Abstract: A method for thermally decomposing and gasifying either liquid or solid combustible material in a single reactor filled with working medium in a high active fluidization, said reactor being provided with two partitions, one of which is extended downwards upto the lower portion of the reactor, while the other is vertically extended at the lower and middle portions thereof substantially at a right angle to the first partition, whereby the reactor is divided into two sections, that is, thermal decomposition and gasification section and combustion and heating section, so that thermal decomposing and gasifying are performed by way of supplying the combustible raw material into the downwardly travelling working medium and at the same time supplying steam thereinto for generating and maintaining the high active fluidization of the working medium in the thermal decomposition and gasification section, while burning and heating are performed by way of supplying air or steam mixture gas of oxygen and steam into the upwa

Abstract: A twin wire papermaking machine which has a multichambered suction dewatering device located over the forming wires downstream from the forming roll. The dewatering device deflects the forming wires into a concave path to aid in formation and dewatering.

Abstract: In a high pressure process for the production of synthesis gas from ash-containing fuels where the ash is collected in water in a settling zone below the gasification chamber, bridging by the slag in the narrower sections of the settling zone is avoided by passing a gas upwardly through the settling zone water.

Abstract: Heavy hydrocarbon fuel containing high metal concentrations and all of the soot which is rich in metals that is produced in the system, are feedstocks in a partial oxidation process for the simultaneous continuous production of two streams of cleaned, raw synthesis gas having high and low H.sub.2 O/dry gas mole ratios, respectively. In the process, all of the stream of hot, raw synthesis gas containing entrained particulate carbon and ash that is produced in a first gas generator is quench cooled and scrubbed with water in a quench tank. Simultaneously, split streams of hot raw synthesis gas containing entrained particulate carbon and ash are produced in a second gas generator. One split gas stream is quench cooled and scrubbed with water in a quench tank while the other split gas stream is simultaneously cooled in a convection-type gas cooler and then scrubbed with water.

Abstract: Heavy liquid hydrocarbon fuel containing high metal concentrations and all of the soot rich in metal values that is produced in the system are feedstocks in a partial oxidation process. Three free-flow noncatalytic partial oxidation gas generators are simultaneously operated for the simultaneous continuous production of two streams of cleaned, raw synthesis gas having high and low H.sub.2 O/dry gas mole ratios, respectively. In the process, all of the hot, raw synthesis gas containing entrained particulate carbon and ash that is produced by the first two gas generators is quench cooled and scrubbed with water in separate quench tanks. Simultaneously, as stream of hot raw synthesis gas containing entrained particulate carbon and ash is produced by a third gas generator and cooled in a convection-type gas cooler without fouling and plugging of the tubes.

Abstract: An improvement in a cutting torch assembly that obviates the tendency to have flashback and sustained burning with certain fuels, including cutting oxygen valve and passageway, preheat oxygen valve and passageway, fuel gas valve and passageway, a head having a tip end for having a tip affixed thereto and having a head passageway for cutting oxygen and a head passageway for mixture of fuel and oxygen, the improvement being characterized by an integral head mixer having within the head an incoming preheat oxygen passageway and incoming fuel passageway, a mixer insert disposed within the incoming fuel passageway and having engaging seal means for constraining the fuel to flow through the insert, the insert having a centrally disposed bore communicating at its inlet end with the incoming fuel passageway and terminating in a plurality of at least three apertured passageways that flow the fuel into intimate admixture with the preheat oxygen in the annular space thereabout.

Abstract: Apparatus for treating gases produced from the conversion of coal, e.g., from carbonization of coal, to remove the undesirable constituents thereof is disclosed. The method involves passing the hot raw gases from the coal conversation process over a coke bed at a temperature of more than 1100.degree. K. The coke bed is located in the coal gasification reactor and is provided with an ordinary air supply. The subject method achieves a significant reduction in undesirable constituents in the gas and eliminates the need for auxiliary gas treatment systems, oxygen production systems and the like.

