final presentation slideshow
TRANSCRIPT
Industry Sponsor: Thomas Grimm, OC Great ParkFaculty Advisors: Dr. Vince Mcdonell, PhD, Dr. Farzad Ahmadkhanlou, PhD
Students: Darren Zack,Teresa Nguyen,Henry Gomez,Mark Annevelink,Lee Tea
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Project Goals
Design an aquaponics system for use in an educationalenvironment. The model should include a 10ft. By 10ft.greenhouse, a composting unit, house freshwater prawnsand 2 types of fish, grow plants and seedlings, and collectand store rainwater.
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New System
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System Components• Greenhouse
• 10 feet x 10 feet, designed to be easily expanded
• Rainwater Collection and Storage• Rainwater is collected and used to replace evaporated water
• Compost Box• Drawers with a removable front panel
• Seedling Box• Drawers with slotted trays
• Fish Tank• Two tanks with tilted bases, circulated with air pumps
• Grow Bed• Two ebb and flow grow beds with nitrogen fixing plants
• Grow Tubes• Multiple tubes hung above the grow beds for added plant capacity
• Control system• Digital controller to monitor sensors (O2, temperature, etc.)
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Greenhouse
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● Base unit is 10 feet x 10 feet x 10 feet● Side panels can open and close for access to hard to
reach areas● Can be expanded to create a rectangular shape, that is
longer than wide
Rainwater Collection System
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● Rainwater collected in gutters● Stored in tank at rear of greenhouse● Elevated so water flows into greenhouse without
using a pump
Compost Unit● Grow worms to feed fish● Time for composting to finish
● Worms: 1-3 months● Black Soldier Fly: 3 weeks
● Design of clear drawers to allow children to see the composting in action
● Drawer pivots on central axis for easy compost removal
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Downselect of Compost Design
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Seedling Unit● Replace mature plants with new seedlings● Clear trays allow students to see root growth● Sell seedlings for profit
● Seedlings grown from seed or clone
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Fish Tanks• There are two tanks, one for koi and the other for striped bass• They have tilted bases to facilitate the collection of wastes• Circulation is done through an air lift• Water is pumped to the growbeds and grow tubes with a water
pump• The prawn cages are located within the fish tanks (not pictured)
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Grow Beds• There are two ebb and flow grow beds
• Bell siphon used to control ebb and flow
• Water drains directly into the fish tank below
• Gravel used as a grow medium
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Grow Tubes• 3 tubes are suspended above each growbed
• Continuous water flow
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Control System• A digital feedback system that allowing monitoring of
system parameters
• Examples: Dissolved O2, pH, Humidity, Temperature, Water Level
• Incorporation of controllers to simplify maintenance and allow remote monitoring
• Integration of a control system is vital for realization of commercial Aquaponic systems in practice
Atlas Scientific Dissolved O2 Kit (Audrino Compatible)
Audrino Environment
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• 256K Flash Memory• 54 Digital I/O pins• 16 Analog Inputs
• Capable of running controllers / sensors in Aquaponic systems
• Open-Source• Allows greater
collaboration with project community
• Simple programming suited for beginners/students
Audrino Mega 2560 R3
Considerations to Aquaponic Control Systems
System will have to have redundancy due to the system being continuously run
The maintenance and building of a control system circuit may be integrated into school curriculums
Power consumption will increase , adding to the total annual power cost
Water-based Ammonium sensor must be regularly replaced
Ammonium BNC sensor deemed too costly
Upwards of $2000 in cost
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Additional Components• Table for pumps and other equipment located in the
back left corner
• Pipe circuit located on the inside of the greenhouse ceiling – water runs through and is heated by sun (not shown)
Lifeforms in Our System
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Life formsLiveable
ConditionsBreeding Feeding
Striped Bass
• Temperature range
around 80 F
• 7-8.5 pH
• Three Phase growth
• 12-16 months for harvest
• Require varying levels of
protein across phases
• 1.5-2% of body weight per
day
• 50% protein , 12% lipids
for brooding fish
Koi• 59-77 F
• 7-8.5 pH
• Harvest time varies
• Most successful
reproduction after 2 years
but can reproduce after 1
• Protein content around
30% with supplements for
carbohydrates
Shrimp/ Prawn
• Prefer temperature ranges
of 75-81 F
• 7-8.5 pH
• Hydrogen sulphide and
chlorine absense
• Will reach 1/10 lb in 4
months , 2-3 annual crops
• Bottom feeders, will eat
