For Liquid Refuse Patents (Class 110/238)
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Publication number: 20080236459Abstract: A combustion air system particularly useful for Kraft process recovery boilers or soda process recovery boilers has a level of liquor air ports located above the black liquor guns, and multiple levels of tertiary air formed by substantially vertically aligned tertiary air ports located above the black liquor guns. The liquor air ports and the tertiary air ports are on the same opposing walls of the furnace and are substantially vertically aligned with air ports in the same wall at different levels. The liquor air ports are located just above the black liquor guns, within a range of about ½ foot to about four feet. The tertiary air ports are laterally offset with respect to the tertiary air ports on the opposing wall of the furnace.Type: ApplicationFiled: March 30, 2007Publication date: October 2, 2008Inventor: Richard A. Wessel
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Patent number: 7426891Abstract: A simplified energy producing system that utilizes natural animal waste and/or by-products and converts such waste into a usable clean energy source. The system incorporates a grinder/dehydration system, waste transport, a holding container, fuel air regulator, and a novel combustion heat regulator in combination. Thus, after the waste has been treated, combusted and incinerated, intense heat is produced that is usable via heat exchange for production of electrical energy and also a fine fly ash is produced usable for environmentally friendly purposes.Type: GrantFiled: December 12, 2005Date of Patent: September 23, 2008Inventor: Ronald E. Loving
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Patent number: 7270539Abstract: A burner assembly for the destruction of noxious vapors and other waste streams includes an inner burner element in the form of a sudden expansion burner and an outer burner element that encircles the inner burner element and forms an annular passageway between the two elements. Waste vapors may be conducted directly into the flame of the inner burner element (direct inject) or routed through the annular passageway and preheated, for injection at the flame or beyond. The burner elements may include solid or perforated cones mounted on their exits to enhance mixing and injection of the streams. The burner assembly may be equipped with water injection nozzles for flash oxidation of contaminants in waste waters.Type: GrantFiled: October 28, 2004Date of Patent: September 18, 2007Assignee: Soil-Therm Equipment, Inc.Inventor: Mark L. Sujata
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Patent number: 7207280Abstract: An arrangement is disclosed for supplying an air jet form to the furnace of a recovery boiler, where the furnace has a front wall, a rear wall and side walls. Black liquor spraying devices are disposed on the furnace walls at one or several levels of the furnace. A plurality of air ports are located at several horizontal levels for introducing air into the furnace from an air supply. In the arrangement for the secondary air flows, two horizontal air levels at different elevations are arranged above the lower primary levels and below the black liquor sprayer. Secondary air is supplied from two opposite walls and the air ports from each of the two levels are located so that the air jets are introduced in an interlaced pattern having an even number of jets on one opposite wall and an uneven number of jets on the other opposite wall. The air jets of said at least two air levels are located substantially one above each other in substantially vertical rows.Type: GrantFiled: December 30, 2003Date of Patent: April 24, 2007Assignee: Andritz OyInventors: Kari Saviharju, Jorma Simonen, Liisa Simonen, Esa Vakkilainen, Esko Mattelmaki
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Patent number: 7185594Abstract: A combustion air system for a recovery boiler is described in which multiple levels of secondary and tertiary combustion air ports each have an even number of ports, with the ports on opposing walls interlaced. The air system lends itself equally well to front/rear wall or sidewall applications and is especially beneficial for rectangular boilers. The air system features large and small-scale horizontal circulation zones superimposed on each other and the ability to adjust the angle of the air jets. Additional features include port dampers for the starting burners and system control based on kinetic energy.Type: GrantFiled: July 2, 2004Date of Patent: March 6, 2007Assignee: Clyde Bergemann, Inc.Inventors: Daniel R. Higgins, Eugene Sullivan
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Patent number: 7083763Abstract: A feed system for loading waste into a fuel gas generator system where the feed system is made of a walled container wherein the outer container back has an outer back hole and the inner container back has an inner back hole, and wherein the holes are aligned and a piston penetrates the holes, wherein the piston is connected to a plate moveably disposed in the container, wherein the piston is connected to sealable opening locks to apply pressure and retract the plate to a position against the back thereby providing a loading chamber to insert waste, a second piston connected to the door retracts the door for loading waste, at least one inert gas injector mounted to the container for flooding the loading chamber with inert gas, a liquid cooling system disposed in the walls of the container, and a controller for operating the locks, doors and sealable opening.Type: GrantFiled: September 23, 2002Date of Patent: August 1, 2006Inventor: Joseph Frank Pierce, Jr.
