grow Lights - 12 Band Spectrum Expandable grow tent options, check out Why use NFT over other systems like simple Pots? Fast growth and bigger yields - you can achieve up to three times the yield of regular growing in soil; Simplicity – It is actually a very simply operation once set up, it is the set up that needs time and dialling in; Water efficiency – NFT systems are recirculating and self contained so water loss is kept to an absolute minimum; Accurate feeding – You plants take on as much nutrient solution as they require. They are not soaking in nutes or drying out, they have exactly what they need; Fewer pests – No soil or growing medium reduces the places that can harbor pests. Although the concept and mechanics of the system are simple to understand and operate, we would class this as the next step up from a basic Wick System or DWC system. The price for the extra productivity is a finely balanced system that can be sometimes be prone to problems. A simple overnight power outage could ruin the whole system and kill your plants. It is also necessary to provide the three basic hydroponic requirements (air, water, nutrients) in a more balanced way than with some simpler systems. For these reasons we recommend setting up a NFT system if you are an intermediate or advanced hydroponic grower. The effectiveness of NFT as a productive hydroponic cultivation technique is evinced by its common use on large scale commercial operations for everyday crops. Check out this commercial lettuce system. How Does NFT Work? Although the hydro in hydroponics stands for water, providing air to the plants’ roots is just as important a part of the process. NFT systems provide air to the roots by exposing most of the root mass to the air permanently. How it works is that your plants are grown in long channels (sometimes referred to as troughs) with net pots or neoprene collars to hold them in place. A thin film of nutrient solution is continually recirculated along the bottom of the trough, providing food directly to the plants. The bare root mass between the suspended plant and the film of nutrients at the bottom of the channel is kept out of the solution and exposed to the air. There are 3 important factors to consider with NFT systems: Gradient (or Slope) The angle at which the trough is placed is very important to the way that the nutrient solution flows. With NFT systems it is crucial that the solution is not allowed to pool or gather around the roots. Standing water will lead to root rot and negate the benefits of this system; Normally the slope is created during the set up of the system by placing the channels in a framework or on benches, or even on a sloping floor; Even with well designed systems it can be difficult to fabricate a channel that does not allow the solution to pool. Drain fittings, channel joints and even imperfections and depressions in the surface of the channel can cause fluid to gather in puddles. So, although a very shallow gradient (say 1:100 – 1%) is theoretically considered to be best, in practice you will probably be looking at a slope of 1:30 (3.33%) or even 1:40 (2.5%); The actual gradient used will depend on the site specific factors of your set up, such as building materials, length of channel, framework etc... Flow Rate The rate of flow of your nutrient solution dictates how much of the dissolved nutrients is available to your plants. It also, in conjunction with the gradient, dictates the depth of nutrient solution at the bottom of the channel, and this is key to the success of the system; As the name suggests, the system only requires a thin film of nutrient solution to work effectively. Run it too deep and you are defeating the purpose, too thin and there will not be enough nutrients available to your plants. Flow rate is obviously a result of the gradient and pump and, as a consequence, will be specific to your own individual set up; As a rule of thumb a rate of 1 liter (1 ¾ pints) per minute should be your target flow rate. When introducing new plants to the system you may need to reduce this to around 500ml (4/5 of a pint) per minute. At the other extreme, an upper limit of 2 liters (3 ½ pints) per minute should be adhered to. Flow rates out of these limits may cause nutrient uptake issues. Length of Channel Some systems use nutrient oxygenation to further boost the oxygen available to the root system. This can be done with either an air stone in the reservoir or by allowing the solution to ‘fall’ back into the reservoir during its recirculation; The length of the channels that you use has an important effect on the oxygen levels of your nutrient solution. If the channel is too long the oxygen content of the solution will become depleted by the time it reaches the end of its run; The actual maximum length of the channel you use will obviously depend on factors such as your flow rate, gradient and number of plants. As a rule you should not exceed 30 – 40 feet. Longer channels for commercial set ups are possible if you place multiple nutrient feeds, injecting your nutrient solution into the channel, at intervals along the length of it. Flow rates would then obviously need adjusting so that the minimum and maximum flow rates are not exceeded at any point in the system. Evolution of the NFT System Nutrient Film Technology was first developed in the United Kingdom during the late 1960s by Dr Allan Cooper. It was Cooper who realised that flat bottomed channels made for the most efficient nutrient exchange. Original systems used polythene sheets to enfold the roots but these soon ran into problems. Fold and creases in the polythene caused blockages and pooling which in turn led to root rot. Suspension wired used to hold the sheets up just got in the way and blocked oxygen flow to the roots. The next step was to use capillary matting to improve flow and provide a temporary nutrient reservoir in case of interruptions