Arduino controlled hydrophonic system

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Introduction

Grow strawberries, strawberry. Strawberry plants are hermaphroditic.

IoT Home growing system

Hydrophonics


Two irrigation categories

  1. Sub-irrigation systems: nutrient solution is supplied from below and roots absorb moisture upward
  2. Top-irrigation systems: nutrient solution is applied from above through drip emitters or sprayers


  • Static solution
  • Continuous-flow solution
    • NFT (nutrient film technique)
  • Ebb and flow (flood and drain)
    • Typical flood rates:
    • Small systems: 2–6 L/min
    • Medium systems: 6–15 L/min
    • Larger systems: 15–30+ L/min
    • flood for ~2–5 min then let drain

Substrates

  • Rock wool
  • Expanded clay aggregate
  • Coconut coir
  • Growstones
  • Perlite / Vermiculite
  • Wood fiber



Aerophonics


Aquaphonics

  • combines aquaculture with hydrophonics

Theory

Continuous flow or pump timer

Timer (ebb and flow?)

  • promotes oxygenation
  • prevents root saturation
  • Simulates natural wet-dry cycles

Continuous flow

  • Constant supply of nutrients
  • May reduce oxygen availability to roots
  • Increases energy consumption.


For an absorbent growing medium with low needs plants 3-5 cycles a day.

1.

The following is a short version of https://www.instructables.com/Arduino-Controlled-Smart-Hydroponic-Modular-System/ by Innovart Studio.

ESP32 instead of arduino: Easier to upload data into a web server.

Structure

  • PVC pipes (100 mm, 40mm), connectors, pump (12V, 23W)
  • Tank in which the water of the system falls

Parameters:

  • Air temperature and humidity
  • Amount of light
  • Water temperature
  • pH
  • Conductivity [water / tds (total dissolved solids) probe] (see Arduino Automated watering system)
  • Time

Actuators

  • Water pump (fountain pump, hydrophonic sump pump, aquarium pump). ~15 L/min = 900 L/h.
  • Growing light
  • Nutrient feeder from a fish feeder. (N, K, P)

pH measurements

If probe stays in reservoir:

  • Weekly:
    1. Clean with mild acid cleaning solution
    2. Recalibrate
  • Monthly:
    1. Inspect for coating or cloudiness
  • Every 6–12 months:
    1. Expect replacement (hobby grade)

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References

https://www.instructables.com/Arduino-Controlled-Smart-Hydroponic-Modular-System/

https://www.mdpi.com/2673-4532/4/2/17

  • Electrical conductivity. Passive components. Stainless-steel electrodes
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