Patent application number | Description | Published |
20120095274 | COMBINATION OF ZEOLITE UPGRADING WITH HYDROGENATION UPGRADING TO PRODUCE RENEWABLE GASOLINE FROM BIOMASS - Technologies to convert biomass to liquid hydrocarbon fuels are currently being developed to decrease our carbon footprint and increase use of renewable fuels. Since sugars/sugar derivatives from biomass have high oxygen content and low hydrogen content, coke becomes an issue during zeolite upgrading to liquid hydrocarbon fuels. A self-sustainable process was designed to reduce the coke by co-feeding sugars/sugar derivatives with the paraffin products from hydrogenation of sugars/sugar derivatives. Paraffins without complete conversion result in products with less aromatics and relatively low density compared with the products directly from zeolite upgrading. Thus, the process is more economically favorable. | 04-19-2012 |
20130014431 | ADVANCED, BIOMASS-DERIVED, LOW-SULFUR BUNKER FUELS - A fuel composition and the process of making the fuel composition are described. More specifically, a novel biomass derived low sulfur bunker fuels composition and the method of making thereof. Embodiment of the invention discloses a novel low sulfur bunker fuels composition derived from blending various bio-oil with other heavy residual fuel oils and distillates where final sulfur content and carbon intensity is controlled by the ratio of bio-oil to other heavy residual fuel oils and distillates. Embodiment of the invention also discloses a process of making a novel biomass derived low sulfur bunker fuels by blending various bio-oil with other heavy residual fuel oils and distillates. | 01-17-2013 |
20130144089 | PYROLYSIS OIL UPGRADING TO GASOLINE RANGE LIQUIDS - This invention is a method for converting biomass derived pyrolysis oil (bio-oil) into materials that will be more useful for transportation fuels including the following two steps: 1) solubilizing and extracting bio-oil oxygenates, and 2) zeolite catalyzed hydrogenation of the oxygenates into renewable fuel range materials. | 06-06-2013 |
20130144090 | RENEWABLE JET FUEL DERIVED FROM BIOMASS - A single pass direct conversion of biomass derived oxygenates to longer chain hydrocarbons is described. The longer chain hydrocarbons include higher naphthene content which is quite useful in the distillate range fuels or more particularly, the jet and diesel range fuels. Naphthenes help the biomass derived hydrocarbons meet product specifications for jet and diesel while really helping cold flow properties. | 06-06-2013 |
20130144091 | RENEWABLE DIESEL FUEL DERIVED FROM BIOMASS - A single pass direct conversion of biomass derived oxygenates to longer chain hydrocarbons is described. The longer chain hydrocarbons include higher naphthene content which is quite useful in the distillate range fuels or more particularly, the jet and diesel range fuels. Naphthenes help the biomass derived hydrocarbons meet product specifications for jet and diesel while really helping cold flow properties. | 06-06-2013 |
20130144094 | RENEWABLE GAS OIL DERIVED FROM BIOMASS - A single pass direct conversion of biomass derived oxygenates to longer chain hydrocarbons is described. The longer chain hydrocarbons include higher naphthene content which is quite useful in the distillate range fuels or more particularly, the jet and diesel range fuels. Naphthenes help the biomass derived hydrocarbons meet product specifications for jet and diesel while really helping cold flow properties. | 06-06-2013 |
20130144098 | DIRECT CONVERSION OF BIOMASS OXYGENATES TO HYDROCARBONS - A single pass direct conversion of biomass derived oxygenates to longer chain hydrocarbons is described. The longer chain hydrocarbons include higher naphthene content which is quite useful in the distillate range fuels or more particularly, the jet and diesel range fuels. Naphthenes help the biomass derived hydrocarbons meet product specifications for jet and diesel while really helping cold flow properties. | 06-06-2013 |
20140014878 | METHOD FOR PRODUCING RENEWABLE HYDROGEN FROM BIOMASS DERIVATIVES USING STEAM REFORMING TECHNOLOGY - A process of decomposing a biomass derivative to produce a gaseous product and then introducing the gaseous product into a steam reformer. | 01-16-2014 |
20140110271 | ELECTROCHEMICAL REFORMING OF OXYGENATE MIXTURES - The process describes performing electrolysis on an alkaline oxygenate mixture to produce hydrogen. In this process the electrolysis does not form any significant amounts of oxygen. | 04-24-2014 |
20140134099 | PROCESS SCHEME FOR CATALYTIC PRODUCTION OF RENEWABLE HYDROGEN FROM OXYGENATE FEEDSTOCKS - A process is described for flowing an oxygenate feed over a catalyst in an adiabatic fixed bed reactor to product a reactor effluent and heat. The reaction inside the adiabatic fixed bed reactor occurs at a reaction temperature from about 200° C. to about 375° C. The reactor effluent is then condensed to separate the liquid products and the gaseous products. A separation step then separates the gaseous products into hydrogen and off-gas. | 05-15-2014 |
20140316176 | Deep Deoxygenation of Biocrudes Utilizing Fluidized Catalytic Cracking Co-Processing with Hydrocarbon Feedstocks - A system and method produce hydrocarbons from biomass by fluid catalytic cracking. In one embodiment, the system is a fluid catalytic cracking system. The system includes a riser. The riser contains a catalyst. The system also includes a biological feed comprising biomass-derived liquid for the riser. In addition, the system includes a hydrocarbon feed comprising hydrocarbons for the riser. The biological feed and the hydrocarbons react in the riser in the presence of the catalyst to convert at least a portion of the biological feed and the hydrocarbons to hydrocarbon products. The hydrocarbon products comprise a concentration of oxygen from about 0.005 wt. % to about 6 wt. %. | 10-23-2014 |