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Patent number: 7069866Abstract: The invention relates to a system for controlling the flow field in a soda recovery boiler, said soda recovery boiler comprising at least a furnace (1), primary air ports (4) in the lower part of the furnace, so-called secondary combustion air ports (5) disposed above these, black liquor spray nozzles (6) placed similiarly above these and combustion air ports (5b) disposed above the black liquor spray nozzles (6). According to the invention, the soda recovery boiler is provided with substantially thin jets (7, 7a, 7b) supplying energy into the flow field and having a jet pressure in the nozzle equal to at least twice the jet pressure in the combustion air ports (5, 5b).Type: GrantFiled: November 5, 2002Date of Patent: July 4, 2006Assignee: Oy Polyrec ABInventor: Erik Uppstu
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Patent number: 7014778Abstract: A method and device are provided for treating a waste water waste-product mixture from a toilet by coupling the toilet to a waste product mixture to a waste product holding tank, connecting the tank with a vacuum container having a stirring member for breaking up the waste product and a heating system for drying the waste product to an ash, introducing water from a water holding tank that communicates with the toilet to the ash to form a gel, separating the water from the gel, returning the water to the water holding tank, and discharging the gel residue.Type: GrantFiled: September 4, 2003Date of Patent: March 21, 2006Inventor: Yoshiharu Fuchigami
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Patent number: 6968629Abstract: The present invention provides: a method of drying metallic waste having pyrophoric tendencies (liable to catch fire and/or explode), said waste being for compacting; an apparatus for drying said waste, the apparatus including a compacting canister and being suitable for implementing said drying method; and a canister for compacting said waste, the canister being particularly adapted to implementing said drying method.Type: GrantFiled: January 5, 2005Date of Patent: November 29, 2005Assignee: Compagnie Generale des Matieres NucleairesInventors: Maurice Ladre, Serge Le Cocq, Gérard Limeuil
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Patent number: 6932000Abstract: A method and a system for feeding combustion air of a soda recovery boiler to a furnace. The air is fed to the boiler furnace as primary air jets and auxiliary airjets, which are substantially shorter than the primary air jets. At least one primary airjet is placed between two opposite auxiliary air jets.Type: GrantFiled: October 10, 2003Date of Patent: August 23, 2005Assignee: Kvaerner Power OyInventors: Tuomo Ruohola, Jussi Mäntyniemi
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Patent number: 6880265Abstract: The present invention provides: a method of drying metallic waste having pyrophoric tendencies (liable to catch fire and/or explode), said waste being for compacting; an apparatus for drying said waste, the apparatus including a compacting canister and being suitable for implementing said drying method; and a canister for compacting said waste, the canister being particularly adapted to implementing said drying method.Type: GrantFiled: July 3, 2003Date of Patent: April 19, 2005Assignee: Compagnie Generale des Matieres NucleairesInventors: Maurice Ladre, Serge Le Cocq, Gérard Limeuil
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Patent number: 6820564Abstract: One or more auxiliary plasma torches are provided to a waste processing plant at strategic locations within the chamber and directed towards the waste column. When a bridge forms within the chamber the auxiliary plasma torches may be operated such as to provide an additional heat source where needed, quickly heating the organic solids, which thus pass through the bituminsation and charcoal formation stages quickly. The additional heat source may be in the neighborhood of the bridge, but may also be near the bottom end of the chamber, in which case the additional temperature at the bottom of the chamber effectively moves the combustion and gasification zones for the charcoal to a higher part of the chamber, altering the temperature profile. The heat source also enables the inorganic wastes to be heated rapidly to pass beyond the melting stage relatively quickly.Type: GrantFiled: September 26, 2003Date of Patent: November 23, 2004Assignee: E.E.R. Environmental Energy Resources Ltd.Inventors: Valeri G. Gnedenko, Alexandre L. Souris, David Pegaz
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Publication number: 20040221779Abstract: A method and a system for feeding combustion air of a soda recovery boiler to a furnace (7), in which the air is fed to the boiler furnace (7) as primary air jets (5) and auxiliary air jets (6), which are substantially shorter than the primary air jets. According to the invention, at least one primary air jet (5) is placed between two opposite auxiliary air jets (6).Type: ApplicationFiled: October 10, 2003Publication date: November 11, 2004Inventors: Tuomo Ruohola, Jussi Mantyniemi
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Patent number: 6807913Abstract: A plurality of fluxing agent inlets are provided at the lower part of a waste processing chamber to enable the direct application of fluxing agents to deposited “unprocessed solids” and/or to liquid products of high viscosity therein. Means are provided for sensing the presence of such blockages in the lower part of the chamber and for providing the fluxing agents thereto to remove the blockage.Type: GrantFiled: September 30, 2003Date of Patent: October 26, 2004Assignee: E.E.R. Environmental Energy Resources LTDInventors: Valeri G. Gnedenko, Alexandre L. Souris, David Pegaz