in the nutrient flow. However there were still some problems with root mats limiting oxygen uptake and a build up of waste gases. It was then that the innovation of suspending the plants above the channel in net pots came into being. Using this system, which is widely used nowadays, ensures that there is plenty of room for the roots to breathe and for the nutrient film to flow unhindered. Buying a NFT System There are a wide range of ready built Nutrient Film Technique systems available on the market. It pays to research individual models and read the reviews and comments and ask questions on growing forums. Think about the space that you have available. You will need room for the system itself, plus plants, plus space to work around the system. What grow lights will you be using? The footprint of your NFT system should match the output of your lights. There’s no point in buying a tiny system if you have massive 1000W HPS grow lights, and of course the opposite is true; there’s no point in buying an industrial scale NFT system if you only have 100W CFL grow lights. If you prefer to buy in a ‘ready to grow kit’ there are lots to choose from. You should check out our grow box reviews and grow tent kit reviews. Although these kits mostly come with multiple hydroponic systems, some of them, such as the 5 X 5 grow tent kit, come with systems that are based around NFT technology. Construct Your Own NFT System It is possible to construct your own Nutrient Film Technique system with only elementary DIY skills. What is more important than your DIY skills is your understanding of the concepts of NFT and how it all works together. Many home made NFT systems use PVC tubing or commercially available downpipes to provide the channel element of the system. By cutting holes at intervals along the length of the tube it is easy to insert your net cups or collars. It is then a question of mounting the tubing at the correct gradient and plumbing in a feed from the reservoir. An outlet at the end of the channel with a return to the reservoir completes the system. This simple diagram shows you all of the basic elements that you require. Bear in mind the three factors outlined above. NFT systems can be very space efficient and allow you to be innovative with the use of the space you have available. Spirals and vertical stacking systems are a popular way to mount them. Check out these images of homemade Nutrient Film Technique systems. Controlling Temperature with an NFT System Maintaining correct temperatures can sometimes be an issue with NFT systems. A long channel can result in a significant temperature change of your solution. At the same time, having the bulk of the root mass exposed to the air, with no growing medium for insulation, can also result in unstable root temperatures. Obviously, both of these issues depend entirely on the ambient temperature of the grow room and the location of the reservoir. The optimum temperature of your nutrient solution will be around 65 °F to 70 °F (18 °C to 21 °C). As temperatures rise the Biological Oxygen Demand (B.O.D.) of your plants increases and the ability of the solution to contain oxygen decreases. 65°F to 70°F is warm enough to stimulate vigorous growth whilst cool enough for the solution to carry plenty of dissolved oxygen. There is some considerable leeway with this figure but as a rule, try to keep your reservoir temperature within this range. Above all, try to keep them consistent. Reservoir heating and cooling systems are available if you are having temperature issues with your NFT system. Good reservoir insulation, along with polystyrene pads underneath the channels, should help you maintain consistent solution temperatures. Larger reservoirs will hold their temperature better than smaller ones. Operating a NFT Hydroponic System Despite having talked about some common problems and factors involved with NFT systems, once up and running they are easy to maintain. Keeping on top of temperature, pH and the concentration of your hydroponic nutrient solution (PPM/EC) is very important, but this is also true of all hydroponic systems and something you should already be aware of. These growing tips should help to steer you in the right direction when using a NFT system: Spend time running your system and getting all the settings right before you put in your plants. You don’t want to spoil your first crop by still getting to grips with the system; As your plants take on lots of water the concentration (EC/PPM) of your nutrient solution will rise. Top up regularly with water and maintain your proper levels; Maintain pH levels of somewhere between 5.8 and 6.2; Ensure that the channels where the roots are growing are completely light proof. Light penetration will cause algal growth that can clog up the system and contribute towards rot and other problems; Completely empty and change the solution in your reservoir every week to 10 days; As your roots are bare and supply no real support to your plants, you may need to provide extra support to bud structures as they start to fatten up; Give plants plenty of space. Plants in a NFT system can exhibit explosive growth and may take up more space than you imagined; Wait until seedlings and clones have a very well established root network before introducing them to the system; Fitting a spreader mat between the channel and the reservoir can help reduce noise; Be sure to clean the reservoir and all channels thoroughly between grows. Summary Nutrient Film Technique hydroponics is an advanced hydroponics system that is often used by the commercial horticultural industry and is proven to provide excellent results. NFT systems require careful monitoring and fine adjustments to get right. However, once all the correct factors are dialled in, they can be relatively low maintenance. Constructing your own NFT system is achievable at low cost and with rudimentary DIY skills.