Method for heating oil shale subsurface in-situ

The invention claimed is: 1. A method for heating oil shale subsurface in-situ, which comprises: drilling at least two wells downwardly from a ground surface until depths of the at least two wells reach working areas of an underground oil shale seam; putting an electrode in each of the at least two wells; firstly applying an alternating current voltage having a magnitude selected to cause a partial electric discharge to the electrodes, thus forming plasma channels resulting from an electrothermal breakdown in the oil shale seam; after the plasma channels from the electrothermal breakdown are formed, conducting electrical current into the plasma channels in the oil shale seam through the electrodes in two of the at least two wells, after resistance between the electrodes in the two of the at least two wells is reduced; wherein the conducting comprises applying a direct current or an alternating current between the electrodes in the two of the at least two wells having a current magnitude selected to cause resistance heating of the oil shale seam through a resistance heating function of the plasma channels; and realizing pyrolysis and gasification of organic carbon in the oil shale seam by the heating. 2. The method for heating oil shale subsurface in-situ as claimed in claim 1 , characterized in that the applying an alternating current voltage comprises applying a 1-10 kV alternating current voltage per meter of distance between the electrodes to lead to the partial electric discharge; and the heating, after the plasma channels from the electrothermal breakdown are formed, comprises applying a voltage in a range of 10-100 V per meter of distance between the electrodes and current in a range of 10-100 A. 3. A method for heating a coal mine seam subsurface in-situ, which comprises: drilling at least two wells downwardly from a ground surface until depths of the at least two wells reach working areas of an underground coal mine seam; putting an electrode in each of the at least two wells; firstly applying an alternating current voltage having a magnitude selected to cause a partial electric discharge to the electrodes, thus forming plasma channels resulting from an electrothermal breakdown in the coal mine seam; after the plasma channels from the electrothermal breakdown are formed, conducting electrical current into the plasma channels in the coal mine seam through the electrodes in two of the at least two wells, after a resistance between the electrodes in the two of the at least two wells is reduced; wherein the conducting comprises applying a direct current or an alternating current between the electrodes in the two of the at least two wells having a current magnitude selected to cause resistance heating of the coal mine seam through a resistance heating function of the plasma channels; and realizing pyrolysis and gasification of organic carbon in the coal mine seam by the heating. 4. The method for heating a coal mine seam subsurface in-situ as claimed in claim 3 , characterized in that the applying an alternating current voltage comprises applying a 1-10 kV alternating current voltage per meter of distance between the electrodes to lead to the partial electric discharge; and the heating, after the plasma channels from the electrothermal breakdown are formed, comprises applying a voltage in a range of 10-100 V per meter of distance between the electrodes and current in a range of 10-100 A.