Aquaponic Greenhouse Business Model: Difference between revisions
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(Created page with "=Operations= *Based on Aquaponic Greenhouse prototype *7' Towers with 22 plants each *Ponds with Tilapia for fertilizer *800 still base module, scalable to multiples *Rain...") |
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*Based on [[Aquaponic Greenhouse]] prototype | *Based on [[Aquaponic Greenhouse]] prototype | ||
*7' Towers with 22 plants each | *7' Towers with 22 plants each | ||
*44 tower base model | |||
*Shelves on walls | |||
*Ponds with Tilapia for fertilizer | *Ponds with Tilapia for fertilizer | ||
*800 still base module, scalable to multiples | *800 still base module, scalable to multiples | ||
*Rain catchment for water provision and avoidance water costs | *Rain catchment for water provision and avoidance of water costs | ||
*Deepot automated planting with [[Seedbot]] | *Deepot automated planting with [[Seedbot]] | ||
*Entire structure is 3D printable with the [[OSE Terrabot]] including ponds, glazing, shelves, towers, plumbing, pumps | |||
=Ergonomics and Possible Economic Model= | |||
*Seeding - 5 minutes for 10,000 plants as time to deposit seeds n trays for [[Seedbot]] | |||
*Planting - 100-plant trays take 5 minutes to place in holes | |||
*Harvest - plants are delivered on trays, with pots, and customer empties pots. Harvest is 5 minutes for 100, 25 minutes for 500 biweekly plants | |||
*Cleaning - Trays are pressure washed via another [[Universal Axis Bot]] with [[Plastic Rods]]. Or by hand in 10 minutes on wash table with ozonated water | |||
*Soil fill table - single 100-trays in 5 minutes | |||
*Delivery time - 2 hours for 20 clients. Every 2 week delivery. Plants keep growing as they are alive. 25 plant tray is delivered, and old one is picked up, with $5 tray deposit | |||
*Total time - 5 hr 40 min per month time requirement | |||
*{{check}}$160/hr revenue with 1000 plants sold per month at $1/plant. This does not account for trays. | |||
=Economic Model= | |||
*Proof of above ergonomics results in a robust enterprise model - even if proven at 1/20 the productivity, it results in a $320k/year enterprise if done full time by one person, so it is worth exploring. | |||
*Delivery: delivery of model suggested through a 24 person cohort in 4 years of the [[OSE Apprenticeship]]. Even at a base 'unproductive' state it has a high chance of succeeding. | |||
=Keys to Success= | |||
*Open knowledge integration | |||
*Tight plumbing to minimize humidity | |||
*[[IPM]] and rapid plant cycling, companion plants | |||
*Good airflow | |||
*Automation | |||
=Crowd Development= | |||
*Needs Seedbot, production ergonomics proven | |||
*Needs lage 3D printer for startup. Needs plastic recycling | |||
*$300k should do it, crowd-funded by entrepreneurial stakeholders in an incentive challenge | |||
=Next Steps= | |||
*Aerial drone version of the same eliminates planting time, but since deepots need to be placed in towers, via Seedbot assistance, drones don't necessarily save time | |||
[[Category:Proposals]] | |||
[[Category:Book]] | |||
Latest revision as of 11:02, 28 May 2024
Operations
- Based on Aquaponic Greenhouse prototype
- 7' Towers with 22 plants each
- 44 tower base model
- Shelves on walls
- Ponds with Tilapia for fertilizer
- 800 still base module, scalable to multiples
- Rain catchment for water provision and avoidance of water costs
- Deepot automated planting with Seedbot
- Entire structure is 3D printable with the OSE Terrabot including ponds, glazing, shelves, towers, plumbing, pumps
Ergonomics and Possible Economic Model
- Seeding - 5 minutes for 10,000 plants as time to deposit seeds n trays for Seedbot
- Planting - 100-plant trays take 5 minutes to place in holes
- Harvest - plants are delivered on trays, with pots, and customer empties pots. Harvest is 5 minutes for 100, 25 minutes for 500 biweekly plants
- Cleaning - Trays are pressure washed via another Universal Axis Bot with Plastic Rods. Or by hand in 10 minutes on wash table with ozonated water
- Soil fill table - single 100-trays in 5 minutes
- Delivery time - 2 hours for 20 clients. Every 2 week delivery. Plants keep growing as they are alive. 25 plant tray is delivered, and old one is picked up, with $5 tray deposit
- Total time - 5 hr 40 min per month time requirement
$160/hr revenue with 1000 plants sold per month at $1/plant. This does not account for trays.
Economic Model
- Proof of above ergonomics results in a robust enterprise model - even if proven at 1/20 the productivity, it results in a $320k/year enterprise if done full time by one person, so it is worth exploring.
- Delivery: delivery of model suggested through a 24 person cohort in 4 years of the OSE Apprenticeship. Even at a base 'unproductive' state it has a high chance of succeeding.
Keys to Success
- Open knowledge integration
- Tight plumbing to minimize humidity
- IPM and rapid plant cycling, companion plants
- Good airflow
- Automation
Crowd Development
- Needs Seedbot, production ergonomics proven
- Needs lage 3D printer for startup. Needs plastic recycling
- $300k should do it, crowd-funded by entrepreneurial stakeholders in an incentive challenge
Next Steps
- Aerial drone version of the same eliminates planting time, but since deepots need to be placed in towers, via Seedbot assistance, drones don't necessarily save time