Patent ID: 7445927
Filing Date: 2008-11-04
Classification: C02F,Y02W

Abstract:
1. An apparatus for the biological degradation of oily waste comprising: a receiving tank for receiving said oily waste and then diluting said oily waste with water to produce homogenous slurry, said receiving tank having an outlet port; a trash pump having an inlet port connected to the outlet port of said receiving tank and a discharge port; a three way valve having an inlet port connected to the discharge port of said trash pump, a first outlet port and a second outlet port; a sequencing batch reactor tank connected to the first outlet port of said three way valve to receive said homogeneous slurry from said receiving tank, said trash pump transferring said homogeneous slurry from said receiving tank through said three way valve to said sequencing batch reactor tank when said trash pump is activated; a first recirculation line having one end connected to a first outlet port located at the bottom of said sequencing batch reactor tank and an opposite end extending inward into an upper portion of said sequencing batch reactor tank; a recirculation pump located within said first recirculation line for circulating said homogeneous slurry through said first recirculation line and said sequencing batch reactor tank for a reaction cycle time period when said recirculation pump is activated; a nutrient tank connected to said first recirculation line upstream from said recirculation pump, said nutrient tank supplying a concentrated solution of nutrients to said homogeneous slurry as said homogeneous slurry flows through said first recirculation line to provide amino acids and vitamins to said homogeneous slurry; a pH controller coupled to said first recirculation line to monitor said homogeneous slurry flowing through said first recirculation line; a storage tank supply pump having an inlet port and a discharge port connected to said first recirculation line; a storage tank connected to the inlet port of said storage tank supply pump, said storage tank containing a solution of fifty percent sodium hydroxide, said storage tank supply pump transferring said solution of fifty percent sodium hydroxide to said first recirculation line to neutralize carboxylic acids produced during initial degradation of hydrocarbons within said homogeneous slurry and maintain an approximately neutral pH; said ph controller being connected to said storage tank supply pump, said pH controller activating said storage tank supply pump to transfer said solution of fifty percent sodium hydroxide to said first recirculation line to neutralize carboxylic acids within said homogeneous slurry and maintain said approximately neutral pH; a discharge line having a pair of discharge pumps located within said discharge line, one end of said discharge line being connected to a second outlet port located at the bottom of said sequencing batch reactor tank; said recirculation pump being deactivated to allow supernatant and solid waste within said sequencing batch reactor tank to settle to the bottom of said sequencing batch reactor tank, said pair of discharge pumps being activated to withdraw said supernatant and solid waste from said sequencing batch reactor tank; an ultrafiltration unit located within said discharge line, said ultrafiltration unit having ultrafiltration membranes; a bag filter located within said discharge line upstream from said ultrafiltration unit, said bag filter removing substantially larger particles of said supernatant and solid waste withdrawn from said sequencing batch reactor tank which reduces fouling of the ultrafiltration membranes of said ultrafiltration unit; a first discharge pump of said pair of discharge pumps transferring said supernatant and solid waste from said sequencing batch reactor tank through said discharge line to said bag filter and a second discharge pump of said pair of discharge pumps transferring said supernatant and solid waste from said bag filter to said ultrafiltration unit; said ultrafiltration unit removing substantially smaller suspended particles of said supernatant and solid waste withdrawn from said sequencing batch reactor tank, said ultrafiltration unit discharging a clean effluent having less than 100 ppm of said hydrocarbons; a plurality of biofilters connected to the upper portion of said sequencing batch reactor tank and said receiving tank, each of said plurality of biofilters having compost contained therein; an exhaust blower connected to said plurality of biofilters, said exhaust blower withdrawing contaminated air from said receiving tank and said sequencing batch reactor tank to said plurality of biofilters, said contaminated air passing through said plurality of biofilters, the compost in each of said plurality of biofilters capturing and degrading volatilized hydrocarbons, ammonia, and hydrogen sulfide within said contaminated air; a first aeration system disposed in a bottom portion of said sequencing batch reactor tank, said first aeration system having a plurality of air nozzles which provide pressurized air to said sequencing batch reactor tank to aerate said homogeneous slurry as said homogeneous slurry circulates through said sequencing batch reactor tank, said first aeration system being active for said reaction cycle time period and turned off at a conclusion of said reaction cycle time period; a main blower connected to said first aeration system, said main blower supplying said pressurized air to said first aeration system; a second recirculation line having one end connected to the second outlet port of said three way valve and an opposite end extending vertically downward into said receiving tank, said trash pump circulating said homogeneous slurry through said second recirculation line and said receiving tank when said three way valve is configured to pass fluids from said inlet port of said three way valve to said second outlet port of said three way valve; a second aeration system disposed in a bottom portion of said receiving tank, said second aeration system having a plurality of air nozzles which provide said pressurized air to said receiving tank to aerate said homogeneous slurry within said receiving tank, said second aeration system being connected to said main blower to receive said pressurized air from said main blower; and a system controller connected to said trash pump, said recirculation pump, said storage tank supply pump and said pair of discharQe pumps to selectively activate and deactivate said trash pump, said recirculation pump, said storage tank supply pump and said first discharge pump and said second discharge pump, said system controller providing for a manual mode of operation and an automatic mode of operation for said apparatus for the biological degradation of said oily waste; said system controller being connected to said three way valve, wherein said system controller controls said three way valve setting said three way valve to provide for a fluid flow of said homogenous slurry from said receiving tank to said sequencing batch reactor tank or setting said three way valve to provide for said fluid flow of said homogenous slurry from said receiving tank through said second recirculation line to said second aeration system disposed in a bottom portion of said receiving tank.