commercial recirculating aquaculture systems: design ... · • system design load: ½ lb/gallon...
TRANSCRIPT
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Commercial Recirculating Aquaculture Systems:
Design Basics and Economic Realities
By: Greg TrussoGlobal Aquaculture Supply
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Benefits of RAS
• Increased control of system• Minimal water use• Higher density• Increased biosecurity• Year-Round Growing Season• Locate anywhere• No limit on species selections
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Basic System Components• Tanks• Water Movement• Mechanical Filtration• Biological Filtration• Gas Control• Disinfection• Temperature Control
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Tanks
Water Movement
Mechanical Filtration
Biological Filtration
Gas Control
DisinfectionTemperature Control
Recirculating Aquaculture Systems
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Tanks
• The most important component of your system• Two main materials used in RAS
• Fiberglass• Plastic
• Lined metal and wood tanks are also sometimes seen
• Fiberglass is most common, but most expensive• Plastic tanks work well up to roughly 2,500
gallons• Lined tanks can be very economical, but need to
be installed properly
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Tanks
• 2 Crucial Factors• Drain Design• Width to Height Ratio
• Simple tanks use a single bottom drain• Optimal drain design is the “Cornell Dual Drain”
• One drain on the side receiving the majority of flow
• One drain in the bottom receiving the majority of solids
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Tanks
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Water Movement
• Pumps are the most common device
• Sizing depends on system volume and
turnover time• Typcally 30-60 minutes
• Types include• Centrifugal• Vertical Turbine• Magnetic Drive• Submersible
• Proper Sizing drives system efficiency
• Utilize Gravity!
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Pumps
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Airlifts
• Some systems utilize airlifts for water movement
• These generate very low head pressure, but can move water efficiently when properly designed
• Simply inject air into a column of water
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Mechanical Filtration
• Used to remove solid waste from system
• Sizing Criteria:• Flow Rate• Micron Size
• Well designed systems can pull solid waste from the water within minutes.
• Mechanical filtration comes in many varieties
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Radial Flow Settlers• Radial Flow/Swirl Separators
• Passive Filtration• No Energy Use• Excellent for removing large solids• Must be combined with another filter
for small solids
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Sand/Bead Filters
• Fixed Bed Filters • Backwash accomplished by reversing water
flow• Medium-High Pressure• Simple operation• Readily Available
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Bag Filters
• Very simple • Low cost• Utilize a fabric filter sock placed in a vessel
housing• Somewhat maintenance intensive• Manual backwash/cleaning• Lack of maintenance can cause flow loss
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Drum Screen Filters• Most commonly used in medium-large
RAS systems• Available in a variety of screen sizes
and flow rates• Gravity fed, low pressure• Self Cleaning, Low Maintenance
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Biological Filtration
• Filters create habitat for nitrifying bacteria
• Bacteria convert Ammonia to Nitrite then Nitrate
• Most Common Biofilter Types Include• Moving Bed Bioreactors• Fluidized Sand Bed
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Biological Filtration
• Moving Bed Bioreactors• Utilize a heavily aerated media bed• Media is constantly in motion• Very low head pressure• Take up large amounts of space• Scaleable from small to large systems
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Biological Filtration
• Fluidized Sand Beds• Vertical Columns filled with sand• Sand is kept in motion via water flow from
bottom to top• Low Floor Space Requirements• Low-Medium Head Pressure• Sand provides excellent surface area-volume
ratio• Require more experienced operator
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Gas Control
• Aeration/Oxygenation• O2 is provided to fish via air or oxygen• Air is typically used smaller or lower density
systems• Oxygen is used in systems of all sizes• O2 allows higher density and better water
clarity
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Aeration• Air is provided via mechanical pumps
• Regenerative Blowers are most common
• Other types include• Diaphragm Pumps• Linear Piston Pumps• Compressors• Centrifugal blowers
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Oxygen
• Oxygen is provided via liquid oxygen or O2 Generators
• Choice depends heavily on site specific conditions
• Typically, O2 Generators require higher initial investment but can be cheaper in long term
• Oxygen is injected into water under pressure using one of the following:
• Spece Cones• Ceramic Diffusers• Low Head Oxygenators
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UV
• Disinfection is primarily accomplished via UV or Ozone
• UV systems utilize ultraviolet light to render organisms unable to reproduce
• Operation is simple, and does not require much maintenance
• Can be sized for many different pathogens
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Ozone
• Ozone systems generate Ozone gas and inject it into the water
• Ozone is a strong oxidizing agent and has many benefits for water quality and pathogen control
• Ozone systems require expert sizing and multiple components
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Aquaponics
• Aquaponics provides a unique opportunity
• Can generate a secondary crop while removing final waste products
• Systems have the ability grow many different plants
• Requires additional staff and knowledge
• May require additional permitting
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Monitoring and Controls• All RAS systems should be equipped with
monitoring• At harvest densities, systems can crash within
minutes, resulting in significant loss
• Parameters Monitored should be: O2, pH, Temperature, Salinity, ORP, Flow, and possibly more
• Test other parameters like Ammonia, Nitrite, Nitrate by hand
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Saltwater Systems
• Saltwater Systems are very similar to freshwater, with two main differences
1) Higher Grade Stainless Steel2) Foam Fractionation
• Foam Fractionators and very fine solids.
