| 摘要 |
A process for accelerated and sustainable algae growth using a vertical tank photobioreactor, which includes steps involving the sustainable algae growth, preferably of the strain nannochloropsis oculata, the harvest of a portion of the algae in a harvester apparatus, the reduction and recycling of byproducts using recycled waste and conversion of gasses to useable and sustainable recycling within the process, the algae product supplied in wet or dry form for the further production of biofuels through the conversion of the algae to crude oil. |
| 主权项 |
1. A process for the sustainable growth of an algae culture within a controlled environment to produce algae for the extraction of a biofuel product, the process comprising the steps of:
providing a supply of waste water containing bacteria and micronutrients to produce a supply of methane; heating a portion of said waste water to remove any live said bacteria from said waste water supply; introducing a quantity of approximately 20 to 30 gallons of said heated waste water suitable for sustaining algae growth into at least one photobioreactor made of stainless or coated steel and defining a vertical cylinder having a lid, said photobioreactor having a volume of up to 30,000 gallons of liquid; introducing up to 30,000 gallons of chemical-free fresh water into each at least one photobioreactor; introducing a quantity of a selected algae culture into each at least one photobioreactor; providing an internal light source within each at least one photobioreactor having a suitable light spectrum produced by a plurality of LED light tubes; providing a supply of carbon dioxide through an external carbon dioxide compressor into each at least one photobioreactor to regulate the pH of each photobioreactor's contents within a suitable pH range and to provide a nutrient source for the algae culture, a portion of said carbon dioxide derived from the combustion of the methane gas byproduct; creating a non-destructive turbulent flow within each at least one photobioreactor through a centrally suspended draft tube having an internal nitrogen gas sparger to provide a concentric current flow from a top of said tank to a bottom of said tank within each at least one photobioreactor, said nitrogen gas supplied through an external nitrogen generator; providing a water flow within said draft tube as a heat exchanger to regulate the temperature of the contents circulating within each at least one photobioreactor; withdrawing a quantity of the algae culture and water from each at least one photobioreactor, leaving a quantity of each photobioreactor content for regrowth upon the addition of a small quantity of said live bacteria-free waste water and said chemical-free fresh water, the withdrawn quantity of algae culture and water transferred into a harvester condenser, wherein water is vaporized through heat to reduce a water to algae ratio forming a thickened liquid algae slurry, said condensed water vapor reintroduced back into a tank wherein the chemical-free fresh water is stored and available for use within said process; creating electricity through the use of a steam boiler, wherein the heat for the boiler is being produced by the burning of trash, rubbish and debris, with residual combustion gasses being diverted to provide the heat source for the harvester condenser, to heat said waste water to kill any active bacteria prior to introduction within each at least one photobioreactor, and to produce steam to generate electricity to operate other electrical components within the process, with said steam condensed and reintroduced back into said boiler; transferring said liquid algae slurry to a second stage harvester dryer and then flash drying the algae slurry into a dry powdered algae product, wherein said second stage harvester dryer directs a spray of said thickened liquid slurry through a rotating spray arm onto a heated inner surface of a stationary cylinder, drying the said liquid slurry algae spray on contact in a flash drying manner, said rotating spray arm further providing a rotating blade behind said rotating spray arm which scrapes said flash dried algae off said inner wall, causing said dry algae to fall to the bottom of said stationary cylinder through a linear lower channel into an auger; transferring the dry powdered algae product by said auger into transport containers for shipping and delivery to a crude oil refinery for rehydration and extraction of the algae oils which are further refined into aviation fuels, gasoline, diesel and other hydrocarbon fuels, the process being renewable and sustainable without using any food source for fuel, without damage to the environment and without contamination to the environment, without damage to the groundwater, the byproducts of the process being electricity, fresh water and clean air. |
