| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 202099000 | Directly heated chamber | 15 |
| 20080230365 | Recycling of tires, rubber and other organic material through vapor distillation - A processor for vacuum distillation of whole tires including; an insulated housing having a door on one end, and rails on a lower surface of the housing to support a cart loaded with whole tires. A plurality of first heat tubes arranged around and spaced from a central radiant heat tube, the central radiant heat tube having an unsupported end adjacent the door such that whole tires loaded on the cart and through the door will pass over the central radiant heat tube such that the central radiant heat tube is located in a central opening of each tire on the cart. | 09-25-2008 |
| 20090107830 | RETORT OVEN WITH ADJUSTABLE FLOOR - A retort oven for decomposition of waste materials through pyrolysis employing a deck with a variable angle of inclination for adjusting the retention time and processing rate of waste material flowing unassisted through the oven interior. The oven includes an outer shell lined with a refractory material and houses an inner oven chamber. The deck is adjustably hinge mounted to the inner chamber supporting sidewalls extending in a decline from a waste material entrance to a charred material exit. The deck is operated in a preferred angle range of inclination between 28°-50° from the oven floor normal. A controlled heat source is positioned within the oven to heat a first outer volume whose heated gases are transferred into a second inner volume of the inner chamber using an array of heat gun tubes heating the deck and material as it descends along the declined deck. The deck can be adjusted for varying the retention time of material within the oven for varied exposure to heat and charring efficiency. | 04-30-2009 |
| 20110303525 | WASTE TIRE RECYCLING SYSTEM - Disclosed is a waste tire recycling system. More particularly, the present invention relates to a waste tire recycling system having a pyrolysis furnace in which waste tires injected are recycled with a carrier gas and decomposed by a direct heating method, an oil-collecting means for cooling and condensing hot steam generated from the pyrolysis furnace and collecting oil, and a carrier gas recycling line through which a carrier gas is recycled back into the pyrolysis furnace via the pyrolysis furnace and the oil collecting means, the waste tire recycling system comprising a carrier gas feeder connected to one end of the carrier gas recycling line to selectively feed a carrier gas by controlling a valve, the carrier gas feeder having a filling element filled with a carrier gas containing at least one of methane, ethane, propane, butane, pentane, hexane and ammonia group components in a mixed form. | 12-15-2011 |
| 20110315539 | SOLAR POWERED METHOD AND SYSTEM FOR SLUDGE TREATMENT - A solar-powered device for converting sludge into one or more products is disclosed. The device includes a pyrolysis reactor selectively operable by solar energy, for carrying our thermal decomposition, into one or more products, of sludge introduced into the reactor via a dedicated sludge inlet. The reactor includes at least one outlet for discharging from the reactor one or more products obtained from the sludge decomposition. The device also includes a sensor for sensing sunlight radiation and providing an output data indicative of the amount of solar energy corresponding to the sensed sunlight, and a control unit for receiving the output data and operating or shutting down the pyrolysis reactor based on the amount of solar energy generated from the sunlight. | 12-29-2011 |
| 20120205229 | SYSTEM AND METHOD FOR BIOMASS FRACTIONING - A biomass fractionator and method are described for inputting ground biomass and outputting several vapor streams of bio-intermediate compounds along with syngas and biochar. In one embodiment, a method for biomass fractioning, comprises dispensing biomass into thin sheets of ground biomass; subjecting the thin sheets to ramps of temperature; and selectively collecting various groups of compounds as they are released from the thin sheets. | 08-16-2012 |
| 20120241306 | COAL REFORMING SYSTEM - A coal reforming system of the present invention includes a drying furnace for drying low-grade coal, a carbonizing furnace for carbonizing the dried low-grade coal, hot air generating furnaces for supplying hot air to the drying furnace or the carbonizing furnace, and a carbonizing gas circulation line for supplying a carbonizing gas, which is generated in the carbonizing furnace, as a fuel for the hot air generating furnaces while the temperature thereof is maintained. | 09-27-2012 |
| 20130015050 | CORBEL REPAIRS OF COKE OVENS - An improved corbel includes a first tier having first blocks and a second tier having second blocks. Each of the first blocks includes a first aperture extending through the block from a first surface to a back surface and a second aperture formed through a top surface of the block, extending into the first aperture. The first blocks are arranged on a substantially planar surface to align the respective first apertures to define a first passageway. Each of the second blocks includes a third aperture extending through the second block from a top surface to a bottom surface. The second blocks are disposed above the first tier to align the third aperture of each of the second blocks with the second aperture of the first blocks to form a second passageway. | 01-17-2013 |