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RAS Economics
• Major Costs Include:• Feed ($0.75-1.00/lb)• Labor• Electricity• Fingerlings• Building/Site
• All of these need to be considered and accounted for in a business plan prior to building a farm.
• Can you sell fish at a price that covers this cost plus a profit?
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KNOW YOUR MARKETS!!!!!
• One of the most common failures of aquaculture producers is not knowing their market, or overestimating their market.
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Example System 1
• 8x 2,500 Gallon Tanks
System Cost: $175,000-$225,000
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System Economics
Example 1
• System Design Load: ½ Lb/Gallon (60 kg/m3)
• Stocking Events: 1 tank monthly
• Max standing biomass: 6,000 lbs
• Species: Tilapia• Fish size at stocking: 40g
• Fish size at harvest: 600g• Monthly Harvest: 1,200 lbs• Annual Harvest: 14,400 lbs
• Price per lb: $7.00• Annual Revenue: $100,800
• Annual Costs:• Feed: $10,800• Fingerlings: $9,600• Electricity: $8,500
(estimate)• Leaves $71,900 for
Labor, Building, Insurance, Updates, and payment on system.
• No Mortality Loss Considered
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System Economics Example 2
• System Design Load: ½ Lb/Gallon (60 kg/m3)
• Stocking Events: 1 tank monthly
• Max standing biomass: 6,000 lbs
• Species: Tilapia• Fish size at stocking: 40g
• Fish size at harvest: 600g• Monthly Harvest: 1,200 lbs• Annual Harvest: 14,400 lbs
• Price per lb: $4.50• Annual Revenue: $64,800
• Annual Costs:• Feed: $10,800• Fingerlings: $9,600• Electricity: $8,500
(estimate)• Leaves $35,900 for
Labor, Building, Insurance, Updates, and payment on system.
• No Mortality Loss Considered
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Example System 2
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Large Coolwater
System Economics
Example
• 220,000 lbs/year• System Cost: $1.3-$1.7
million• Labor: $290,000/year• Electric: $400,000/year
@ $0.16/kw• Oxygen Cost:
$23,000/year
• Operating Cost (Feed, chemicals, production supplies, office equipment): $ 400,000/year
• Building ???• Total Expenses: $1.2
million+• Revenue @ $12/lb:
$2,600,000/year• Profit @ $12/lb:
$1,400,00/year
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Large Coolwater
System Economics
Example
• 220,000 lbs/year• System Cost: $1.3-$1.7
million• Labor: $290,000/year• Electric: $400,000/year
@ $0.16/kw• Oxygen Cost:
$23,000/year• Operating Cost (Feed,
chemicals, production supplies, office equipment): $
400,000/year • Building ???• Total Expenses: $1.2
million+• Revenue @ $7/lb:
$1,600,000• Profit @ $7/lb:
$400,00/year
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Questions?
Special thanks to Donald Bacoat, Fort Valley State University