LEPEZ CONSEILS FINANCE INNOVATIONS-LCFI
LEPEZ CONSEILS FINANCE INNOVATIONS-LCFI Patent applications | ||
Patent application number | Title | Published |
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20140284198 | PROCESS AND INSTALLATION FOR PYROLYSIS OF A PRODUCT IN THE FORM OF DIVIDED SOLIDS, IN PARTICULAR POLYMER WASTE - An installation for pyrolyzing divided solids, such as waste plastics, rubbers, or elastomers. The installation has a device for making divided solids suitable for facilitating pyrolysis by a pyrolysis reactor. The reactor inlet is leak-tightly connected to the preconditioning device and has at least one heating transfer member for transferring the divided solids within the reactor while also pyrolyzing the solids. The member is a conveyor screw or a vibrating tube, and being made of a material that is associated with means for heating it by the Joule effect. The preconditioning device includes liquefaction means for bringing the substance to the outlet of the preconditioning device in a liquid state at an outlet temperature, and a regulator for regulating the temperature of the substance at the outlet from the preconditioning device as a function of a temperature representative of an inlet temperature of the reactor. | 09-25-2014 |
20120043194 | METHOD AND APPARATUS FOR THE ENERGY DENSIFICATION OF A MATERIAL IN THE FORM OF DIVIDED SOLIDS, WITH A VIEW TO OBTAINING PYROLYSIS OILS FOR ENERGY PURPOSES - A method and installation for energy densification of a material to obtain pyrolytic oils for energy. The method includes preconditioning the material by heating and drying to raise the material temperature close to 100° C. and a relative humidity not exceeding about 10%; pyrolyzing the material that is subsequently caused to flow through a substantially hermetic reactor containing at least one transfer screw or vibrating tube heated by the Joule effect, the material heated progressively in the range of 300° C. to 850° C., the electrical power passing through the transfer screw or the vibrating tube for providing heating regulated as a function of the material in order to obtain the desired temperature level during the transit time of the material through the reactor; extracting pyrolysis gas from a high portion of the reactor for rapid recondensation in a vertical condenser; and recovering pyrolytic oils from a low portion of the vertical condenser. | 02-23-2012 |