Biodegradation media placed in, around, and/or above a methane source reduces the quantum of methane and other alkane gases such as ethane, propane, and butane released into the atmosphere under diverse and fluctuating environmental conditions over a sustainable and/or extended duration. Non-biodegradable material configured for methane biodegradation possesses enhanced drainage of precipitation, improved gas transmission and gas exchange, moisture retention, and a nutrient sustainability.

Provided is a continuous microalgae culture module, including an outdoor culture unit, a high-density culture unit, a pigment induced unit, and a harvesting unit. A method of culturing microalgae containing macular pigment is also provided, including sequentially culturing microalgae with medium in the outdoor culture unit and the high-density culture unit, producing macular pigment in the pigment induced unit through different light irradiation, and collecting the microalgal biomass containing macular pigment in the harvesting unit.

A system for algae incubation including a reactor cell adapted to grow algae, a support buoy secured to the reactor cell, and a floating vessel secured to the reactor cell.

The present invention provides a cell culture vessel or a sample cell for observation use that makes it possible to observe three-dimensionally-cultured cells from various angles. The cell culture vessel or the sample cell for observation use according to the present invention is characterized by being equipped with a culture gel in which a cell or cell tissue is embedded and a first vessel which encloses the culture gel, wherein a space in the first vessel is filled with the culture gel; and the first vessel has a light-permeable window made from a hydrogel.

Methods and systems for capture of CO.sub.2 from a hydrated gaseous stream are described. Systems can be utilized for direct air capture of CO.sub.2 and incorporate a low energy temperature-vacuum swing adsorption (TVSA) process. A TVSA process can include a multi-step CO.sub.2 capture bed regeneration process that includes depressurization of the bed, heating of the bed, venting and purging of the bed, and cooling of the bed. Multiple beds can be cycled between CO.sub.2 capture and regeneration, during which captured CO.sub.2 is recovered. Off-gas from a CO.sub.2 capture bed can be used in regenerating a parallel bed for increased efficiency.

A deep water drawing step of drawing deep water that exists in a deep region of the sea to a surface region of the sea with an upwelling pipe (1); and a phytoplankton culturing step of culturing the phytoplankton in the upwelling pipe (1) are included to produce, as a basic producer of a food chain, a living marine resource, such as fishes and shellfishes, with phytoplankton produced in the phytoplankton culturing step.

A microalgae culture broth producing system includes a device for culture broth sterilization using a micro bubble generator, an air compression and pressure equalization device for the injection of carbon dioxide and oxygen in the atmosphere into the culture broth. The system also includes an air chilling device to maintain suitable culture broth temperature when water temperature is too high, an automatic carbon dioxide supply device to promote photosynthesis, and a sealed vertical photobioreactor to block out pollutants and increase dissolved carbon dioxide and oxygen concentration. The system further includes a high-efficiency harvesting device using hollow fiber membranes, and a hot air drying device using the waste heat generated by air compression.

A method of operating a bioreactor includes containing an algae slurry within the bioreactor for cultivation, discharging a portion of the algae slurry to a heat pump that circulates a refrigerant, and receiving the portion of the algae slurry at a first heat exchanger and transferring heat from the algae slurry to the refrigerant. The method further includes discharging a cooled algae slurry and a heated refrigerant from the first heat exchanger, receiving and compressing the heated refrigerant at a compressor and thereby discharging a compressed refrigerant, and receiving the compressed refrigerant at a second heat exchanger and transferring heat from the compressed refrigerant to a fluid. The method further includes discharging a cooled refrigerant and steam from the second heat exchanger, receiving and expanding the cooled refrigerant at an expansion valve, and receiving and utilizing the steam at a downstream application in fluid communication with the second heat exchanger.

A system for growing and reproducing microorganisms that includes a basin system that includes a number of basins, where each basin has a vertical meandering system which is formed by partitions and which can be illuminated, each basin is filled with a nutrient suspension, at least one outer wall of each basin is double-walled such that a cavity is formed, a temperature control medium for controlling the temperature of the nutrient suspension can flow through the cavity.

Disclosed are methods and systems for the production of ammonia biologically using a strain of nitrogen fixing bacteria of the Nostocaceae family.