| 20130105295 | SYSTEM FOR THE TORREFACTION OF LIGNOCELLULOSIC MATERIAL | 05-02-2013 |
| 20130134031 | ELECTRICAL HEATING COAL MATERIAL DECOMPOSITION APPARATUS - An electrical heating coal material decomposition apparatus includes a closed kiln body with a feed inlet, a discharge outlet, and an electrical heating device arranged in the kiln body. A propulsion and decomposition path of coal material is formed between the electrical heating device and the inner wall of the kiln body. A coal decomposition gas collecting pipe communicates with the propulsion and decomposition path of coal material, and is connected with a gas dust-trapping and liquefying device arranged outside the kiln. The electrical heating device transfers heat to the pulverized coal inside the propulsion and decomposition path of coal material by conduction and irradiation. The pulverized coal absorbs sufficient heat and decomposes into fuel gas, tar gas and coal. The fuel gas and tar gas enters the gas dust-trapping and liquefying mechanism through the decomposed gas collecting tube, where they are collected, dust-trapped, separated and liquefied under pressure. | 05-30-2013 |
| 20130292240 | BIOMASS PYROLYSIS FURNACE - A biomass pyrolysis furnace comprises a furnace shell ( | 11-07-2013 |
| 202100000 | Rotary chamber | 5 |
| 20100147671 | System and Method for Recovery of Hydrocarbons in Tar Sands - A system for recovering hydrocarbons from tar sands includes a heated enclosure | 06-17-2010 |
| 20110240456 | PRYOLYTIC ENERGY RECOVERY SYSTEM - Provided is a pyrolytic energy recovery system for pyrolyzing wastes to obtain oil, the system including: a recovery furnace; a heat plate for dividing an inner space of the recovery furnace; a heating chamber disposed under the heat plate; a pyrolysis chamber disposed over the heat plate; a heating pipe line installed inside the front and rear surfaces of the recovery furnace; a rotary means constituted by a plurality of rotaries installed in the pyrolysis chamber to evenly distribute recyclable materials introduced through the recyclable material inlet port; a residual discharge means having primary residual conveyance screws longitudinally installed along the valley of the heat plate, a residual hopper installed at a separate space in the heating chamber such that the residual conveyed to a center part of the heat plate through the primary conveyance screws is lowered to be gathered, and a secondary residual conveyance screw installed from the residual hopper to the exterior of the recovery furnace and discharging the residual accumulated in the residual hopper to the exterior of the recovery furnace; and a condensing means separately installed at the exterior of the recovery furnace and receiving vaporized extracts generated through pyrolysis of the recyclable material in the pyrolysis chamber to exchange heat with the extracts to extract liquefied recovery oil. | 10-06-2011 |
| 20120006669 | PYROLYTIC REACTOR - A pyrolytic reactor, comprising an inner drum having a circumferential wall formed with a plurality of apertures, an outer drum surrounding the inner drum and defining a clearance therebetween, a feeding device for feeding a plurality of feedstock pieces to the interior of the inner drum, an inlet port through which heat carrier gases flow and are directed to said clearance, for introduction of the heat carrier gases via said plurality of apertures to the inner drum interior and causing pyrolysis of the fed feedstock pieces, a conveyor for transporting a plurality of solid residue pieces produced from a pyrolytic process, and an outlet port through which product vapors and gases, heat depleted heat carrier gases, and the plurality of solid residue pieces are discharged. | 01-12-2012 |
| 20140061019 | Method and Apparatus for Reducing Organic Waste by Rotary Desiccation - A machine is described that reduces landfill and compost waste streams by processing the waste at the site of generation. The process used, rotary desiccation, is fast, energy efficient, generates no greenhouse gasses and the end product is both sterile and suitable for immediate use as a pellet fuel or other biomass uses. | 03-06-2014 |
| 20150021159 | COMPACT FAST PYROLYSIS SYSTEM FOR CONVERSION OF CARBONACEOUS MATERIALS TO LIQUID, SOLID AND GAS - An apparatus is provided for pyrolysis of organic material biomass, including: i) a first, horizontal auger tube having inlet for a heat carrier and a second inlet for biomass; and a first outlet for pyrolysis gas and a second outlet for the heat carrier and transformed biomass; ii) a second, inclined auger tube having an inlet at or below the second outlet of the first auger tube, for receiving the heat carrier and transformed biomass from the second outlet of the first auger tube and an outlet at a level above the inlet thereof, the outlet communicating with the first inlet of the first auger tube to deliver heat carrier thereto. | 01-22-2015 |