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Patent number: 6799526Abstract: Methods of increasing the throughput of recovery boilers equipped with at least three levels of injection of air with oxygen enrichment of the air in at least one air level. In one method, a black liquor recovery boiler has three levels of air injection, and oxygen enrichment is applied to at least the secondary and the tertiary air injection levels. In another method, a black liquor recovery boiler has four levels of air injection, and oxygen enrichment is applied to one or more of the tertiary or quaternary air injection levels. In another method, a black liquor boiler has three levels of air injection, with oxygen enrichment applied to at least two air injection levels. After combustion, the oxygen concentration in the resultant flue gas is sensed. The oxygen injection is then adjusted in order to maintain the sensed oxygen concentration at the previously selected oxygen set point.Type: GrantFiled: December 6, 2001Date of Patent: October 5, 2004Assignees: American Air Liquide, Inc., Air Liquide America, L.P., Jansen Combustion and Boiler Technologies, Inc.Inventors: Louis C. Philippe, Eric L. Duchateau, David R. Scheeff, Arie Verloop, Edward C. Dye
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Patent number: 6796250Abstract: A waste water recovery and utilization system that converts waste water including gray water, liquid sewerage waste and solid macerated sewerage waste to steam and to electricity comprises a gray water tank, a sewerage tank, a steam generator with a gray water crucible for vaporizing the gray water and a sewerage crucible for vaporizing the liquid sewerage waste and for incinerating the solid macerated sewerage waste thereby generating steam for space heating. A variable speed injection pump cooperates with the gray water tank, with the sewerage tank, with the gray water crucible and with the sewerage crucible. Condensate is collected in a condensate tank. The system is operable on multiple fuels, including hydrogen and oxygen provided by the system, natural gas and liquid propane gas. Alternate energy including solar, wind and mechanical, supply electrical power to an electrolysis machine when conventional electrical energy is to be conserved.Type: GrantFiled: February 13, 2003Date of Patent: September 28, 2004Inventor: Brian W. Greene
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Publication number: 20040149185Abstract: An arrangement is disclosed for supplying an air jet form to the furnace of a recovery boiler, where the furnace has a front wall, a rear wall and side walls. Black liquor spraying devices are disposed on the furnace walls at one or several levels of the furnace. A plurality of air ports are located at several horizontal levels for introducing air into the furnace from an air supply. In the arrangement for the secondary air flows, two horizontal air levels at different elevations are arranged above the lower primary levels and below the black liquor sprayer. Secondary air is supplied from two opposite walls and the air ports from each of the two levels are located so that the air jets are introduced in an interlaced pattern having an even number of jets on one opposite wall and an uneven number of jets on the other opposite wall. The air jets of said at least two air levels are located substantially one above each other in substantially vertical rows.Type: ApplicationFiled: December 30, 2003Publication date: August 5, 2004Applicant: Andritz OyInventors: Kari Saviharju, Jorma Simonen, Liisa Simonen, Esa Vakkilainen, Esko Mattelmaki
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Patent number: 6763772Abstract: A liquid waste feeding system having a liquid inlet to a plasma torch based waste processing chamber, disposed intermediate the primary plasma torch arrangement at the bottom end of the chamber and the top gas products outlet. the liquid inlet is positioned within the chamber such that liquid waste flowing from the inlet into the chamber is directed at a high temperature zone of waste column, and the liquid inlet is typically associated with a hot gas jet means. The hot gas jet means that provides the required high temperature zone may comprise one or more secondary plasma torches configured to provide hot gas jets into the liquid discharge zone of the inlet. Alternatively, the hot gas jet may be provided by the primary plasma torches, in which case the liquid inlet is disposed within a predetermined area close to and above at least one of the primary plasma torches.Type: GrantFiled: May 5, 2003Date of Patent: July 20, 2004Assignee: E.E.R. Environmental Energy Resources (Israel) Ltd.Inventors: Valeri Gnedenko, Alexandre Souris, David Pegaz
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Publication number: 20040112264Abstract: A method for treatment of sludge is disclosed, wherein the sludge has a liquid part and metal-containing particles intermixed therein. The particles comprise metal, metal oxide or metal hydroxide and the method comprises the following steps: atomising the sludge; supplying the atomised sludge to a flame of a burner provided in a furnace; bringing the liquid part of the sludge to vaporise by means of the flame while maintaining said flame by means of a separate fuel supply; and bringing at least part of the metal-containing particles to melt by means of the flame. This provides an efficient method for taking care of waste material from plants in the steel or petrochemical industry, for example.Type: ApplicationFiled: January 26, 2004Publication date: June 17, 2004Inventors: Joachim Von Scheele, Mats Johansson, Lennart Rangmark
