INEOS BIO SA Patent applications |
Patent application number | Title | Published |
20160090610 | PROCESS FOR FERMENTATION OF SYNGAS - A process for fermenting syngas is provided which is effective for decreasing an amount of time needed to inoculate a main reactor. The process includes propagating a culture of acetogenic bacteria to provide an incoulum for a main reactor and fermenting syngas in the main reactor. | 03-31-2016 |
20160047007 | PROCESS FOR CONTROLLING FERMENTATION OF CO-CONTAINING SUBSTRATES - A process for stable fermentation of CO-containing substrates and improved ethanol productivity includes providing medium components in amounts needed by microorganisms in the fermentation. The process includes determining a potassium concentration in the fermentation medium and providing a first medium and a second medium to the fermentation, the first medium provided at a rate effective for maintaining the potassium in the fermentation medium in a range of about 20 to about 200 mg/L until reaching a target cell density. | 02-18-2016 |
20160040192 | SYNGAS FERMENTATION PROCESS AND MEDIUM - A process for fermenting syngas and a fermentation medium provides high ethanol productivity while removing medium components that were previously thought to be essential. The process is effective for providing a specific STY of at least about 1 g ethanol/(L-day-gram cells). In this aspect, the fermentation medium has a weight ratio of NH | 02-11-2016 |
20150232771 | APPARATUS AND PROCESS FOR GASIFICATION OF CARBONACEOUS MATERIALS TO PRODUCE SYNGAS - A process and apparatus are provided for gasification of a carbonaceous material. The process produces a raw syngas that can be further processed in a tar destruction zone to provide a hot syngas. The process includes contacting said carbonaceous material with molecular oxygen-containing gas in a gasification zone to gasify a portion of said carbonaceous material and to produce a first gaseous product. A remaining portion of the carbonaceous material is contacted with molecular oxygen-containing gas in a burn-up zone to gasify additional portion of the carbonaceous material and to produce a second gaseous product and a solid ash. The first gaseous product and said second gaseous product are combined to produce a raw syngas that includes carbon monoxide (CO), carbon dioxide (CO | 08-20-2015 |
20150152464 | PROCESS TO CONTROL CO CONCENTRATIONS IN FERMENTATIONS - A process for controlling concentration of CO in a bioreactor provides a direct and real time measurement of dissolved CO in a fermentation medium. The process for controlling concentrations of CO in a bioreactor includes contacting an aliquot of fermentation medium with at least one CO binding ligand and at least one microbial inactivator. | 06-04-2015 |
20150129178 | PROCESS FOR PROCESSING INORGANIC MATTER CONTAINING RESIDUE - A process and system provide for processing inorganic matter-containing residue in a thermal decomposition process. The process and system are effective for reducing pressures which can occur during processing of inorganic matter-containing residue. A process for processing inorganic matter-containing residue in a thermal decomposition process includes conveying inorganic matter containing residue from a thermal decomposition unit to a burn-out section and conveying the inorganic matter containing residue from the burn-out section through a transition section to an ash sump. The inorganic matter containing residue is cooled to remove about 10% or more of heat in the inorganic matter containing residue before reaching the ash sump. The process further includes contacting the inorganic matter containing residue with a cooling medium in the gas sump and venting gaseous material generated back to the thermal decomposition unit. | 05-14-2015 |
20150076411 | THERMAL DECOMPOSITION PROCESS FOR REDUCING AGGLOMERATE FORMATION - A process provides for reducing agglomerate formation during thermal decomposition of a carbonaceous material feedstock. A non-catalytic thermal decomposition process includes providing generally solid feedstock to a thermal decomposition unit and moving the feedstock through at least one gasification zone in the thermal decomposition unit with a moving device. The process includes providing oxygen and optionally an additional gas to the gasification zone. In one aspect, the process includes moving feedstock through the gasification zone and providing oxygen to the gasification zone at rates effective for maintaining a material bed temperature not exceeding about 2300° F. at any point in the material bed, and for maintaining a material bed temperature of about 500° F. to about 2000° F. | 03-19-2015 |
