Automated Aquaponics System
Aquaponics is termed as a process in which fish farming and soilless vegetation (hydroponics) are combined in such a way that the waste produced by amphibious animals, which contains essential nutrients for the plants are provided to plants by using water as a medium. Currently the world is in great
2025-06-28 16:30:21 - Adil Khan
Automated Aquaponics System
Project Area of Specialization Internet of ThingsProject SummaryAquaponics is termed as a process in which fish farming and soilless vegetation (hydroponics) are combined in such a way that the waste produced by amphibious animals, which contains essential nutrients for the plants are provided to plants by using water as a medium. Currently the world is in great demand of the organic food and traditional farming is not capable to meet the requirement organic food as it requires lot of land, water and suitable environmental parameters. Considering, this approach will require less land and the water will be continuously recycled so it will also use less water. The manual monitoring of the system will be very time consuming and inefficient which can be countered by using a system made up by using arduino based microcontroller. This may extensively lessen the human intervention in the approach and efficiency of the system will be increased to maximum extent. By adding modern technology a sustainable system will be developed which can be planted in densely populated areas where there is shortage of water and land due to which they are not capable to produce organic food using traditional methods. The system proposed here will be compatible to monitor the system by using different devices and sensors. The data collected from sensor will be accessed automatically by arduino.
Project ObjectivesThe objective our project is to improve aquaponics so it is affordable to the masses, especially those in food deserts and homeless veterans. Even though aquaculture and hydroponics are mature and profitable industries, aquaponics is not yet widespread. We think that aquaponics is ready to break through its glass ceiling and become more widespread.
Project Implementation MethodProject implementation method is divided into following phases:
1. Initiation Phase: This phase includes;
- Project overview, goals and objectives
- The project organisation and structure, including roles and responsibilities of each project member
- Project status meetings, frequency and participants
- Project target milestones (key deliverables)
- Project risks
- Project logs
- Training and skills transfer
- Quality Assurance
- Maintenance and Support
- Change management procedures
- Acceptance/sign-off of key deliverables
2. Planning Phase: this includes;
- Project activity planning
- Project activity scheduling
- Organisational and resource planning
- Procurement planning
- Communications planning
- Risk identification, quantification and management
- Training and Skills transfer planning
- Quality planning
3. Control Phase: It includes;
- Project plan execution
- Project schedule execution
- Activity execution
- Quality assurance
- Project communications
4. Execution Phase: It contains;
- Change control
- Schedule control
- Quality control
- Risk control
- Cost control
- Performance reporting
5. Project Closing Phase: it includes:
- Acceptance / agreement on completion of key deliverables
- Completion of outstanding documentation
- Environmentally responsible with low water usage and low power usage.
- The primary inputs to the system are Fish food and water.
- Little to no Chemical usage. Aquaponics requires no synthetic fertilizers and few pesticides.
- Many of the plants that thrive in Aquaponic growing are very easy to grow.
- Low susceptibility to pests and diseases
- Timely crop turn around
- Increased crop production per square foot versus traditional farming
- Multiple crops and fish can be grown from the same system
- Fish can be harvested as an additional food or revenue source
Aquaponics has been considered as having great potential as an organic production method of aquatic organisms and vegetables, because the nutrient-rich water from aquatic organisms is utilized for plant growth. The essential elements of an aquaponic system consist of the following five: a tank to maintain aquatic organisms; a clarifier or sedimentation; a biofilter; a hydroponic component; and a sump pump. In this paper, we propose the design and implementation of a flood and raft technique of aquaponic system. The proposed aquaponic system will work efficiently during the entire crop cycle without any problems or deficiencies from lack sump. No changes are required in the flow of water in the aquaponic system during the growing season. Tilapia survival is supposed to be 97.2 ± 2.4 %. Specific growth and food conversion ratios mighty vary a bit from 4.95 and 0.99, respectively.
Final Deliverable of the Project HW/SW integrated systemType of Industry Agriculture Technologies Internet of Things (IoT)Sustainable Development Goals No Poverty, Zero HungerRequired Resources| Item Name | Type | No. of Units | Per Unit Cost (in Rs) | Total (in Rs) |
|---|---|---|---|---|
| Total in (Rs) | 69900 | |||
| water tank | Equipment | 1 | 4800 | 4800 |
| growbed | Equipment | 1 | 3500 | 3500 |
| frame set for holding | Equipment | 2 | 2550 | 5100 |
| pipes & sanitary | Equipment | 1 | 2500 | 2500 |
| gravel | Equipment | 40 | 45 | 1800 |
| air pump | Equipment | 2 | 450 | 900 |
| growing medium | Equipment | 1 | 700 | 700 |
| pH sensor | Equipment | 1 | 7000 | 7000 |
| temperature sensor | Equipment | 2 | 700 | 1400 |
| fish | Equipment | 5 | 800 | 4000 |
| plants | Equipment | 20 | 150 | 3000 |
| humidity sensor | Equipment | 2 | 400 | 800 |
| arduino | Equipment | 2 | 3000 | 6000 |
| nitrate senson | Equipment | 1 | 9500 | 9500 |
| dissolved oxygen sensor | Equipment | 1 | 14000 | 14000 |
| electrical tape | Miscellaneous | 2 | 900 | 1800 |
| buzzer | Equipment | 2 | 200 | 400 |
| solder | Miscellaneous | 1 | 1200 | 1200 |
| soldering wire | Miscellaneous | 2 | 500 | 1000 |
| capictors and resistors | Equipment | 50 | 10 | 500 |