leftover fish food and
waste in the system
Worms
• 59-77 F
• Can survive at 10 c but
30C and above will harm
them
• 2-3 weeks hatching
• 6 weeks until reproduction• Feed best at 15-25 C
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Growth Phase 1- from hatching to fingerling size
Raised in sump tanks or hatchery beds 30-45 days before size grading Will feed on zooplankton in this stage
Phase 2- from fingerling to 525 g Grown to 125g before regarded and grown to
525g
Phase 3- 525g to market weight Growout to 725g (~1.75 lb)
Harvest occurs in 12-16 months
Striped Bass
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Breeding Bred as show fish Best reproduction occurs after 2 years of
growth, but can reproduce after 1 Selective breeding can be used to
increase the quality of their coloration. Harvest Cycle
Eggs should be harvested immediately after spawning
Longer harvest cycle since they are bred for show
Koi
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Special Traits and Qualities Will clean out unwanted waste in the system
Territorial, need horizontal room to prevent fighting
Must be partitioned from fish
Higher water flow will also prevent fighting
Reproduction and Harvest cycle Cycle Require brackish water for first 30-45 days
Growpools with mixed freshwater and brine
After brackish water period they are moves to larger tank for growout
Will reach 1/10 pound in 4 months, 2-3 crops annually
Shrimp and Prawn
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Prawn Partition● The prawn will be partitioned
from the fish with mesh wire
along the rear gate
● Layers of netting will be strung
between each vertical layer
giving the prawn horizontal
space to claim their own space
reducing territorial disputes
● The horizontal layers serve to
reduce fighting between the
prawn and maximize the
efficiency of the space allotted
for the spawn
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Vermicomposting● The Process
● Worms are put into compost in order to tun the compost to worm casting● Castings are a potent fertilizer and soil conditioner
● Castings and harvested and compost is replaced ● worms will feed on the compost and reproduce in a 6 week
cycle
● The Benefits● Provides worms and castings as two additional system products● Produced worms can be used as protein sourrce for the fish● Castings can be marketed as a high potency fertilizer
● Worms of Choice● Red Wigglers (Eisenia Fetida)● English nightcrawler and white worms are also viable choices
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Cost AnalysisSystem
AspectPart List SKU/Serial # Quantity Price Per Part Cost
Control
System
Atlas Scientific
Dissolved Oxygen
Sensor Kit
SEN-11194 1 $189.95 $189.95
BNC pH Audrino
Sensor ShieldP-0010 1 $38.55 $38.55
RHT-22
Humidity/Tempertur
e Sensor
SEN-10167 1 $9.95 $9.95
Barometric
Pressure Sensor -
MPL115A1
SEN-09721 1 $12.95 $12.95
Pacific Sentry
Ammonia Aqua
Sensor
5 $8.99 $44.95
G1/2" Water Flow
SensorPOW110D3B 1 $9.50 $9.50
Water Level Switch SEN134B3B 1 $5.50 $5.50
MR-W1-P Flow
SwitchSEN104A2B 2 $12.99 $25.98
Serial Camera Kit 815001001 1 $29.90 $29.90
8" eTapeLiquid
Level SensorSEN-10221 1 $39.95 $39.95
Graphic LCD
128x64 STN LED
Backlight
LCD-00710 1 $19.95 $19.95
Arduino Mega 2560
R3DEV-11061 1 $58.95 $58.95
Wires/Connectors Various $50.00
Total Cost $536.08
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Cost AnalysisSystem
AspectPart List SKU/Serial # Quantity Price Per Part Cost
Plant/Fish Main Tank 2 $400.00 $800.00
Caster Wheels McMst. 9008T48 4 $116.00 $464.00
Glass Window ACRYCLR0.750PM24X48 2 $174.60 $349.20
Growbed 2 $250.00 $500.00
Growbed Stand 2 $200.00 $400.00
Total Cost $2,513.20
Seedling Box Housing & Drawers 1 $170.00 $170.00
Seedling Holder 9 $1.50 $13.50
slide McMst.11435A28 9 $20.57 $185.13
Total Cost $368.63
Compost Box Housing & Drawers 1 $160.00 $160.00
Total Cost $160.00
Greenhouse Aluminum Bars Metals Depot P412-6061 2 $1,261.44 $2,522.88
Polycarbonate
PanelingEnco 319-5055 34 $126.77 $4,310.18
Hinges McMaster 8401A17 13 $13.17 $171.21
Screws McMaster 91465A128 184 $6.07 $111.69
Total Cost $7,115.96
Shrimp Box1-1/2x20 SCH40 PVC
PipeUPC: 038561301298 1 $15.39 $15.39
4x7 feet nylon fish
netting2 $19.99 $39.98
1" PVC Sch. 40 90°
ElbowSKU:413-010 16 $1.85 $29.60
4 square feet mesh
bird wire1 $9.97 $9.97
Total Cost $94.94
Cost of System: $10,788.81
Continued Development In order to create a profit margin on this product we
would need to find a way to find cheaper materials for the system.
Research how to automate a response to a system failure. No human interaction required.
Changes required to the product based on desired location of use (eg. Heating, cooling, ventilation)
Other markets for similar product (eg. Red Cross, Peace Corps., restaurants)
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Conclusion
We have designed a concept for use by young students to gain greater knowledge on food health, water use, and space efficient growing methods. Our system is designed to require minimal human input while maintaining a highly functional system with substantial output of fish and food products.
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