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Patent number: 6742463Abstract: An arrangement is disclosed for supplying an air jet form to the furnace of a recovery boiler, where the furnace has a front wall, a rear wall and side walls. Black liquor spraying devices are disposed on the furnace walls at one or several levels of the furnace. A plurality of air ports are located at several horizontal levels for introducing air into the furnace from an air supply. In the arrangement for the secondary air flows, two horizontal air levels at different elevations are arranged above the lower primary levels and below the black liquor sprayer. Secondary air is supplied from two opposite walls and the air ports from each of the two levels are located so that the air jets are introduced in an interlaced pattern having an even number of jets on one opposite wall and an uneven number of jets on the other opposite wall. The air jets of said at least two air levels are located substantially one above each other in substantially vertical rows.Type: GrantFiled: April 5, 2002Date of Patent: June 1, 2004Assignee: Andritz OyInventors: Kari Saviharju, Jorma Simonen, Liisa Simonen, Esa Vakkilainen, Esko Mattelmäki
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Patent number: 6729246Abstract: A garbage incinerator comprises an incinerator body having an elongated incinerating chamber, which forms an angle with a horizontal plane. A plurality of inlets are provided on the incinerator body for feeding burnable construction garbage and house refuse, respectively. A plurality of house refuse drying channels are provided in the incinerating chamber for drying the house refuse received from the inlets. A waste oil burner is provided at the bottom of the incinerating chamber. Also provided are a dust-removing device for removing dust from exhaust of the incinerator and a harmful substance detecting device.Type: GrantFiled: August 23, 2002Date of Patent: May 4, 2004Inventor: Koon Kwan Lo
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Patent number: 6619217Abstract: A decomposition processing apparatus for PCBs prolongs the staying time of the PCBs in a vertical furnace. The apparatus heats and decomposes the PCBs and includes porous staying plates through which the falling PCBs pass, to delay the progress of the PCBs through the apparatus and thus subject the PCBs to sufficient thermolysis.Type: GrantFiled: November 7, 2001Date of Patent: September 16, 2003Inventors: Kanji Kokubu, Yutaka Hayano, Masamitsu Iwasaki
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Publication number: 20030167983Abstract: A liquid waste feeding system having a liquid inlet to a plasma torch based waste processing chamber, disposed intermediate the primary plasma torch arrangement at the bottom end of the chamber and the top gas products outlet. the liquid inlet is positioned within the chamber such that liquid waste flowing from the inlet into the chamber is directed at a high temperature zone of waste column, and the liquid inlet is typically associated with a hot gas jet means. The hot gas jet means that provides the required high temperature zone may comprise one or more secondary plasma torches configured to provide hot gas jets into the liquid discharge zone of the inlet Alternatively, the hot gas jet may be provided by the primary plasma torches, in which case the liquid inlet is disposed within a predetermined area close to and above at least one of the primary plasma torches.Type: ApplicationFiled: May 5, 2003Publication date: September 11, 2003Inventors: Valeri Gnedenko, Alexandre Souris, David Pegaz
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Publication number: 20030127030Abstract: A method and apparatus for combusting black liquor generated by semi-chemical and other pulping processes, using a draft airflow furnace such as a rotating kiln, and a lower end mixing nozzle for black liquor and combustion air. A combustion agent is added to the black liquor to support ignition and permit a closely controllable combustion plume or flame adjacent the nozzle. Resulting combustion is complete and well below government environmental air emission standards. Chemical recovery is efficient, clean, and free from products of incomplete combustion.Type: ApplicationFiled: December 27, 2002Publication date: July 10, 2003Inventors: J. Peter Cardin, Brian W. Doyle, Alex W. Driessen, Roger G. Goulet, Andrew J. Hartford
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Patent number: 6553924Abstract: A system and method for treating, injecting and co-combusting sludge in a municipal waste or other solid fuel combustor. The system includes a sludge receiving and treatment module and a sludge injection and combustion module. The sludge is received and stored in one or more storage hoppers where its moisture content is monitored and varied to obtain a sludge having a desired moisture content. The treated sludge is then pumped to a furnace injection nozzle where it is preferably atomized with steam and sprayed into the combustion zone of the furnace. Improved odor control in sludge handling is also provided by a storage tank and a sludge tanker trailer each having an air diffuser for mixing and aerating the sludge and a filter system for filtering odors.Type: GrantFiled: July 31, 2001Date of Patent: April 29, 2003Assignee: ECO/Technologies, LLCInventors: E. Larry Beaumont, Larry D. Richardson, Kevin G. Rousseau
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Patent number: 6546883Abstract: A thermo-oxidizer evaporator is provided with a combustion chamber, burners, and waste water injection system. The waste water injection system is preferably adapted to atomize the waste water stream. The waste water is injected near the flame from the burners so as to evaporate water in the waste water stream and combust contaminants in the waste water stream. The water leaves the combustion chamber as vapor, and contaminants collect at the bottom of the combustion chamber as dry ash. Heat exchange apparatus heats air prior to injection into the combustion chamber. A temperature controller controls fuel and air flow into the combustion chamber. Baffles in the combustion chamber increase the residence time to facilitate the settling of solid constituents from the gas stream leaving the combustion chamber. Methods for treating liquid wastes are also disclosed.Type: GrantFiled: July 14, 2000Date of Patent: April 15, 2003Assignee: RGF, Inc.Inventors: Ronald George Fink, Andrew Charles Hyatt, Walter Bernard Ellis
