Hydroponic Drip System, Types, Advantages – a Full Guide

Hydroponic Drip System, Types, Advantages – a Full Guide

Introduction to Hydroponic drip system

Hydroponic drip systems can easily be designed in several ways, as well as from small to large systems. But they’re particularly useful for larger plants that take a lot of root space. That’s because you don’t require large volumes of water to flood the system, and the drip lines are easy to run over longer spaces. When using a larger amount of growing media for hydroponic plants, more growing media retains more moisture than smaller amounts, and that’s particularly beneficial to large plants because it’s more forgiving to the plants. Forgiving meaning that the plants aren’t as sensitive to watering times, so don’t stress immediately if they don’t get watered on time for one reason or another. Drip system hydroponics is popular in all the hydroponic systems. This type of hydroponics borrows the most water-efficient irrigating method used in traditional cultivation and adapts it to a soilless growing system that’s so simple, efficient, and versatile that it’s being used to make bountiful crops by everyone from city dwellers living in small apartments to some of the biggest commercial hydroponic farms the world over.

A step by step guide to Hydroponic drip system.

A drip system is an active hydroponic system and this means that it uses a pump to feed your plants with nutrients and water regularly. It is also called a trickle system or micro-irrigation system. As the name suggests, the system uses small emitters to drip the nutrient solution directly onto plants. The system uses a network of feeder lines to deliver the water to the plants and this kind of drip hydroponic setup is best suited for large growing operations. This is the main reason for commercial operations preferring drip hydroponics over other systems. Vertical farming is another application that drip hydroponic system is well-suited for, as you just need to pump water to the top of the system and then let gravity do the rest. Drip irrigation systems recommend for both beginners and advanced hydroponic growers.

Types of Hydroponic drip systems

Two types of hydroponic drip systems

Recirculating or recovery drip systems

For home growers, the recovery or recirculating drip systems are by far the most commonly used. The recirculating drip systems are like it sounds, it simply refers to reusing or cycling the used nutrient solution after it has wet the roots back to the reservoir where it can be recirculated through the system, and used over and over again. Recirculating systems are also known as recovery systems because it refers to recovering the used nutrient solution so it can be recirculated through the system again.

Like any hydroponic system that recirculates, a recirculating drip system’s nutrient solution can change in both the pH level as well as nutrient strength levels as the plants use up the nutrients in the water when it circulates over and over. Because of this, recirculating systems require that you periodically check and adjust the pH level as needed, as well as change the nutrient solution regularly to maintain a balanced nutrient solution for the plants.

Non-recirculating/non-recovery drip systems

For commercial growers, the non-recovery drip systems are most common. The nutrient solution in non-recirculating or non-recovery drip systems tends to be less maintenance, mainly because none of the used nutrient solutions is recycled back into the reservoir. This means that you can fill the reservoir with a balanced, pH level adjusted nutrient solution and it won’t change, so you don’t need to keep monitoring it. As long as you keep the water in the reservoir slowly moving or circulating so that the heavier mineral elements don’t settle at the bottom, it will remain a balanced pH adjusted nutrient solution. In this method, the excess water is not sent back to the reservoir instead it’s removed as wastewater. The water wastage for the drip system is less. The positive side of this system is that the pH level of the reservoir won’t change as no wastewater is getting into the reservoir.

Drip Hydroponic system working procedure

The system uses individual pots for plants and the water from the reservoir is connected to the plants by a network of tubing. There are mainly two ways to apply pressure to the water supply. And it can be a regular water pump or a gravity-based system. Each plant gets at least one dedicated drip emitter and each emitter has mechanisms that allow you to control the flow of water. This adds to the overall versatility of the system; you can set different flow levels for different plants.