Abstract: The apparatus serves to continuously charge coarse-grained and fine-grained solid fuels by means of a rotary distributor onto a fixed bed of fuel. The fixed bed is disposed within a reactor for gasifying the fuels. Gasifying agents comprising oxygen, steam and/or carbon dioxide are passed through the fixed bed from below. Residual matter left after the gasification is withdrawn under the fixed bed as solid ash or liquid slag. Fine-grained fuel having a mean particle size up to 5 mm are placed onto the fixed bed as helical layers separately form more coarsely grained fuel having a mean particle size above 5 mm. The more coarsely grained fuel is deposited directly on fine-grained fuel which has just been deposited.The gasifier comprises a rotary distributor that includes at least one passage for the fine-grained fuel and at least one passage for the more coarsely grained fuel. The inlet of the passage for fine-grained fuel is disposed near the center of the rotary distributor.

Abstract: The hot raw effluent gas stream from a free-flow partial oxidation gas generator comprising H.sub.2, CO, CO.sub.2, entrained particulate carbon, and at least one material from the group H.sub.2 O, N.sub.2, Ar, H.sub.2 S, COS, CH.sub.4, and ash are split into two hot raw gas streams which are separately processed. One hot, raw split gas stream contains about 5 to 50 volume %, such as 10 to 20 volume % of the total amount of hot raw effluent gas stream and the other hot, raw split gas stream contains the remainder. One raw, split gas stream is cleaned by quenching and scrubbing with water to produce a clean product gas stream saturated with water. The entrained particulate carbon is removed from the raw synthesis gas as a carbon-water dispersion from which it is extracted with a liquid organic extractant.

Abstract: A partial oxidation process with an extractant purifier for removing the particulate carbon entrained in a vaporized stream of normally liquid organic extractant-carbon-water dispersion from a decanter and producing a clean vaporized mixture of liquid organic extractant and water and a separate liquid stream of liquid hydrocarbonaceous fuel-carbon dispersion. The extractant purifier comprises a closed, vertical, cylindrical, thermally insulated vessel with an unobstructed central passage. Supported in the upper section of the vessel is a gas-solids separator for separating the particulate carbon from the vaporized dispersion flowing up the vessel and discharging the particulate carbon into atomized liquid hydrocarbon fuel located within the lower section of the purifier.

Abstract: The particulate carbon in a liquid organic extractant-carbon-water dispersion stream that is produced in a decanter is separated as clean, dry carbon particles from the liquid carrier by atomizing the dispersion and vaporizing the liquid organic extractant and water in a spray dryer. Thermal energy for completely vaporizing the liquid carrier is provided by directly contacting the atomized dispersion in the spray dryer with a split stream of hot raw synthesis gas containing entrained particulate carbon from a partial oxidation gas generator. The continuous closed-cycle operation permits recovery and recycle of the water used for cooling and cleaning the stream of raw synthesis gas as well as the recovery and reuse of the liquid organic extractant. Clean dewatered and clean saturated streams of synthesis gas are simultaneously produced along with the by-product clean, dry carbon particles.

Abstract: Digester for producing organic material having a reaction chamber through which organic material is allowed to flow from an inlet opening to an outlet opening, having means for heating the organic material in the reaction chamber, and having means for collecting the fuel gas which is generated within the reaction chamber. The reaction chamber is located in a housing which has a continuous concrete wall within which is located a core of thermal insulating material to form a continuous insulating envelope around the reaction chamber.

Abstract: A partial oxidation process and control system for continuously producing synthesis gas, fuel gas or reducing gas in which one process fuel is replaced by a different fuel without shutting down or depressurizing the gas generator. This multifuel process is not tied to one particular fuel and reacts slurries of solid carbonaceous fuel and/or liquid or gaseous hydrocarbonaceous fuels. Suitable burners for introducing the feedstreams into the gas generator comprise a central conduit means radially spaced from a concentric coaxial outer conduit having a downstream exit nozzle, and providing a coaxial annular passage means therebetween. The central conduit means may be retracted upstream from the burner face a distance of about 0 to 12 and preferably 3 to 10 times the minimum diameter of the central exit orifice.