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Patent number: 6532880Abstract: A system for drying sludge includes a shaftless spiral feed screw for moving sludge through a drying chamber. An high energy inductor is located at a output of the drying chamber for drawing hot gases through the chamber to dry the sludge as it advances from the input end to the output end of the chamber. The high energy inductor also aspirates the dried sludge from the chamber. The drying system can be used in conjunction with a waste-to-energy furnace for incineration of sludge and municipal waste. In such an arrangement, the dried sludge can be aspirated from the drying chamber directly into a combustion zone of the furnace. Hot gases from the furnace can be used in drying the sludge.Type: GrantFiled: May 8, 2002Date of Patent: March 18, 2003Inventor: Vincent Promuto
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Publication number: 20030041788Abstract: An ash melting device employing the means of using a crucible with a three-layer structure, using an auxiliary burner for prevention of the lowering of temperature in the vicinity of the discharge outlet, employing furnace walls with a four-layer structure to improve the heat insulating property and thereby improve the durability, providing lids at both the left and right sides to enable the crucible to be taken out readily, etc. This ash melting device is intended to significantly improve durability even after a long period of use at a high temperature of 1600 to 1700° C. or more, to resolve the problem of prevention of use of the melting furnace due to clogging of the vicinity of the discharge outlet by the cooling and solidification of the ash melt, to reduce fuel cost by the improvements in thermal efficiency through improvement of the heat insulating property of the furnace walls, and to enable the crucible to be exchanged readily in a short time.Type: ApplicationFiled: March 12, 2002Publication date: March 6, 2003Inventors: Hitoshi Mikajiri, Yoshio Tokai, Shinichi Okamoto
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Publication number: 20020162491Abstract: An arrangement is disclosed for supplying an air jet form to the furnace of a recovery boiler, where the furnace has a front wall, a rear wall and side walls. Black liquor spraying devices are disposed on the furnace walls at one or several levels of the furnace. A plurality of air ports are located at several horizontal levels for introducing air into the furnace from an air supply. In the arrangement for the secondary air flows, two horizontal air levels at different elevations are arranged above the lower primary levels and below the black liquor sprayer. Secondary air is supplied from two opposite walls and the air ports from each of the two levels are located so that the air jets are introduced in an interlaced pattern having an even number of jets on one opposite wall and an uneven number of jets on the other opposite wall. The air jets of said at least two air levels are located substantially one above each other in substantially vertical rows.Type: ApplicationFiled: April 5, 2002Publication date: November 7, 2002Applicant: Andritz-Ahlstrom OyInventors: Kari Saviharju, Jorma Simonen, Liisa Simonen, Esa Vakkilainen, Esko Mattelmaki
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Patent number: 6443077Abstract: The system for producing combustion ash of cellulose-containing wastes, provided with a kneading device 3 for kneading cellulose-containing wastes with a prescribed amount of liquid fuel oil, a molding device 5 for molding said kneaded mixture, and a combustion furnace 7 for burning said moldings, is characterized in that the humidity conditioning furnace 6 for adjusting the water content of said moldings is arranged between said molding device and said combustion furnace. Since the water content of said moldings is adjusted by the humidity conditioning furnace at the time of burning said moldings, the organic substances (cellulose or the like) are burned almost perfectly. Consequently, the present invention has the advantage of being able to produce combustion ash of good quality without generating such combustion residue as graphite and black smoke.Type: GrantFiled: July 11, 2001Date of Patent: September 3, 2002Assignee: Kubota Co., Ltd.Inventors: Makoto Kubota, Tutomu Domoto
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Patent number: 6435860Abstract: An automated, computer-controlled landfill condensate injection system includes a pump that pumps condensate into a flare chamber at a pressure that is sufficiently high and through a nozzle that is configured to vaporize the condensate without requiring the use of high pressure air injected with the condensate. Secondary injection lines can also be provided that terminate in nozzles which are vertically staggered from each other along the chamber, to inject additional condensate into the flare and thus dispose of it at a higher rate depending on vaporization conditions. Computer-controlled valves can be provided in the lines for selectively opening and closing the lines.Type: GrantFiled: April 28, 2000Date of Patent: August 20, 2002Assignee: LFG & E InternationalInventors: Ronald L. Brookshire, Travis Brookshire, Robert Hamilton