The flow to the plants has to be regulated in a drip system and the growing media needs to be given time to breathe in between flows. If left uncontrolled, a drip will flood the plants and eventually drown them. Then, all drip systems use some kind of timer system to regulate the flow of water and nutrients to the plants. In typical situations, the pump is operated many times a day to send water to the plants. Such a drip system requires considerable planning and effort in the initial stage. But once the drip lines and carefully installed, the drip system can run with minimal assistance. Then, these systems can be designed to have a high degree of automation.

A step by step guide to Hydroponic drip system.

Build a drip hydroponic system is;

  • A container for the plant’s roots to grow in and to hold the nutrient solution.
  • A submersible fountain or pond pump.
  • A light timer to turn the pond pump on and off.
  • Some tubing to run from the pump in the reservoir to the plants (the drip lines if you use different sizes).
  • Tubing (PVC or flexible tubing) to run the return lines for the extra nutrient solution from the plants back to the container.
  • You can use drip emitters, or you can poke small holes in the tubing with a hot paper clip for the nutrient solution to drip out of like we like to do.
  • Growing media for the roots to grow in and help support the plant’s weight.

The hydroponic drip system operates is simple. Water or nutrient solution is pumped up from the reservoir through tubing to the top of the growing media (where the roots are), from where it drips out of the tubing onto the growing media. The nutrient solution drains down soaking both the roots and then growing media to the bottom of the container. The nutrient solution flows through an opening, and gravity allows the nutrient solution to flow downhill through tubing back to the reservoir. It’s important to remember that the plants growing container needs to be at least 6 to 8 inches or so above the top of the reservoir, so that gravity can drain the excess water back to it (water won’t flow uphill without a pump).

Requirements for a Hydroponic drip system

Requirements for a Hydroponic drip system.

Growing containers for drip system Hydroponics

You have a lot of flexibility with the growing container aspect of the hydroponic drip system. You can use one large container for all plants, separate growing containers for different kinds of plants, or individual containers for each plant. Whatever growing container setup you use, make sure you have a way for the nutrient solution to drain out of the bottom and either get sent back into the reservoir or collected for discard.

Growing medium for drip system Hydroponics

With drip system hydroponics, you need a growing medium that will support plants and can hold water and air while providing good drainage. Suitable media contain lightweight expanded clay aggregate, coco coir, and rock wool. For less precise irrigation systems, you can aid drainage by placing river rocks at the bottom of growing containers.

Nutrient solution reservoir

Your nutrient solution reservoir must be a closed container made out of an opaque material that doesn’t pass light, to discourage algae and bacteria growth. And, make sure it’s situated so you have easy access to monitoring and refilling.

Assemble a simple Hydroponic drip system

  • Using a drill cutter, drilling a hole on one end of the bottom of the flood or grow tray. Then, this hole connects the drain line from the grow tray to a hole in the lid of the solution reservoir. Cover the hole with a furnace filter to prevent the medium from falling through to the reservoir.
  • Then, fill the grow tray with well-draining media such as rock pebbles. The grow tray is located in an elevated area to allow draining by gravity.
  • Fill the grow pots with more water-holding media such as rock wool and perlite-vermiculite mix. Put a single plant in each of the grow pots and place them on them in the drain tray. Remember to use the recommended plant spacing guidelines.
  • If the solution chamber is transparent, and paint it black to make it light-proof. Remember to scratch off a vertical line that will serve as the level meter and drill 2 holes on each end of the lid of the reservoir. One inch hole is for the airline from the air pump to the air stone and then electric cord to the submersible water pump. The other hole is for the inch tubing is delivering the nutrient solution from the air pump to the manifold. Cut out another hole on the lid of the drain line from the grow tray and the drain line holes can be as many as the drain pipes.
  • Connect one long inch line from the water pump to the manifold and connect each drip line from the manifold to the respective grow pots on the grow tray. The drip lines already fitted with water emitters.
  • Fill up the reservoir with nutrient solution and then test and adjust the pH level accordingly. Put the submersible water pump, air stone, and connect the lines accordingly. Connect the water pump to the power output to kick-start the drip hydroponic system.

