Patent application number | Description | Published |
20130139812 | METHOD FOR LIQUEFYING BIOMASS - The disclosure provides a method for liquefying biomass, including: (a) mixing a solid organic ammonium salt containing single nitrogen with at least one organic compound which is capable of forming a hydrogen bond with the solid organic ammonium salt to form a first mixture; (b) heating the first mixture until the first mixture becomes a solution; (c) mixing a biomass and an acid catalyst with the solution to form a second mixture; and (d) heating the second mixture to make the biomass therein convert into a liquefied product. | 06-06-2013 |
20140090640 | SUGAR PRODUCTS AND FABRICATION METHOD THEREOF - In an embodiment of the present disclosure, a sugar product and method for fabricating the same is provided. The method includes mixing an acid compound and lithium chloride, magnesium chloride, calcium chloride, zinc chloride or iron chloride or lithium bromide, magnesium bromide, calcium bromide, zinc bromide or iron bromide or heteropoly acid to form a mixing solution, adding a cellulosic biomass to the mixing solution for a dissolution reaction, and adding water to the mixing solution for a hydrolysis reaction to obtain a sugar product. The present disclosure also provides a sugar product fabricated from the method. | 04-03-2014 |
20140090641 | SUGAR PRODUCTS AND FABRICATION METHOD THEREOF - In an embodiment of the present disclosure, a method for fabricating a sugar product is provided. The method includes mixing formic acid and lithium chloride, magnesium chloride, calcium chloride, zinc chloride or iron chloride or lithium bromide, magnesium bromide, calcium bromide, zinc bromide or iron bromide or heteropoly acid to form a mixing solution, adding a cellulosic biomass to the mixing solution for a dissolution reaction, and adding water to the mixing solution for a hydrolysis reaction to obtain a sugar product. The present disclosure also provides a sugar product fabricated from the method. | 04-03-2014 |
20140216442 | METHOD FOR PREPARING SUGARS - In an embodiment of the present disclosure, a method for preparing a sugar is provided. The method includes mixing an organic acid and a solid acid catalyst to form a mixing solution, adding a cellulosic biomass to the mixing solution to proceed to a dissolution reaction, and adding water to the mixing solution to proceed to a hydrolysis reaction to obtain a sugar. | 08-07-2014 |
Patent application number | Description | Published |
20100098543 | ROTOR STRUCTURE OF WIND TURBINE - A rotor structure is provided for a wind turbine and includes a central hub from which a plurality of blades radially extends. The blades have distal free ends that are surrounded by and coupled to a circumferentially arranged hood for rotation therewith. As such, with the rotor mounted to a generator of the wind turbine, when air flows caused by winds get into wind facing surfaces of the blades, the air flows are accelerated by either a divergent configuration, a convergent configuration, or a convergent-divergent configuration of the hood to remarkably enhance the performance of wind power generation and reduce the overall size of the rotor of the wind turbine. | 04-22-2010 |
20100301612 | WIND TURBINE - A wind turbine includes a nacelle that houses a dynamo and a vane wheel coupled to an end of the dynamo. The nacelle is movably mounted to a post. The nacelle has a body forming a circumferentially extending curved slot that has a front portion forming a reducing section and a rear portion forming an expanding section. The vane wheel has a hub at a center thereof and including a plurality of blades radially extending therefrom. Each blade has an end forming a down wash. With the curved design of the nacelle body, the rising angle of airflow exiting the nacelle is improved and with the down wash, the occurrence of tip vortex is suppressed, whereby the utilization efficiency of wind energy in the wind generation operations is improved. | 12-02-2010 |
20120017476 | GREEN ENERGY SIGN LAMP - A green energy sign lamp includes a lamp box and a wind power generation device. The lamp box includes an LED light emitting source, at least one advertising billboard, a current conversion module and a battery. The LED light emitting source, the current conversion module and the battery are installed in the lamp box, and the advertising billboard is installed on a side of the lamp box. A support stand on a lateral side of the lamp box is provided for installing the wind power generation device axially, and a fixed portion on another lateral side of the lamp box is provided for fixing the lamp box, so that electric energy produced by the wind power generation device starts up the LED light emitting source to emit light to achieve an advertising effect, or the electric energy is charged into the battery for its use when there is no wind. | 01-26-2012 |
20120019002 | VERTICAL AXIAL WIND POWER GENERATION DEVICE - A vertical axis wind turbine power generation device includes a substantially n-shaped support frame having a first board and two second boards, and at least one reinforced plate installed at a position of connecting the first and second boards, a vane wheel axially disposed between the second boards and including a shaft and vanes, such that the shaft and the vanes are installed parallel to the first board, and an electric generator installed on an external side of the second board and coupled to the shaft of the vane wheel, such that the vane wheel can be rotated by wind to generate electric energy. Both ends of the shaft are limited by the support frame to prevent a deviation in the rotation of the vane wheel. The support frame can be installed to various rods or walls to provide a convenient way of utilizing electricity in an environmental protection manner. | 01-26-2012 |
20130214739 | CHARGE TYPE BATTERY MANAGEMENT SYSTEM AND METHOD THEREOF - In a charge type battery management system and a method thereof, a monitoring unit is used to monitor a plurality of battery units, and if there is a change of electric potential, current and temperature of the battery units, a control unit controls a plurality of separate energy storage units, so that when the battery pack is charged, the overall electric energy of the system is used to increase the current and charge at least one of the battery units with a relatively low potential in order to equalize the overall electric potential of the battery pack, so as to enhance the energy conversion efficiency. | 08-22-2013 |
20130214741 | DISCHARGE TYPE BATTERY MANAGEMENT SYSTEM AND METHOD THEREOF - In a discharge type battery management system and a method thereof, a monitoring unit is used to monitor a plurality of battery units, and if there is a change of electric potential, current and temperature of the battery units, a control unit controls a plurality of separate energy storage units, so that when the battery pack is charged, at least one of the battery units with a relatively high potential is discharged to equalize the overall electric potential of the battery pack, so as to enhance the energy conversion efficiency. | 08-22-2013 |
20140030574 | CAR BATTERY WITH WATERPROOFNESS, FIREPROOFNESS, SHOCKPROOFNESS AND EXPLOSION-PROOFNESS AND A MANUFACTURING METHOD THEREOF - A car battery with waterproofness, fireproothess, shockproofness and explosion-proofness is provided, which includes a plurality of Li—Fe batteries, at least one carrier, an electrical module and a package. The Li—Fe batteries are installed in the carrier, and the electrical module is connected to each of the Li—Fe batteries. The package wraps the Li—Fe batteries, the at least one carrier and the electrical module in a vacuum environment. A method for manufacturing a car battery is also provided. As such, the package is made of thermally conductive plastic, such that the car battery can be waterproof, fireproof, shockproof, and explosion-proof, and assured to provide good safety and stability when being used. | 01-30-2014 |