Difficulties with soft coal seams having a high gas content and high stress levels can be addressed by a technology of pressure relief and permeability increase.Slotting the seam by auxiliary drilling with a water jet...Difficulties with soft coal seams having a high gas content and high stress levels can be addressed by a technology of pressure relief and permeability increase.Slotting the seam by auxiliary drilling with a water jet that breaks the coal and slots the coal seam during the process of retreat drilling achieves pressure relief and permeability increase.Improved efficiency of gas extraction from a field test,high gas coal seam was observed.Investigating the theory of pressure relief and permeability increase required analyzing the characteristics of the double power slotting process and the effects of coal pressure relief and permeability increase.The influence of confining pressure on coal physical properties was examined by using FLAC3D software code to simulate changes of coal stress within the tool destruction area.The double power joint drilling method was modeled.Field experiments were performed and the effects are analyzed.This research shows that there is an ''islanding effect'' in front of the joint double power drill and slotting equipment.The failure strength of the coal seam is substantially reduced within the tool destruction area.Drilling depths are increased by 72% and the diameter of the borehole is increased by 30%.The amount of powdered coal extracted from the drill head increases by 17 times when using the new method.A 30 day total flow measurement from the double power drilled and slotted bores showed that gas extraction increased by 1.3 times compared to the standard drilled bores.Gas concentrations increased from 30% to 60% and were more stable so the overall extraction efficiency increased by a factor of two times.展开更多
Amavadin is a natural vanadium compound that accumulates to high level in poisonous Amanita mushrooms. Recently, amavadin was found to have potential therapeutic effect in cancer treatment. However, its toxicity and t...Amavadin is a natural vanadium compound that accumulates to high level in poisonous Amanita mushrooms. Recently, amavadin was found to have potential therapeutic effect in cancer treatment. However, its toxicity and the possible mechanism of actions are still not clear. In this study, we investigated the toxic effects of amavadin on rat kidney mitochondria and the possible mechanism. We found that amavadin induced significantly permeability transition pore (PTP) opening in the mitochondria. Amavadin y inhibited the generation of reactive oxygen species (ROS) in succinate buffer, and at high concentration of 200 gM it increased the ROS generation in malate buffer. With the addition of rotenone, the ROS generation in malate buffer was strongly enhanced than that induced by amavadin alone, but remained unchanged in succinate buffer. Results from the present study suggest that amavadin act upon electron transport chain downstream of rotenone, and the ubiquinone binding site in complex I is the most possible binding site.展开更多
基金supports provided by the National Key Basic Research and Development Program of China (No. 2011CB201205)the National Natural Science Foundation of China (No. 51074161)the Independent research of State Key Laboratory of Coal Resources and Mine Safety of China University of Mining & Technology (No. SKLCRSM08X03)
文摘Difficulties with soft coal seams having a high gas content and high stress levels can be addressed by a technology of pressure relief and permeability increase.Slotting the seam by auxiliary drilling with a water jet that breaks the coal and slots the coal seam during the process of retreat drilling achieves pressure relief and permeability increase.Improved efficiency of gas extraction from a field test,high gas coal seam was observed.Investigating the theory of pressure relief and permeability increase required analyzing the characteristics of the double power slotting process and the effects of coal pressure relief and permeability increase.The influence of confining pressure on coal physical properties was examined by using FLAC3D software code to simulate changes of coal stress within the tool destruction area.The double power joint drilling method was modeled.Field experiments were performed and the effects are analyzed.This research shows that there is an ''islanding effect'' in front of the joint double power drill and slotting equipment.The failure strength of the coal seam is substantially reduced within the tool destruction area.Drilling depths are increased by 72% and the diameter of the borehole is increased by 30%.The amount of powdered coal extracted from the drill head increases by 17 times when using the new method.A 30 day total flow measurement from the double power drilled and slotted bores showed that gas extraction increased by 1.3 times compared to the standard drilled bores.Gas concentrations increased from 30% to 60% and were more stable so the overall extraction efficiency increased by a factor of two times.
基金supported by the Innovative Experiment Project of Peking University Health Science Center, 2012
文摘Amavadin is a natural vanadium compound that accumulates to high level in poisonous Amanita mushrooms. Recently, amavadin was found to have potential therapeutic effect in cancer treatment. However, its toxicity and the possible mechanism of actions are still not clear. In this study, we investigated the toxic effects of amavadin on rat kidney mitochondria and the possible mechanism. We found that amavadin induced significantly permeability transition pore (PTP) opening in the mitochondria. Amavadin y inhibited the generation of reactive oxygen species (ROS) in succinate buffer, and at high concentration of 200 gM it increased the ROS generation in malate buffer. With the addition of rotenone, the ROS generation in malate buffer was strongly enhanced than that induced by amavadin alone, but remained unchanged in succinate buffer. Results from the present study suggest that amavadin act upon electron transport chain downstream of rotenone, and the ubiquinone binding site in complex I is the most possible binding site.
