CERES Pro
Optimize the farm hydraulics and predict your commercial farm Production, Power requirements, Energy consuption, Operating cost, and Profitability.
Enjoy our dedicated assistance.
Design Process
General information
• Indoor farm or greenhouse?
• Dimmensions of the allocated area
• Budget
Required production
• Required production for each selected plant
• Market assessment
• Select the highest revenue makers
Climate
• Farm location climate
• Climate control requirements
• Accessibility
Growing area sizing
• Farm length
• Number of growing layers
• Nursery design
• Equipment requirement
Fish engine sizing
• Mineral requirements
• Fish food requirement
• Fish quantity
• Fish tank optimum size
• Biotreatment system.
Hydraulics design
• Optimum hydraulics design
• Optimum pipe size
• Pump powe
Energy
• Greenhouse climate control
• Aquaponics climate control
• Lighting
• Solar system design
• Hydraulics energy
• Oxygenation
OPEX
• Compensation
• Energy
• Consumables
• Fish
• Seeds
CAPEX
• Greenhouse
• Aquaponics system
• Climate control
• Solar system
• Operator training and coaching
Profitability
• Farm P&L
• Monthly revenue
• Profitability
• Return on Assets
• Profit margin
Operation
• Seeding schedule
• Growing plan
• Harvesting schedule
Support
• Dedicated support group
• Remote coaching
• Onsite coaching ($)
Farm Design Example
Step 1
Defining the crop production targets
We start with the required production.
Current version: 8.15
Step 2
Sizing the farm based on the crop production targets
Once the required production is defined, our Ceres modeling App calculates the growing area required based on the type of equipment selected (MIT45, MIT90, MITduo). This farm will be built with 4 lines of 8 MITduo.
We also select the appropriate additional equipment, like a roofing system.
Ceres sizes the fish engine (fish tanks dimensions, quantity of fish required, daily fish foodrequird, and filtration and mineralization systems). For this farm, we need 4 fish tanks of minimum 1.6m diameter, 1000 fish, and we can expect a fish food requiment of 2kg per day.
Step 3
Defining the required seeding and growing plan
Ceres generates the required seeding plan to reach a steady farm production.
Step 4
Computing the expected monthly revenue
Ceres outputs a summary of the expected production and revenue.
Step 5
Designing the energy systems
In this step, we design the optimum hydraulics system using optimum pipe size and pump power.
We also finalize:
• The energy requirement to grow the plants in the specific climate environment.
• The type of building (greenhouse or indoor, thermal insulation)
• The hydraulics system (pipe size, pumps, oxygenation system)
• The lighting required
• The ventilation system
• The solar energy system
Our farm requires a power of 16kW.
The solar system will be made of 2 arrays of 16 pannels to produce 100kWh per day.
We elected not to use energy storage for night energy requipments.
Step 6
CAPEX required
The cost of building this farm is USD 92,000.
This cost includes:
• The aquaponics farm
• The greenhouse
• The solar energy system
• Piping and installation
• Training and coaching
Step 7
Operating costs
The monthly operating cost is $2,180
The operating costs include:
• Compensation: 2 workers: $1,000
• Electricity over solar provided: $493
• Water replacement: $2
• Fish and fish food: $168
• Seedlings: $93
• Mineral supplements: $71
• Consumables: $44
• Miscellaneous costs: $160
• Maintenance contract: $200
An energy storage system would require $36,000 additional CAPEX and a payout time of 6 years, to reduce the opeating cost to $1,630. The option was not implemented.
Step 8
Profitability
With a depreciation period of 48 month, or 4 years, the monthly profit during depreciation is over $680 and $2,300 after depreciation.
The Return on Assets is over 30%, and the project payout time is 34 months, or 2.8 years.
The farms profitablity after tax is 46%.
Step 9
Operations
This farm starts producing in April 2026.
The production, operating costs, and revenue will be published here.
Production
Date
Product
Weight
Revenue
Green Oak
Kg
$
Cos
Kg
$
Any question?