20150075062 | ALCOHOL COMPOSITIONS AND A PROCESS FOR THEIR PRODUCTION - An alcohol product composition is provided that may be used directly for blending with existing fuel sources. More specifically, the alcohol product composition includes ethanol and organic compositions which act as a denaturant. Further, a process for production of ethanol compositions is provided that includes providing a permeate to a distillation tower, removing an ethanol draw-off composition from the distillation tower, removing a side draw from the distillation tower to provide side-draw composition, combining the ethanol draw-off composition and side-draw composition to provide an alcohol composition | 03-19-2015 |
20150037229 | APPARATUS AND METHODS FOR TAR REMOVAL FROM SYNGAS - A process and apparatus are provided for reducing content of tar in a tar containing syngas. The process includes contacting the tar containing syngas with a molecular oxygen containing gas in a first reaction zone to produce a gas mixture. The gas mixture is passed through a heat treatment zone maintained at a temperature between about 900° C. to about 2000° C. for a contact time of about 0.5 to about 5 seconds. In this aspect, at least a portion of the tar undergoes at least partial oxidation and/or cracking to produce a hot syngas. | 02-05-2015 |
20150024449 | PROCESS AND MEDIUM FOR REDUCING SELENIUM LEVELS IN BIOMASS FROM FERMENTATION OF CO-CONTAINING GASEOUS SUBSTRATES - A process for fermenting syngas and a fermentation medium provides high ethanol productivity while removing medium components that were previously thought to be essential. The process is effective for providing a specific STY of at least about 1 gram of ethanol/(L·day·gram cells) and for providing a selenium content in cell biomass exiting the fermentation of about 1 ppm or less. | 01-22-2015 |
20140363867 | PROCESS FOR FERMENTING CO-CONTAINING GASEOUS SUBSTRATES IN A LOW PHOSPHATE MEDIUM EFFECTIVE FOR REDUCING WATER USAGE - A process is provided for fermenting CO-containing gaseous substrates in a low phosphate medium. The process includes blending a liquid medium that includes at least one transition metal element with a liquid medium that includes at least at least one other transition metal element and one non-metal element to provide a fermentation medium. The process is effective for preventing precipitation of one or more transition metal elements with one or more non-metal elements. The fermentation medium used in the process is prepared in a way that requires significantly lower amounts of water and reduced levels of phosphate. | 12-11-2014 |
20140363866 | CONTROL OF CONDUCTIVITY IN ANAEROBIC FERMENTATION - Process are provided which are effective for controlling medium conductivity during fermentation of a CO-containing gaseous substrate while providing an STY of about 10 g ethanol/(L·day) or more. The process includes balancing medium conductivity, specific carbon uptake or cell density levels. | 12-11-2014 |
20140308723 | PROCESS FOR FERMENTING CO-CONTAINING GASEOUS SUBSTRATES - A process provides high ethanol productivity levels during fermentation of a CO-containing substrate. The process controls CO-substrate feed rates and cell density to avoid culture upset and CO inhibition. The process includes fermenting a CO-containing gaseous substrate to obtain a target cell density and a target CO feed rate, and then periodically reducing and increasing the CO feed rate. | 10-16-2014 |
20140246626 | METHOD OF OPERATION OF PROCESS TO PRODUCE SYNGAS FROM CARBONACEOUS MATERIAL - A process is provided for producing syngas that is effective for use in downstream processes. The process for producing syngas includes operating a gasification apparatus in a start-up mode until the gasification apparatus and equipment downstream of the gasification apparatus are adequately warmed up to a first target temperature. Upon reaching a first target temperature, the process is then operated in a production mode to produce a second syngas with a higher CO/CO | 09-04-2014 |
20140080195 | PROCESS FOR REDUCING CO2 EMISSIONS AND INCREASING ALCOHOL PRODUCTIVITY IN SYNGAS FERMENTATION - A process is provided that is effective for reducing CO | 03-20-2014 |
20140080169 | PROCESS TO AVOID INHIBITION OF ACETOGENS BY CO - A process is provided for fermenting CO-containing gaseous substrates. The process is effective for decreasing lag times and maintaining a culture in steady state by controlling CO concentration and minimizing effects of high or low CO concentrations during fermentation. The process includes providing syngas to a first fermentation zone, fermenting the syngas, and determining a CO concentration in a fermentation medium in the first fermentation zone. If the CO concentration in fermentation medium in the first fermentation zone has a calculated value of about 0.12 mM or greater, then at least a portion of the syngas being provided to the first fermentation zone is provided to one or more subsequent fermentation zones in an amount effective for providing a calculated CO concentration in any subsequent fermentation zone of about 0.12 mM or less. | 03-20-2014 |
