| Missing Link Technologies, L.L.C. Patent applications |
| Patent application number | Title | Published |
|---|
| 20120064617 | SYSTEM AND METHOD FOR CONTINUOUS FERMENTATION OF ALGAE - The present invention is a method for fermentation of algae or algaefaction method. The method includes feeding a hydrocarbon composition into a gasifier and pre-heating a biomass stream from a fermentation reactor. The biomass stream includes a liquid portion, a catalyst, and a biomass solids portion ranging between 15-92% by weight of the biomass stream. The biomass solids portion is algae or algal solids. The biomass stream is pre-heated to a temperature range between 200° F. and 500° F. Both the syngas and the pre-heated biomass stream are injected as a mixture into a reactor, where the mixture is separated into a gas component, liquid component, and solids component. The solids component is algal crude, which can be collected for processing as transportation fuels. The gas component is a lower temperature syngas, which can also be collected for processing as electricity or transportation fuels. | 03-15-2012 |
| 20100144017 | SYSTEM FOR HARVESTING ALGAE IN CONTINUOUS FERMENTATION - The present invention is a system for harvesting algae in continuous fermentation. There is a harvester including a main moving belt, a plurality of rollers, and a motor for driving the main moving belt. There is a reactor tank and a vacuum extractor for applying a vacuum over a width of the main moving belt to extract biomass and to dry the main moving belt. The main moving belt has one end in the reactor tanks and another end extended into the vacuum extractor. The algae contained in the reactor tank is collected for further processing, including oil extraction. With algae harvested in the large-scale manner of the present invention, a more efficient oil extraction method can be used because the concentration, temperature, and pressure can be more easily controlled. | 06-10-2010 |
| 20090170184 | SYSTEM FOR FERMENTATION USING ALGAE - The system for fermentation using algae of the present invention includes a first reactor and a second reactor being in fluid communication with each other. A first valve placed between the first reactor and the second reactor controls the fluid connection between the reactors. A gas inlet, in fluid connection to the first reactor, is located at an end opposite the second reactor. A devolatization unit or cell lysis chamber is connected to the second reactor by a second valve. A biomass stream having gas, liquid and biosolids contents passes through the first reactor with gas. The biomass stream mixes and dissolves the gas in the reactors. The cellular structure of the biomass stream ruptures in the devolatization unit, allowing the processed materials, such as oil, gas, and biosolids, to be harvested for use. | 07-02-2009 |