Abstract: Heavy hydrocarbon feedstocks, e.g. gas oils, are vaporized and subsequently gasified at high temperatures without pyrolytic degradation by first admixing the hydrocarbon with a hot gaseous reactant, e.g. product gas or steam, to bring the temperature of the mixture above that of the dew point of the hydrocarbon and thereafter raising the temperature of the mixture to above that at which pyrolysis of the hydrocarbon begins to be significant by admixture with further quantities of the reactant which are superheated thereby to bring the temperature of the resultant mixture to that required for effecting a catalytic gasification reaction.

Abstract: A burner and partial oxidation process for producing synthesis gas, fuel gas or reducing gas from slurries of solid carbonaceous fuel and/or liquid or gaseous hydrocarbon fuel. The burner has a high turndown feature and comprises a central conduit; a central bunch of parallel tubes that extend longitudinally through said central conduit; an outer conduit coaxial with said central conduit and forming an annular passage therewith; and an annular bunch of parallel tubes that extend longitudinally through said annular passage; and wherein the downstream ends of said central and annular bunches of parallel tubes are respectively retracted upstream from the burner face a distance of about 0 to 12 i.e. 3 to 10 times the minimum diameter of the central exit orifice and the minimum width of the annular exit orifice. Three ranges of flow through the burner may be obtained by using one or both bunches of tubes and their surrounding conduits.

Abstract: A method for reduction of sulfur oxides generated by a coal gasification process is disclosed wherein a regenerable sorbent absorbs the sulfur oxide in an oxidizing atmosphere and releases the sulfur oxides in the form of hydrogen sulfide in a reducing atmosphere.

Abstract: An apparatus is disclosed for feeding a continuous supply of carbonaceous material into a pressurized reactor for producing a product gas from the material and which contains toxic and flammable gases. The apparatus comprises a first rotary gas lock for receiving the material from ambient atmospheric condition. The first lock is supplied with a flow of nitrogen as a sealing gas to prevent air from entering the lock and the apparatus. The first lock transfers the material to a second rotary gas lock which in turn transfers the material to a screw conveyor for delivery to the interior of the reactor. The second lock is supplied with a flow of a clean product gas as a buffer gas. The clean product gas supplied to the second lock is at a pressure greater than the pressure in the reactor and prevents flow of gases from the reactor to the apparatus.

Abstract: A process for gas production and accelerated bioleaching of organic materials by acid forming bacteria in beds of organic solids, such as landfills, passing the leachate of hydrolysis and liquefaction products of microbial action of the microorganisms with the organic material to an acid phase digestion zone to regenerate an activated culture of acid forming microorganisms for recirculation to the bioleaching zone. The supernatant from the acid phase digestion zone may be passed to a methane phase digestion zone operated under conditions to produce methane rich gas. The supernatant from the methane phase digestion zone containing nutrients for the acid forming microorganisms and added sewage sludge or other desired nutrient materials may be circulated to the acid phase digestion zone or to the bioleaching zone. Low Btu gas is withdrawn from the acid phase digestion zone while high Btu gas is withdrawn from the methane phase digestion zone and may be upgraded for use in SNG.

Abstract: The hot gas cooler comprises a vertical cylindrical pressure vessel and, disposed axially thereof, an insert which is closed over its periphery and embodied by sealingly welded-together tubes. The tubes are part of the heated pressure system of a vapor generator. The chamber bounded by the insert communicates at the top, by way of a gas supply passage extending through the pressure vessel with a reaction chamber and at the bottom, by way of a discharge passage, with a slag removal facility. Extending around the insert is a jacket embodied by sealingly welded-together tubes, so that an annular chamber closed off from the casing of the pressure vessel extends around the insert. The annular chamber communicates at the bottom with the insert chamber. Disposed in the top part of annular chamber is a coolable gas discharge passage which is connected to the jacket and extends through the pressure vessel.

Abstract: A system for and method of recovering methane gas from liquid waste which is stored within a pit is disclosed herein. The methane gas is produced by causing the liquid waste to undergo anaerobic fermentation. Therefore, it is necessary to close the pit in an air tight fashion. This is carried out using a cover sheet which is fixedly disposed over the pit in an air tight but readily disengagable fashion. The liquid waste within this air tight pit is preferably agitated intermittently during its storage therein whereby to increase the amount of methane gas produced.