A process for treating contaminated water has the steps of filtering the contaminated water through a filter so as to produce a filtrate therefrom, introducing nutrients and a biomass into an interior volume of the of a light reactor, passing the filtrate into the light reactor, reacting light with the nutrients and the biomass so as to produce a light-reacted biomass, transferring the light-reacted biomass to a dark reactor, reacting the transferred light-reacted biomass with carbon dioxide in the dark reactor, and filtering the reacted biomass from the dark reactor so as to remove the biomass therefrom. The nutrients in the biomass are continuously stirred within the light reactor in a toroidal circulation pattern.

This relates to the field of culture of algae, in particular microalgae. Disclosed is a method for culture of algae, advantageously of microalgae. The particular culture conditions in terms of lighting and nutrients enables a biomass to be obtained which is constituted of microalgae having a quantity of chlorophyll that is at least low, advantageously very low, or even zero and a high quantity of antioxidant agents.

This relates to the field of culture of algae, in particular microalgae. Disclosed is a method for culture of algae, advantageously of microalgae. The particular culture conditions in terms of lighting and nutrients enables a biomass to be obtained which is constituted of microalgae having a quantity of chlorophyll that is at least low, advantageously very low, or even zero and a high quantity of antioxidant agents.

The present disclosure relates to a bacterium-alga coupled sewage treatment device based on energy recycling and a use method thereof. The device comprises a pretreatment device, a photobioreactor, an alga separation apparatus, a continuous flow bioreactor and a secondary sedimentation tank which are sequentially connected in order, the pretreatment device being connected to a municipal sewage inlet pipe, the photobioreactor being connected to a carbon dioxide gas charging device through a gas filling pipeline, one part of a sludge thickening tank being connected to the secondary sedimentation tank, the other part thereof being connected to remaining sludge of the pretreatment device, carbon dioxide generated from the sludge which flows through the thickening tank and is thermally-hydrolyzed and anaerobically-acidified being connected to the photobioreactor through a gas inlet pipeline, and the alga separation apparatus being further connected to a filter press. The present disclosure has the advantages of a rational structural design, reliable and stable operation, a low operation and maintenance cost and high automaticity and intelligence, and being suitable for the use and transformation requirements of a wide range of sewage treatment plants, etc.

A rotating biological contactor (RBC) is provided that includes a media wheel with a plurality of vanes configured for growth of algae thereon. The media wheel is configured for rotation by air directed from an air diffuser to impinge on the vanes such that when said media wheel is partly immersed in water rotation of the media wheel alternately exposes algae growing on the plurality of vanes to sunlight and to the water;. A frame is connected to an axle of the media wheel. Only one of the media wheel and the frame is constructed with a buoyancy sufficient to support the media wheel partly immersed in water during rotation of the media wheel.

A multi-step method for producing an algae product comprising, a microorganism consumption step, another step, and an algae product collection step. The microorganism consumption step comprises, combining a liquid growth medium comprising microorganisms with a phagotrophic algae capable of producing a desired algae product, consuming said microorganisms by said phagotrophic algae, and growing said phagotrophic algae. Another step comprises either a microorganism growth step or a photosynthetic algal growth step. A microorganism growth step comprises providing a liquid growth medium comprising nutrients and microorganisms capable of said consuming said nutrients, consuming said nutrients by said microorganisms, and growing said microorganisms. A photosynthetic algal growth step comprises providing a substantially organic nutrient depleted liquid medium, providing a microorganism population comprising said phagotrophic algae, photosynthetic growth of said phagotrophic algae. An algae product collection step comprises collecting a desired algae product from said phagotrophic algae.

A multi-step method for producing an algae product comprising, a microorganism consumption step, another step, and an algae product collection step. The microorganism consumption step comprises, combining a liquid growth medium comprising microorganisms with a phagotrophic algae capable of producing a desired algae product, consuming said microorganisms by said phagotrophic algae, and growing said phagotrophic algae. Another step comprises either a microorganism growth step or a photosynthetic algal growth step. A microorganism growth step comprises providing a liquid growth medium comprising nutrients and microorganisms capable of said consuming said nutrients, consuming said nutrients by said microorganisms, and growing said microorganisms. A photosynthetic algal growth step comprises providing a substantially organic nutrient depleted liquid medium, providing a microorganism population comprising said phagotrophic algae, photosynthetic growth of said phagotrophic algae. An algae product collection step comprises collecting a desired algae product from said phagotrophic algae.

The present invention relates to an indoor aquaponics assembly which includes a base, an aquarium positioned above and supported by the base, a planter positioned above the aquarium, an aquarium conduit and a planter conduit. The planter is provided with at least two through holes facing towards the aquarium, one being adapted for a water drainage tube to pass through for draining water from the planter to the aquarium, and one being adapted for a tube of a pump to pass through for pumping water from the aquarium to the planter. The present invention aims at reducing the time and efforts required for caring and maintaining the aquarium and the plants.

A rural landscape-type nitrogen and phosphorus ecological interception ditch system and a farmland drainage nitrogen and phosphorus interception method using the system are provided. The system includes a sediment buffer zone, an ecological ditch unit, an interception-conversion pool and a field ridge hedge fence; the sediment buffer zone, the ecological ditch unit, and the interception-conversion pool are sequentially arranged in a continuous ditch along a direction of a water flow; and the field ridge hedge fence is arranged on field ridges on one side or both sides of the ditch. The present disclosure can, on the basis of not affecting normal production functions of a farmland, further exert an ecological role of the farmland, and use the farmland as an assimilation sink for environmental nitrogen and phosphorus, so as to optimize drainage water quality and improve a farmland ecological environment.

The present invention relates to the field of water environment treatment, and particularly discloses a system and method for restoring a river and lake water body by a floating type water purification plant. The method comprises: (1) under the action of a water pump, enabling the river and lake water body to pass through a grille to be filtered; (2) lifting the filtered water body to an ss sedimentation tank by the water pump through a water inlet pipe, and carrying out pre-magnetization on the water body in the water inlet pipe by a pre-magnetization device arranged in the water inlet pipe; (3) enabling the water body subjected to pre-magnetization treatment to enter the ss sedimentation tank so as to remove particles in the water body; (4) enabling the water body treated by the ss sedimentation tank to enter a magnetizer to be subjected to magnetization treatment under a magnetic field intensity of 50 mT to 2,000 mT; and (5) distributing the water body subjected to magnetization treatment at the upper part of the floating type purification plant. According to the present invention, for the river and lake water body, for different growth periods of aquatic plants, the magnetic field intensity of the magnetizer for carrying out magnetization treatment on the water body is regulated for inducing growth of plants and beneficial indigenous microorganism communities, so that the purifying capacity and reliability of an ecological floating bed technology are reinforced.