20140080117 | PROCESS TO AVOID INHIBITION OF ACETOGENS BY CO - A process is provided for fermenting CO-containing gaseous substrates. The process is effective for decreasing lag times and maintaining a culture in steady state by controlling CO concentration and minimizing effects of high or low CO concentrations during fermentation. The process includes providing syngas to a first fermentation zone, fermenting the syngas, and determining a CO concentration in a fermentation medium in the first fermentation zone. If the CO concentration in fermentation medium in the first fermentation zone has a value of about 0.12 μM or greater, then at least a portion of the syngas being provided to the first fermentation zone is provided to one or more subsequent fermentation zones in an amount effective for providing a CO concentration in any subsequent fermentation zone of about 0.12 μM or less. | 03-20-2014 |
20140080116 | PROCESS TO CONTROL CO CONCENTRATIONS IN FERMENTATIONS - A process for controlling concentration of CO in a bioreactor provides a direct and real time measurement of dissolved CO in a fermentation medium. The process for controlling concentrations of CO in a bioreactor includes contacting an aliquot of fermentation medium with at least one CO binding ligand and at least one microbial inactivator. | 03-20-2014 |
20140045246 | PROCESS FOR FERMENTATION OF SYNGAS - A process for fermenting syngas is provided which is effective for decreasing an amount of time needed to inoculate a main reactor. The process includes propagating a culture of acetogenic bacteria to provide an incoulum for a main reactor and fermenting syngas in the main reactor. | 02-13-2014 |
20140038252 | PROCESS FOR THE PRODUCTION OF ETHANOL AND BUTANOL - The present invention relates to a process for the production of ethanol and butanol from biomass, and in particular to a process for the production of ethanol and butanol using two separate fermentation step subjecting the biomass feedstock to anaerobic fermentation at a pH below 6.0 and at a temperature in the range 20 to 700° C. and so as to convert the biomass to a product predominantly comprising acetic acid and butyric acid with at least a 2:1 ratio by weight of acetic acid to butyric acid, c) treating the product of stream of step (b) to separate a solution comprising the acetic acid and butyric acid by: (i) separating a solution comprising the acetic acid and butyric acid from any residual solids and (ii) separating bacteria and/or pasteurizing or sterilizing the solution from the first fermentation step, and d) in a second fermentation step fermenting the solution comprising the acetic acid and butyric acid from the step (c) to form ethanol and butanol. | 02-06-2014 |
20130316422 | Method of Operation of A Syngas Fermentation Process - A process is provided for fermentation of syngas that is effective for reducing conductivity and providing an alcohol STY of about 10 g ethanol/(L·day). The process includes introducing the syngas into a reactor vessel and providing a nitrogen feed rate to the reactor vessel of about 100 mg or more nitrogen/gram of cells produced. Fermentation of the syngas is effective for providing a fermentation medium having an average conductivity of about 16 mS/cm or less and an STY of 10 g ethanol/(L·day) or more. | 11-28-2013 |
20130316421 | Syngas Fermentation Process and Medium - A process for fermenting syngas and a fermentation medium provides high ethanol productivity while removing medium components that were previously thought to be essential. The process is effective for providing a specific STY of at least about 1 g ethanol/(L·day·gram cells). In this aspect, the fermentation medium has a weight ratio of NH | 11-28-2013 |
20130244300 | METHOD OF OPERATION OF FERMENTATION OF GASEOUS SUBSTRATE COMPRISING HYDROGEN - The present disclosure provides methods of gaseous substrate fermentation comprising: adding gaseous substrate into an aqueous medium in a bioreactor. The methods of the present disclosure comprise: measuring cell density; adjusting input of gaseous substrate to increase cell density; changing hydrogen uptake. | 09-19-2013 |
20130149693 | MANAGEMENT OF ETHANOL CONCENTRATION DURING SYNGAS FERMENTATION - A process is provided for management of ethanol concentration during syngas fermentation. A process for fermentation of syngas includes inoculating a medium to provide an inoculated medium. Inoculated medium is contacted with syngas and cells and medium are removed and separated to provide concentrated cells and permeate. Ethanol is separated from the permeate to provide ethanol and a reduced ethanol aqueous stream. The reduced ethanol aqueous stream is returned to the fermentation. | 06-13-2013 |