초록 ▼

Process and apparatus for extraction of oil and hydrocarbons from crushed hydrocarbonaceous solids, such as oil shale, involving the pyrolyzing of the crushed solids with liquid hydrocarbon and syn gas rich in hydrogen and carbon dioxide. Crushed hydrocarbonaceous solids are treated with liquid hydr

Process and apparatus for extraction of oil and hydrocarbons from crushed hydrocarbonaceous solids, such as oil shale, involving the pyrolyzing of the crushed solids with liquid hydrocarbon and syn gas rich in hydrogen and carbon dioxide. Crushed hydrocarbonaceous solids are treated with liquid hydrocarbon and hot syn gas at an elevated temperature in a rotary kiln where the crushed solids are cascaded into the hot syn gas for sufficient time to strip the volatile liquids and gases found in the solids, removing the vaporized liquids, enriched syn gas and spent crushed solids from the kiln, fractionating the vaporized liquids and enriched syn gas into the desired fractions. The enriched syn gas is particularly suited for use in combined-cycle electricity generation and in the preparation of various by-products. The process efficiently recycles heat and energy to reduce harmful atmospheric emissions and reliance on external energy sources.

대표청구항 ▼

Process and apparatus for extraction of oil and hydrocarbons from crushed hydrocarbonaceous solids, such as oil shale, involving the pyrolyzing of the crushed solids with liquid hydrocarbon and syn gas rich in hydrogen and carbon dioxide. Crushed hydrocarbonaceous solids are treated with liquid hydr

Process and apparatus for extraction of oil and hydrocarbons from crushed hydrocarbonaceous solids, such as oil shale, involving the pyrolyzing of the crushed solids with liquid hydrocarbon and syn gas rich in hydrogen and carbon dioxide. Crushed hydrocarbonaceous solids are treated with liquid hydrocarbon and hot syn gas at an elevated temperature in a rotary kiln where the crushed solids are cascaded into the hot syn gas for sufficient time to strip the volatile liquids and gases found in the solids, removing the vaporized liquids, enriched syn gas and spent crushed solids from the kiln, fractionating the vaporized liquids and enriched syn gas into the desired fractions. The enriched syn gas is particularly suited for use in combined-cycle electricity generation and in the preparation of various by-products. The process efficiently recycles heat and energy to reduce harmful atmospheric emissions and reliance on external energy sources. uid hydrocarbon is crude oil. 8. The method of claim 7, wherein the crushed hydrocarbonaceous solids is oil shale. 9. The method of claim 8, wherein the crude oil is introduced into the kiln at a rate of between about 30 and 50 gallons of crude oil per ton of crushed oil shale. 10. The method of claim 7, wherein the crushed hydrocarbonaceous solids are tar sands. 11. The method of claim 10, wherein the crude oil is introduced into the kiln at a rate of between about 20 and 25 gallons of crude oil per ton of crushed tar sands. 12. The method of claim 1, wherein the hot syn gas containing hydrogen is obtained from coal gasification. 13. The method of claim 1, further comprising the step of producing electricity in a combined cycle comprising: (a) recovering the enriched syn gas for use as a fuel gas; (b) combusting the fuel gas to produce a first heated gas which is directed to a gas turbine which is operatively connected to a first generator wherein the first heated gas is reduced in pressure through the gas turbine to produce a second heated gas; and (c) using the second heated gas to produce steam which is directed to a steam turbine which is operatively connected to a second generator. 14. The method of claim 1, further comprising the step of using the spent solids as cement feed after removing said spent solids from the kiln. 15. A process for thermal extraction of oil shale using hot syn gas containing hydrogen and carbon monoxide obtained from the gasification of coal which comprises: (a) introducing crushed coal into a gasifier where it is reacted with oxygen and steam which yields a hot syn gas containing between 25% and 60% by weight hydrogen and between about 10% and 20% by weight carbon dioxide at a temperature of about 3000° F. to 3600° F.; (b) removing the hot syn gas and cooling it to a temperature between about 1000° F. and 2500° F.; (c) introducing liquid hydrocarbons and the cooled syn gas into a substantially horizontal rotary kiln sloping downward at an angle of between about 3 and 5 degrees where it is mixed, in the absence of water, with crushed oil shale which has been preheated to a temperature between 100° F. and 350° F., is introduced at an upper end of the sloped kiln, wherein the pressure inside the rotary kiln is below 15 psi and wherein the liquid hydrocarbon is sprayed into the kiln; (d) maintaining the mixture in the rotary kiln for sufficient time to strip hydrocarbons from the oil shale leaving spent solids, producing an enriched syn gas and volatilized hydrocarbon material, (e) removing the volatilized hydrocarbon material, enriched gas and hot spent solids from the kiln; (f) disposing of the hot spent solids; and (g) taking the volatilized hydrocarbon material and enriched gas to a fractionator where the material is separated into desired fractions. 16. The method of claim 15, wherein the oil shale is a Green River oil shale containing from 5% to 25% by weight of hydrocarbonaceous material. 17. The method of claim 15, wherein the oil shale is crushed into particles below about 3/4 inch in size. 18. The method of claim 15, wherein the kiln is rotated at a rate of 1 to 10 rpm and the residence time is between 10 and 20 minutes. 19. The method of claim 15, wherein the volatilized hydrocarbon materials taken from the kiln comprises 5 to 10% enriched gas, 60 to 85% volatilized materials and 1 to 10% coke. 20. The method of claim 15, wherein the fractions include gasoline, kerosene, gas oil, heavy gas oil and vacuum oil. 21. The method of claim 15, wherein the enriched gas taken from the fractionator is passed through a catalytic converter to form methanol. 22. The method of claim 15, wherein the enriched gas taken from the fractionator is combined with nitrogen from the coal gasification process to produce liquid ammonia. 23. The method of claim 22, wherein the ammonia is further reacted with carbon dioxide to produce urea.