4. Aquaponics Solution
High Efficiency
Quality Control
Synergies
Sustainability
Double Output
Lower Labour
CO2
Heat
Pesticide
Fish Waste
Water Quality
Temperature
Antibiotic
Bio-Secure
Aquaponics Spring Farm3
5. State of the Art Technology I
Mobile Gully System
• Higher Plant Density
• Higher Market Value
(longer shelf life)
• Lower Labour Costs
Geothermal Energy
• Maintain Ideal
Temperature
• Energy Saving Nutrition Film
Technology
• Higher Yield
• Higher Quality
Computer
Monitoring System
• Maximize Fish
Growth Rate
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6. Mobile Gully System
Plants automatically move from planting area to harvesting area in gullies
Space between gullies widens automatically
http://youtu.be/ljVWCtnoyuA?t=1m14s
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7. Geothermal Energy System (HVAC)
Utilize Clean, Renewable Energy
• No Emissions on Carbon Dioxide
Lower Operating Costs
• 30-60% on Heating
• 20-50% on Cooling
Low Maintenance and Long-Lived
• Indoor Components: 25 years
• Ground Loop: 50 years
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8. Nutrient Filter Technology
• water contains nutrients re-
circulates past the roots
CONCEPT 1
• The depth of the stream
is very shallow
CONCEPT 2
BENEFITS
• Roots are exposed to water,
oxygen, and nutrients
• Higher Yield
• High Quality Products
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9. Computer Monitor System
• Measure water quality
based on minute-by-
minute basis
CONCEPT 1
• Maintain an accurate, stable
feeding schedule
• Automatically adjust
oxygenation and flow rates
CONCEPT 2
BENEFITS
• Support fish health
• Maintain a low stress
environment
• Maximize fish growth rate
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11. Benefits of Our System
Benefits
80%
Less Chemical 40%
Less Water
Consumption
20 - 40%
Higher Production
30 - 40%
Energy Savings
(Geothermal)
80 - 100%
Crop Protection
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13. Market Growth
Greenhouse Vegetable
• Increase in Global Demand
• California Drought
• Weak Canadian Dollar
Canada Annual Export Value
2019
Annual Growth Rate = 5.6%
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15. Market Growth
Seafood
Domestic Demand
• Growing Health Consciousness
• Rising Disposal Income
International Trade
• Comprehensive Economy Trade
Agreement with EU
• Global Middle Class Expansion
Seafood Industry Revenue
2019
Annual Growth Rate = 2.7%
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16. Market Growth
Medical Marijuana
0
200
400
600
800
1000
1200
1400
2014 2015 2016 2017 2018 2019 2020 2021 2022 2023 2024
AnnualReveueProjection
Millions
Year
Industry Revenue Projection
• Annual Patient
Growth Rate:
28%
• Industry Revenue
Reaches $1.3
Billion by 2024
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17. Financials
What are we expecting?
Aquaponics Spring Farm
4,320,261
9,338,870
12,000,000
3,179,265
22,080,881
24,090,000
(4,005,051)
3,001,994 4,029,787
(10,000,000)
(5,000,000)
-
5,000,000
10,000,000
15,000,000
20,000,000
25,000,000
30,000,000
2015 2016 2017
Sales
Gross Margin
Net Profit
16
18. Startup Funding
How much money do we need?
Aquaponics Spring Farm
How much are
we raising?
$ 30 Million
How will we spend
the money?
How are we
raising?
Investors
$ 10 Million
Bank
$ 10 Million
Agri Grant
$ 10 Million
Equipment
$ 25 Million
Site Preparation
$ 4 Million
1st Year Operating Expense
$ 1 Million
17
19. Team
What are our experiences and expertise?
Aquaponics Spring Farm
ABC
CEO
ABC
COO
ABC
CMO
ABC
CFO
18
Hinweis der Redaktion
HIGH EFFICIENCY
Double output with lower labour
ALL YEAR ROUND PRODUCTION
Production is no longer affected by seasonal and weather changes
QUALITY CONTROL
Precisely control temperature, humidity, and pesticide
A growing field in which the growing plants automatically move, in plant gullies, from the planting area to the harvesting area.
While moving along the growing field, the space between gullies widens in order to provide an optimum space for the plant in each stage of growth.
Related Videos:
https://www.youtube.com/watch?v=ljVWCtnoyuA (Suggest playtime: 1:14 – 2:38)
During the day, hot air collected in overhead hanging gutters is pulled through by a high-volume air conditioner (HVAC) and cooled with a heat exchanger. Water stripped from the air is saved for recirculation while carbon dioxide is added to the cool air being sent back though the greenhouse via perforated plastic pipes located at the base of the plants. At night, the system is reversed. Cold air is pulled from the hanging gutters and heated by the HVAC/heat exchanger. The heated air is then sent back into the greenhouse through the perforated pipes.
The water for the heat exchanger is maintained separately while small amounts of hot and cold water are kept in storage tanks (another installation uses ditches instead of tanks). The primary reservoirs consist of “storage bubbles” in the aquifer below the greenhouse.