Plants grow with a Hydroponic drip system

Hydroponic Coriander.

Some of the plants grow with a hydroponic drip system;

  • Coriander
  • Mint
  • Lettuce
  • Leeks
  • Onions
  • Melons
  • Peas
  • Tomatoes
  • Radishes
  • Cucumbers
  • Strawberries
  • Zucchini
  • Pumpkins
  • Herbs

Drip systems are especially suited for larger plants. These plants need larger growing media, which can retain larger amounts of moisture for a more extended period. Thus, despite the slow watering system, the larger plants get proper hydration and nutrition in a drip setup. For best results, a slow draining medium is preferred. The most popular options in this category contain Rockwool, peat moss, or coconut coir. Other media like clay pellets, perlite, and gravel can also be used successfully.

Advantages and disadvantages of drip Hydroponic system

In hydroponics, a drip system has the following benefits;

  • Hydroponic drip systems are simple to build and use for growing plants year-round.
  • Provides more control over water and nutrient supply
  • A flexible system that can be scaled for growth
  • Requires low maintenance compared to other methods
  • Affordable and cheap installation
  • Less chance of system failure

Disadvantages of hydroponic drip system are;

It also has the disadvantages as follows, particularly from a non-commercial perspective;

  • Might be too complex for a small grow operation
  • If using water recycle system, maintenance is very high (for reservoir water)
  • If using a non-recovery system, then there is a chance of waste

Set up a drip Hydroponic system

The drip hydroponic system is very flexible. For a basic drip hydroponic system, you will need the following essential items;

Drip Emitters – Depending on the number of plants you plan to grow, and you will have to buy an emitter for each plant. They are readily obtainable at garden centers and hydroponic suppliers.

Thin Tubing – Tubing is readily obtainable in the market and is perfect for a drip emitter.

PVC Tubing – The main lines that carry the water and nutrients from the reservoir pump to the emitters. Pump size for drip hydroponics is also very important for this system. Depending on the size and complexity of setup, the length and number of tubes required will vary. For smaller home-based setups, 2-inch tubes are enough.

Water Pump – A regular submersible pump is more than adequate for the task and capacities of between 120-300 gallons per minute should suffice for smaller setups.

A Tray – In smaller recirculating drip setups, you can get the best results by having all the pots drain into a common tray. Then, this is a simpler option than having separate run-off tubes from each pot to the reservoir.

A Large Bucket/Bin – This will act as the reservoir and choose between 10-20 gallon volumes depending on the size of your setup.

Drip ring – A hydroponic drip ring ensures that you don’t waste water in a conventional soil garden, for example in organic gardening practices. In Hydroponics, where nutrient-rich water is recirculated, a drip ring helps maintain even and consistent moisture levels in the root zone; avoiding dry pockets or spots that can stay more water logged-and potentially anaerobic.

Also, the hydroponic drip system essential things have small pots for your plant, a garden timer for the pump, aquarium grade silicone sealant, a hydroponic growing medium like coco coir, a power drill, and a hacksaw or PVC cutter to cut the pipes

  • The basic drip setup is simple. Place the pump inside the reservoir, and connect it to the emitters using the PVC and spaghetti tubing. Put individual drip emitters into the growing medium in each pot.
  • Don’t forget to have drainage holes in the pots.
  • Incidentally, you can get the system to work without drip emitters. You can just poke holes in the tubing and apply that directly to the growing medium instead. But the emitters do provide additional control over the water flow.
  • Place the pots in the tray, and place the set up in such a way that the run-off drains into the reservoir. Give it at least several inches of height advantage over the reservoir for gravity to affect.
  • If the reservoir is in a higher location, you will require a pump to get the water back in.
  • Attach the timer to the pump power source, set it to run on a daily schedule, like for 5 minutes thrice a day or something similar. It can vary depending on the water requirements of the plant.

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