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Patent number: 6425976Abstract: The invention refers to a method for black liquor gasification in recovery boilers, of the type having a lower portion, referred to as a lower furnace and an upper portion, referred to as an upper furnace, black liquor sprayers for introduction of black liquor provided in the boiler above the lower furnace, and a number of combustion air levels, whereby the invention incorporates adding oxygen enriched air to the combustion air or directly into the lower furnace at at least one air level underneath the liquor sprayers for the purpose of creating the best possible reducing conditions in the lower furnace, redistributing from the lower furnace combustion air not needed therein following the addition of oxygen enriched air, thereby significantly reducing upward gas velocity underneath the black liquor sprayers, and introducing the redistributed combustion air in the upper furnace, thereby creating the reducing conditions and a controlled temperature in the lower furnace for emission control.Type: GrantFiled: April 16, 2001Date of Patent: July 30, 2002Assignee: AGA ABInventors: Kent K Sandquist, Anders Kullendorff
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Patent number: 6412428Abstract: A system for drying sludge includes a shaftless spiral feed screw for moving sludge through a drying chamber. An high energy inductor is located at a output of the drying chamber for drawing hot gases through the chamber to dry the sludge as it advances from the input end to the output end of the chamber. The high energy inductor also aspirates the dried sludge from the chamber. The drying system can be used in conjunction with a waste-to-energy furnace for incineration of sludge and municipal waste. In such an arrangement, the dried sludge can be aspirated from the drying chamber directly into a combustion zone of the furnace. Hot gases from the furnace can be used in drying the sludge.Type: GrantFiled: December 20, 2000Date of Patent: July 2, 2002Inventor: Vincent Promuto
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Patent number: 6408771Abstract: Methods are presented to increase the throughput of a recovery boiler equipped with at least primary and secondary levels of injection of air. The methods comprise operating the recovery boiler with a third level of oxidant injection below or at the same level as the secondary level, and oxygen enrichment applied to at least the secondary level and said third level.Type: GrantFiled: September 9, 1999Date of Patent: June 25, 2002Assignees: Air Liquide America Corporation, American Air Liquide, L'Air Liquide Societe Anonyme pour l'Etude et, l'Exploitation des Procedes Georges Claude, Jansen Combustion and Boiler Technologies, Inc.Inventors: Louis C. Philippe, Eric L. Duchateau, David R. Scheeff, Arie Verloop, Edward C. Dye
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Publication number: 20020073903Abstract: A system for drying sludge includes a shaftless spiral feed screw for moving sludge through a drying chamber. An high energy inductor is located at a output of the drying chamber for drawing hot gases through the chamber to dry the sludge as it advances from the input end to the output end of the chamber. The high energy inductor also aspirates the dried sludge from the chamber. The drying system can be used in conjunction with a waste-to-energy furnace for incineration of sludge and municipal waste. In such an arrangement, the dried sludge can be aspirated from the drying chamber directly into a combustion zone of the furnace. Hot gases from the furnace can be used in drying the sludge.Type: ApplicationFiled: December 20, 2000Publication date: June 20, 2002Inventor: Vincent Promuto
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Patent number: 6401635Abstract: Process for recycling of liquid carton waste material or other similar waste material having fibrous, metal and plastics materials. The process includes introducing the waste material and a slushing liquid into a slushing apparatus and slushing of the waste material to thereby form defibrated fibrous material therein. The treated waste material is then separated into (i) a fiber suspension which includes the defibrated fibrous material, and (ii) a reject portion which includes the metal and plastics materials. The obtained fiber suspension is cleaned and the fibrous material therein is reclaimed for further use. The reject portion is introduced into a fluidized bed gasifier so as to gasify the plastics therein to produce a hydrocarbon product gas, which is thereafter separated from the metal material.Type: GrantFiled: April 5, 2001Date of Patent: June 11, 2002Assignee: Corenso United Oy Ltd.Inventors: Jorma Nieminen, Juha Palonen, Markku Itäpelto, Pekka Harkki, Lauri Mäkipaja
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Patent number: 6397766Abstract: There are provided an evaporative/regenerative incineration system for organic waste water for incinerating organic waste water and volatile organic compounds completely at low expenses and a method therefor. Waste gas is generated by evaporating waste water including organic compounds in an evaporator and the generated waste gas is mixed with air in a regenerative thermal oxidizer (RTO) in flow communication with the evaporator for oxidation. The heat energy generated from the oxidation is collected and supplied to the evaporator.Type: GrantFiled: February 21, 2001Date of Patent: June 4, 2002Assignee: Key Engineering Co., Ltd.Inventor: Suk-in Oh
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Patent number: 6389996Abstract: A incinerator comprises a framework, a liquid-vapor tank, a plurality of liquid tanks, and at least two fluid dryer tanks. The framework provides a plurality of elongated horizontal frames fixedly attached to a front and a rear walls thereof respectively. The liquid-vapor tank strides the framework and occupies a top area thereof. The liquid tanks each are disposed under the liquid-vapor tank and occupy a space confined by two neighboring horizontal frames respectively. The fluid dryer tanks each are disposed below the liquid tanks. The liquid from the liquid source may enter the liquid tanks and the liquid-vapor tank and a specific water level may be maintained constantly. The vapor can move outward from the vapor discharge pipes and is collected for further use and the dense fluid can be filled into the fluid dryer tanks and is dried up slowly and to be recycled for the energy saving and the environment protection.Type: GrantFiled: July 6, 2001Date of Patent: May 21, 2002Inventors: Sung-Chuan Mai, Chun-Jen Lu, Chan-Chia Mai, Jen-Feng Wang
