IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0562259
(1983-12-16)
|
발명자
/ 주소 |
- Schlinger Warren G. (Pasadena CA)
|
출원인 / 주소 |
- Texaco Inc. (White Plains NY 02)
|
인용정보 |
피인용 횟수 :
30 인용 특허 :
4 |
초록
▼
A high turndown de-slagging burner is provided for simultaneously introducing one or two mixed pairs of reactant feedstreams into a free-flow noncatalytic partial oxidation gas generator for the production of synthesis gas, fuel gas, or reducing gas by way of the central and/or annular sections of t
A high turndown de-slagging burner is provided for simultaneously introducing one or two mixed pairs of reactant feedstreams into a free-flow noncatalytic partial oxidation gas generator for the production of synthesis gas, fuel gas, or reducing gas by way of the central and/or annular sections of the burner, respectively. Each pair of feedstreams comprises a stream of free-oxygen containing gas with or without a temperature moderator and a pumpable liquid slurry stream of solid carbonaceous fuel, such as a coal-water slurry. Other hydrocarbonaceous fuels may be employed. The burner comprises four coaxial concentric conduits that are radially spaced to provide coaxial concentric annular passages. All of the conduits and annular passages are closed at the upstream ends and open at the downstream ends. Each pair of feedstreams is separately mixed together in a central or annular pre-mix chamber located upstream from the face of the burner. A water-cooled flat face-plate is provided with separate passages for discharging air or soot-blowing or de-slagging media at the face of the burner.
대표청구항
▼
In a continuous process for the manufacture of gas mixtures comprising H2, CO, CO2 and at least one material from the group H2O, N2, A, CH4, H2S and COS by the partial oxidation of a feedstream comprising a pumpable slurry of solid carbonaceous fuel in a liquid carrier and a feedstream of free-oxyge
In a continuous process for the manufacture of gas mixtures comprising H2, CO, CO2 and at least one material from the group H2O, N2, A, CH4, H2S and COS by the partial oxidation of a feedstream comprising a pumpable slurry of solid carbonaceous fuel in a liquid carrier and a feedstream of free-oxygen containing gas optionally in admixture with a temperature moderator, said partial oxidation occuring in the reaction zone of a free-flow gas generator at an autogenous temperature in the range of about 1700°to 3500°F., and a pressure in the range of about 5 to 250 atmospheres, the improvement which comprises: (1) passing a first stream of a first reactant feedstream comprising a slurry of solid carbonaceous fuel in a liquid carrier in liquid phase at a temperature in the range of about ambient to 500°F., a pressure in the range of about 5 to 250 atmospheres, and a velocity in the range of about 1 to 50 ft. per second through either the central or first annular passage of a burner and into a central pre-mix chamber in said burner, wherein said burner comprises a central conduit having a central longitudinal axis that is coaxial with the central longitudinal axis of the burner, closing means attached to the upstream end of said central conduit for closing off same; an unobstructed exit nozzle at the downstream end of the central conduit which discharges through circular exit orifice located upstream from the face of the burner to provide a central pre-mix chamber that discharges through an unobstructed circular exit orifice at the face of the burner, inlet means connected to the upstream end of the central conduit for introducing a reactant feedstream; a second conduit coaxial and concentric with said central conduit along its length, an unobstructed exit nozzle at the downstream end of the second conduit which discharges through the circular orifice of said central pre-mix chamber at the face of the burner, spacing means between said central and second conduits for maintaining a spaced relationship and forming therebetween an unobstructed first annular passage with an unobstructed downstream annular exit orifice that discharges into the central pre-mix chamber, closing means attached to said second conduit and first annular passage at their upstream ends for closing off same, said central conduit passing through the upstream closed end of said second conduit and making a gastight seal therewith, and inlet means connected to the upstream end of the second conduit for introducing a reactant feedstream; a third conduit coaxial and concentric with said second conduit along its length, spacing means between said second and third conduits for maintaining a spaced relationship and forming therebetween an unobstructed second annular passage with an unobstructed downstream annular exit orifice located upstream from the face of the burner to provide a portion of an annular pre-mix chamber that discharges through an unobstructed annular exit orifice at the face of the burner, closing means attached to the second annular passage and third conduit at their upstream ends for closing off same, said second conduit passing through the upstream closed end of the third conduit and making a gastight seal therewith, and inlet means connected to the upstream end of the third conduit for introducing a reactant reactant feedstream; an outer conduit coaxial and concentric with said third conduit along its length, an unobstructed exit nozzle at the downstream end of the outer conduit which discharges through said annular exit orifice at the face of the burner, spacing means between said third and outer conduits for maintaining a spaced relationship and forming therebetween an unobstructed third annular passage with an unobstructed downstream annular exit orifice located upstream from the face of the burner that discharges into the remaining portion of said annular pre-mix chamber, closing means attached to the third annular passage and outer conduit at their upstream ends for closing off same, said third conduit passing through the upstream closed end of the outer conduit and making a gastight seal therewith, and inlet means connected to the upstream end of the outer conduit for introducing a reactant feedstream; an annular water-cooled flat face-plate encircling the downstream end of the burner, said face-plate being cored to provide an annular passage for circulating water and an annular header for distributing a gaseous material, passage means extending longitudinally in the wall of said outer conduit and in communication with said distribution header, inlet means in communication with the upstream end of said longitudinal passage means for introducing said gaseous material, and downstream passage means in communication with said distribution header for discharging said gaseous material at the face of the burner; (2) simultaneously and concurrently passing a second reactant feedstream comprising a free-oxygen containing gas optionally in admixture with steam through either the central conduit or the first annular passage whichever is free at a temperature in the range of about ambient to 1500°F., a pressure in the range of about 5 to 250 atmosphere, and a velocity in the range of about 100 feet per second to sonic velocity; (3) mixing together said first and second reactant feedstreams from (1) and (2) in said central pre-mix chamber and vaporizing about 0 to 100 volume % of said liquid carrier to produce a multiphase mixture at a temperature below its autoignition temperature and in which the ratio of the atoms of free-oxygen plus atoms of organically combined oxygen in the solid carbonaceous fuel per atom of carbon in the solid carbonaceous fuel (O/C atomic ratio) is in the range of 0.5 to 1.95; and the H2O/fuel weight ratio of lbs. of H2O per lb. of solid carbonaceous fuel plus liquid hydrocarbonaceous material, if any, is in the range of about 0.1 to 3.0; (4) simultaneously and concurrently passing a second stream of said first reactant feedstream at substantially the same temperature, pressure, and velocity as specified in (1), through either the second or third annular passage of the burner and into the annular pre-mix chamber in the burner; (5) simultaneously and concurrently passing a second stream of said second reactant feedstream at substantially the same temperature, pressure and velocity as specified in (2) through either the second or third annular passage of the burner whichever is free and into said annular pre-mix chamber; (6) mixing together said first and second reactant feedstreams from (4) and (5) in said annular pre-mix chamber and vaporizing about 0 to 100 volume % of said liquid carrier to produce a multiphase mixture at a temperature below its autoignition temperature and having substantially the same O/C atomic ratio and H2O/fuel weight ratio as specified in (3); (7) discharging the multiphase mixtures produced in the pre-mix chambers in (3) and (6) from the burner; and (8) mixing together and reacting by partial oxidation the multiphase mixtures from (7) in the reaction zone of the gas generator.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.