The present invention provides a rake system for removing floating and submerged vegetation and debris from ponds. The rake system includes: a handle; a frame that includes a first cutting member, a second cutting member, one or more entrapment meshes, a floating member; and a line connected the proximal end of the handle. Methods for removing floating and submerged vegetation and debris from ponds are also disclosed.

The present invention relates to a multipurpose tool that is configured to collect seaweed and other debris from the edges of a body of water and from shorelines. The tool has an elongated handle having an ergonomic grip, a head portion, a plurality of tines extending from the head portion, and a removably attached net-like filter. Each tine has an elongated length with a downwardly extending distal portion and is supported by a curved brace, wherein the curved brace extends laterally across the tines for providing mechanical support to the tines. The tines are oriented in a tapered manner having less spacing between the tines near the head portion and more spacing between the tines at the distal end which allows the width of the tines to be larger at the distal end than near the head portion.

A system for aquatic plant processing includes a harvester, which includes a nozzle assembly and optionally a pump assembly; and a transport subsystem. Additionally or alternatively, the system can include and/or interface with any or all of: a conduit, a collection assembly, a control subsystem, a sensor subsystem, a pond, and/or any other suitable components. A method for harvesting includes operating the harvesting system in a set of one or more operation modes.

A system for aquatic plant processing includes a harvester, which includes a nozzle assembly and optionally a pump assembly; and a transport subsystem. Additionally or alternatively, the system can include and/or interface with any or all of: a conduit, a collection assembly, a control subsystem, a sensor subsystem, a pond, and/or any other suitable components. A method for harvesting includes operating the harvesting system in a set of one or more operation modes.

Large seaweed farms rely heavily on manual laborers during the planting and harvesting processes. A prevalent cultivation method among large farms involves placing seaweed spores on long ropes suspended beneath the sea surface. When the seaweed has grown to the desired length, laborers manually remove strands from said ropes. The present invention provides a system to automate the harvesting of seaweed from said ropes. The present invention combines propulsion, guidance, and harvesting mechanisms into a single unit cable of autonomously removing seaweed from said ropes.

Large seaweed farms rely heavily on manual laborers during the planting and harvesting processes. A prevalent cultivation method among large farms involves placing seaweed spores on long ropes suspended beneath the sea surface. When the seaweed has grown to the desired length, laborers manually remove strands from said ropes. The present invention provides a system to automate the harvesting of seaweed from said ropes. The present invention combines propulsion, guidance, and harvesting mechanisms into a single unit cable of autonomously removing seaweed from said ropes.

The invention relates to a boat (1) for servicing shallow canals, lakes, and rivers configured for extracting, cutting, grinding, and casting plant waste, solid waste, or agricultural plantation harvest and sending what is harvested to shore, and comprising an extractor belt (3) configured for extracting the plant waste which is deposited on a horizontal conveyor belt (9) to a grinding mill (4); and further comprising at least one drive turbine (5) and a directional stack (6).

A method of exposing microorganisms to a condition wherein the condition facilitates or inhibits growth of a specific species of microorganisms or a specific consortium of microorganisms. The condition may also stimulate microorganisms to uptake a pollutant from a fluid and/or release the pollutant. Furthermore, the microorganisms may also be harvested and used as a foodstuff for human and animal consumption.

A method of exposing microorganisms to a condition wherein the condition facilitates or inhibits growth of a specific species of microorganisms or a specific consortium of microorganisms. The condition may also stimulate microorganisms to uptake a pollutant from a fluid and/or release the pollutant. Furthermore, the microorganisms may also be harvested and used as a foodstuff for human and animal consumption.

The disclosure relates to a filtration system for harvesting microalgae. The filtration system includes a filter housing with modular filtration units each containing a fungal filter. The fungal filter includes a perforated support with a capture fungus on the support. The fungal filter is adapted to be removed and replaced from the modular filtration unit, for example during operation of the filtration system. The capture fungus is adapted to capture one or more types of microalgae upon contact of the capture fungus with the microalgae, for example via fungal mycelium. During use of the filtration system to treat an influent stream containing microalgae, microalgae are captured and coated on the fungal filters. The coated fungal filters can be easily removed and the microalgae is harvested directly from the perforated support. New replacement filters can be inserted into the filtration system for continuous operation.