Abstract: A process for obtaining oil, gas, sulfur and other products from shale whereby there is effected drying, pyrolysis, gasification, combustion and cooling of pyrobituminous shale or similar rocks in a single passage of said shale continuously in a moving bed, the charge and discharge of the shale being intermittent and wherein the maximum temperature of the bed is maintained in the range of about 1050.degree. C to 1200.degree. C (1900.degree. F to 2200.degree. F) or higher. The shale is essentially completely freed from the organic matter, fixed carbon and sulfur, resulting in a clean solid residue which can be disposed of without harming the ecology.

Abstract: Coke is produced with high yield and low sulfur by heating and drying ground coking coal at 200.degree. to 300.degree. C. for 15 to 120 minutes in air, and then heating in three semicoking stages in fluidized bed reactors. The first semicoking stage is 300.degree. to 470.degree. C. for 10 to 20 minutes; the second is 400.degree. to 600.degree. C. for 10 to 20 minutes; while the third is 800.degree. to 1100.degree. C. for 10 to 20 minutes. Tar is condensed from the offgases of the first two semicoking stages and the residual gas from each is divided and 60 to 80% recycled as fluidizing gas to the same semicoking reactor. 10 to 20% of the offgases from the third semicoking stage is recycled to the third stage as fluidizing gas. In addition, oxygen is used as make-up fluidizing gas in each of the three stages, in the amount of 10 to 30 liters per kilogram of dry coal in the first stage, 5 to 20 liters per kilogram of dry coal in the second stage, and 40 to 100 liters per kilogram of dry coal in the third stage.

Abstract: An improved method of manufacturing activated carbon from dried, bituminous, subbituminous, and lignite coal by sizing and simultaneously drying and oxidizing, and thereafter activating the sized coal, wherein the improvement comprises acid washing the coal prior to carrying out the said manufacturing method.

Abstract: An improved two-step fluid bed process for conditioning sized, agglomerative, high volatile bituminous coal is disclosed. The agglomerative bituminous coal is first crushed and sized for fluidization. A first treatment is conducted under oxidizing conditions at below the fusion temperature of the coal, preferably at about 600.degree. F., followed immediately by a second treatment under a non-oxidizing or inert atmosphere at preferably 800.degree. F. .+-.50.degree. F. The resulting oxidized and heat treated coal particles have a volatile content of at least 15% and are thereby rendered non-agglomerative when thereafter subjected to even higher temperatures, e.g., when making activated carbon and/or synthesis gas.

Abstract: In the production of reactive form coke of the sort described in Work et al., U.S. Pat. Nos. 3,140,241, 3,140,242 and 3,184,293, where a low-temperature reactive coal calcinate is mixed with a binder and formed into shapes which are cured in an oxygen-containing atmosphere and then calcined, the use of high-temperature coke oven pitch as binder for the briquettes is made possible by adding to the calcinate, before mixing with the binder, at least about 3.0% by weight of water based on the weight of calcinate.

Abstract: Coal particles are heated and further particulized at a preheat stage employing a preheat gas. Some of the finer coal particles are puffed up by the preheating step. Most of the preheated coal particles are separated from the preheat gas, but some of the finer coal particles remain with the preheat gas. The coal particles separated from the preheat gas are oiled and eventually transported by a carrier gas through a pipeline into a coke oven. The preheat gas and the finer coal particles remaining therewith are separated from each other utilizing a wet scrubber at which the finer coal particles undergo flocculation. Oil vapor vented from the coal particles headed for the coke oven is directed to the wet scrubber to aid in the flocculating step. The flocculated coal particles are separated from the scrubber liquid in a flotation cell. The overflow from the flotation cell is filtered, and the filter cake comprising coal particles is employed as a fuel.

Abstract: Fluidized bed technique for oxidizing normally agglomerative bituminous coal is disclosed. One high rank bituminous coal is prepared for activation by grinding, briquetting and crushing to the 3/4 inch to 4 mesh size. Thereafter, the coal particles are fluidized in an oxygen containing atmosphere at from about 400.degree.F. to 700.degree.F. Water is preferably added during oxidation, controlling the oxidation temperature. In this manner, coal particles are rendered non-agglomerative which, when thereafter subjected to carbonization and activation, yields superior activated carbon.