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Publication number: 20020050236Abstract: A system and method for treating, injecting and co-combusting sludge in a municipal waste or other solid fuel combustor. The system includes a sludge receiving and treatment module and a sludge injection and combustion module. The sludge is received and stored in one or more storage hoppers where its moisture content is monitored and varied to obtain a sludge having a desired moisture content. The treated sludge is then pumped to a furnace injection nozzle where it is preferably atomized with steam and sprayed into the combustion zone of the furnace. Improved odor control in sludge handling is also provided by a storage tank and a sludge tanker trailer each having an air diffuser for mixing and aerating the sludge and a filter system for filtering odors.Type: ApplicationFiled: July 31, 2001Publication date: May 2, 2002Applicant: eco/Technologies, LLC.Inventors: E. Larry Beaumont, Larry D. Richardson, Kevin G. Rousseau
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Publication number: 20020043221Abstract: The present invention relates to an arrangement for introducing black liquor into a furnace of a recovery boiler, said arrangement comprising an elongated tube having an interior surface and an exterior surface, through which tube the black liquor being fed into the furnace is supplied, whereby the black liquor is taken into contact with said interior surface prior to being sprayed into the furnace. The interior surface of said elongated tube is provided with heat transfer elements and surfaces, such as fins or grooves. The heat transfer element or surface increases the heat conductivity between the tube and the black liquor above the conductivity achieved with a normal tube passage.Type: ApplicationFiled: October 17, 2001Publication date: April 18, 2002Inventors: Antti Hytonen, Pentti Piilonen, Esa Vakkilainen
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Patent number: 6360679Abstract: A sanitary waste disposal unit (1) including a scalable destruction chamber (11), a vacuum pump (23), a source of heat (15) and means (29) for the controlled introduction of air into the chamber (11). In use the waste is introduced on the chamber (11) which is then evacuated to remove substantially all the oxygen, and heated to sterilize the waste material to approximately 300-500° C. The chamber (11) is then cooled to approximately 150° C., a temperature sufficiently high enough to allow combustion of the waste material, which has been partially carbonized. A limited quantity of air is introduced into the chamber allowing combustion of the waste material and the combustion products are removed from the chamber.Type: GrantFiled: April 9, 2001Date of Patent: March 26, 2002Assignee: Morgan Automation LimitedInventor: Howard Morgan Clarke
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Patent number: 6357367Abstract: In an improved method for reducing nitrogen oxide emissions from a furnace wherein at least one injector is attached to the furnace above the primary combustion zone a biomass or biowaste and water slurry is injected into the flue gas through the injectors. The biowaste or a biomass material can be supplemented with a fixed nitrogen source.Type: GrantFiled: July 18, 2000Date of Patent: March 19, 2002Assignee: Energy Systems AssociatesInventors: Bernard P. Breen, Jeffrey J. Sweterlitsch, James E. Gabrielson
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Patent number: 6309542Abstract: A waste water treating device can be simply installed in a small area and destroy combustible wastes and sludge to reduce fuel consumption cost of a burner. Moreover, the waste water treating device can increase a treating amount of the waste water per unit time to thereby reduce an activation time thereof and decrease installation and maintenance cost, to thereby obtain an economic advantage.Type: GrantFiled: November 21, 1997Date of Patent: October 30, 2001Inventor: Seung-Wook Kim
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Patent number: 6302039Abstract: This invention improves fluid flow, gas mixing and combustion in the furnaces of recovery boilers which burn liquor from various pulping processes, namely, the kraft process, the soda process, the sodium-based sulphite process, the closed-cycle CTMP (chemical, thermal, mechanical pulp) process, the magnesium-based sulphite process and the ammonium-based sulphite process, which are employed in the manufacture of pulp and paper, and in the furnaces of boilers burning biomass, wood waste or other solid fuel. The invention improves the operation of new or retrofitted boilers in several ways and can reduce both the capital and operating costs. One embodiment comprises introducing a portion of the combustion air, and/or recycled flue gas, at any elevation in the furnace, from two opposing walls only, as jets arranged in a partially-interlaced manner, with the jets oriented in a more or less common plane which is inclined.Type: GrantFiled: August 25, 1999Date of Patent: October 16, 2001Assignee: Boiler Island Air Systems Inc.Inventors: Colin MacCallum, Brian Robin Blackwell
