A seaweed farming system may include a harvesting unit. The harvesting unit may include a harvest disintegrator. The harvest disintegrator may be configured to receive a plantation substrate having mature seaweed thereon after severing a vegetative portion of seaweed. The harvesting unit may further be configured to disintegrate the mature seaweed to separate the mature seaweed from the plantation substrate, the plantation substrate remaining intact during separation of the mature seaweed.

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).

Described herein is an apparatus and system for economically and efficiently harvesting and controlling the growth of aquatic vegetation.

Described herein is an apparatus and system for economically and efficiently harvesting and controlling the growth of aquatic vegetation.

A robotic system for use within a fluid environment is provided. The robotic system may comprise a robot, a vacuum nozzle, an electromagnetic guide wire, and a control panel. The robotic system functions to aid in the production and/or collection of microbial biomass, plant biomass, debris, waste, suspended solids, suspensions, and other substances that are present in fluid suspensions within aquatic systems, marine environments, reactors, and photobioreactors, as well as submerged or partially submerged spaces.

A robotic system for use within a fluid environment is provided. The robotic system may comprise a robot, a vacuum nozzle, an electromagnetic guide wire, and a control panel. The robotic system functions to aid in the production and/or collection of microbial biomass, plant biomass, debris, waste, suspended solids, suspensions, and other substances that are present in fluid suspensions within aquatic systems, marine environments, reactors, and photobioreactors, as well as submerged or partially submerged spaces.

Methods and systems, including computer programs encoded on computer-storage media, for controlling a system for growing seaweed are described. Some implementations of a method include forming a substrate loop inoculated with seaweed spores; arranging the substrate loop about a pulley; submerging the substrate loop to grow the seaweed; determining, using a seaweed farm controller, that the seaweed has grown to a pre-determined size; and based on the determination that the seaweed has grown to a pre-determined size: providing instructions to the pulley to feed a section of the substrate loop to a harvesting unit; providing instructions to the harvesting unit to separate the seaweed attached to the section of the substrate loop; providing instructions to a cleaning unit to clean the section of the substrate loop that is freed from seaweed; and providing instructions to a seeding unit to inoculate the cleaned section of substrate loop with seaweed spores.

Methods and systems, including computer programs encoded on computer-storage media, for controlling a system for growing seaweed are described. Some implementations of a method include forming a substrate loop inoculated with seaweed spores; arranging the substrate loop about a pulley; submerging the substrate loop to grow the seaweed; determining, using a seaweed farm controller, that the seaweed has grown to a pre-determined size; and based on the determination that the seaweed has grown to a pre-determined size: providing instructions to the pulley to feed a section of the substrate loop to a harvesting unit; providing instructions to the harvesting unit to separate the seaweed attached to the section of the substrate loop; providing instructions to a cleaning unit to clean the section of the substrate loop that is freed from seaweed; and providing instructions to a seeding unit to inoculate the cleaned section of substrate loop with seaweed spores.

A method of using microorganisms to remove a pollutant from a fluid by exposing microorganisms to a fluid containing a pollutant, the microorganisms uptake the pollutant, then the microorganisms are exposed to a condition in order to stimulate the microorganisms to release the pollutant. Furthermore, the microorganisms are harvested and used as a foodstuff for human and animal consumption.

A method of using microorganisms to remove a pollutant from a fluid by exposing microorganisms to a fluid containing a pollutant, the microorganisms uptake the pollutant, then the microorganisms are exposed to a condition in order to stimulate the microorganisms to release the pollutant. Furthermore, the microorganisms are harvested and used as a foodstuff for human and animal consumption.