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Patent number: 6279495Abstract: A method and an apparatus for optimizing the combustion air system in a power boiler or chemical recovery boiler by improving fluid flow and gas mixing are disclosed, whereby one can increase boiler capacity and combustion uniformity and reduce particulate and gaseous emissions. The method involves interlacing of the secondary and, where applicable, the tertiary air supply through opposing air ports on all four walls of the boiler, and is implemented by alternately opening wide or partially closing a port damper on one side, while partially closing or opening wide a port damper on the opposite side, such that a 70-100% open damper on one side opposes a partially closed (10-40% open) damper on the other and vice versa in an alternating fashion, along opposing walls.Type: GrantFiled: July 3, 2000Date of Patent: August 28, 2001Assignee: Pulp and Paper Research Institute of CanadaInventors: Ibrahim Karidio, Victor Uloth, Klaus Weiss
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Patent number: 6279493Abstract: A system and method for treating, injecting and co-combusting sludge in a municipal waste or other combustor is disclosed. The system includes a sludge receiving and treatment module and a sludge injection and combustion module. The sludge is received and stored in one or more storage hoppers where it is first diluted with a liquid and subsequently mixed to a desired homogeneous consistency suitable for pumping. The high liquid content sludge is then pumped to a furnace injection nozzle where it is preferably atomized with steam and sprayed into the combustion zone of the furnace. The disclosed system and method increases sludge moisture content and controls the solids content of the sludge to control furnace temperature.Type: GrantFiled: October 18, 1999Date of Patent: August 28, 2001Assignee: ECO/Technologies, LLCInventors: E. Larry Beaumont, Larry D. Richardson, Kevin G. Rousseau
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Patent number: 6273008Abstract: A closed-loop process for incinerating chlorinated hydrocarbon-containing material without the emission of air borne pollutants. The chlorinated hydrocarbon-containing material is incinerated, preferably in the substantial absence of air, thereby producing a gaseous effluent containing hydrogen chloride and pollutants such as carbon dioxide, acid gases, and halogenated compounds. The gaseous effluent is passed through a hydrogen chloride purification system to remove hydrogen chloride from the gaseous effluent and to produce a concentrated anhydrous hydrogen chloride gaseous stream. The gaseous effluent is passed through at least one sorbent bed, such as a bed of activated carbon, to remove halogenated pollutants from the effluent. The pollutants are desorbed from the one or more sorbent beds and recycled to the incinerator where they are decomposed by combustion.Type: GrantFiled: November 16, 1998Date of Patent: August 14, 2001Inventor: Tommy G. Taylor
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Patent number: 6237512Abstract: An incinerator for waste liquid comprises a container, a burner and an atomizer. An incineration chamber is defined inside the container. The incineration chamber has upper and lower sections, and the container has a vent adjacent to the upper section of the chamber. The burner is connected to the container near the lower section to jet flame into the chamber. The atomizer is connected to the container near the lower section to shoot atomized waste liquid upwardly into the chamber such that waste liquid shot out of the atomizer is directed toward the upper section. A method of incinerating waste liquid comprises the steps of jetting flame into the lower section of an incineration chamber having a vent adjacent to the upper section thereof, and shooting an atomized waste liquid upwardly into the lower section so that the atomized waste liquid is directed toward the upper section.Type: GrantFiled: November 3, 1998Date of Patent: May 29, 2001Assignee: Kiyoshi NakatoInventor: Einosuke Inoue
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Patent number: 6234092Abstract: A process for the thermal treatment of incombustible liquids in a combustion space of a combustion apparatus by contacting the incombustible liquid with a supplementary fuel in the combustion space in the presence of at least one reactive gas. The process of the invention comprises feeding the incombustible liquid and the supplementary fuel into the combustion space (1) at different points, mixing the incombustible liquid with at least one reactive gas and the supplementary fuel with at least one inert gas prior to the contacting, and vaporizing the incombustible liquid and supplementary fuel prior to the contacting in the combustion space. The advantage of this invention is that environmentally harmful waste waters in particular are disposed of by burning these using a supplementary fuel. The required amounts of supplementary fuel are minimal in the process and only small amounts of nitrogen oxides, carbon monoxide and soot are generated.Type: GrantFiled: December 8, 1999Date of Patent: May 22, 2001Assignee: BASF AktiengesellschaftInventors: Thomas Domschke, Andreas Joa, Klaus Steinebrunner
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Patent number: 6234787Abstract: A combustion type detoxifying apparatus which carries out detoxifying treatment of a raw gas containing toxic components injected through a burner (2) into a combustion chamber (1) by allowing the toxic components to burn or undergo pyrolysis. The combustion chamber (1) having a double-wall structure consisting of an outer barrel (11) and an inner barrel (12) which is made of a porous material. The combustion chamber (1) is provided with a gas introducing nozzle (4) for introducing a pressure gas to the space defined between the outer barrel (11) and the inner barrel (12).Type: GrantFiled: April 13, 1998Date of Patent: May 22, 2001Assignee: Nippon Sanso CorporationInventors: Fumitaka Endoh, Maya Yamada, Shuichi Koseki, Shinichi Miyake, Akihiko Nitta, Yoshiaki Sugimori