孙可平
电磁兼容与静电防护技术
个性化签名
- 姓名:孙可平
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学术头衔:
博士生导师
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学科领域:
微波技术
- 研究兴趣:电磁兼容与静电防护技术
孙可平教授,男,1945年出生,籍贯为河南省商丘市,博士生导师,国务院政府特殊津贴获得者。上海海事大学应用物理研究所所长,基础研究实验中心主任。研究方向为电磁兼容与静电防护技术。
孙可平教授20几年来共承担省部级重点科研项目多项。其中“柱型粉体料仓电场分布及静电安全技术评价”获上海市2002度科技进步二等奖;“船-岸安全连接新技术研究”获上海市2004年度科技进步3等奖;另有1项获交通部科技进步3等奖(1999年),1项获上海市优秀发明二等奖(2005年),2项获上海市科 技博览二等奖和优秀奖(1994年);1篇论文获交通部建国50周年优秀论文奖。累计在国内外发表研究论文30余篇,其中29篇被3大国际权威检索系统SCI、EI、ISTP检索;公开出版科技研究专著“电磁兼容性与抗干扰技术”“工业静电”、“船舶静电安全技术”等8部。已获得国家专利局发明专利1项(专利号:ZL 02 1 45325.X),另1项获得实用新型专利(专利号:ZL02 2 60941.5)。
孙可平教授不仅是上海的知名教授,也是我国静电学术界著名的专家。已连续几届担任中国物理学会静电专业委员会副主任兼秘书长。上海市物理学会静电专业委员会主任。
孙可平教授还担任静电专业国际权威杂志Journal of Electrostatics十人编委会委员,也是中国大陆、香港、台湾大中华区唯一一名中国编委。不仅促进了中国的相关研究成果走向世界,也为提高中国静电领域的国际学术地位作出了贡献。
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【期刊论文】BACK CORONA TEST MODEL IN DEPOSITED DUST LAYER IN PRECIPITATOR
孙可平, Sun Keping, Liu Quanzhen
,-0001,():
-1年11月30日
Back corona in deposited dust layer of collecting electrode in precipitation,which decreases flash-over voltage,as well as increases working space current,not only makes dust-collecting efficiency reduced obviously,but also influences steady operation of static dust precipitator tremendously.Back corona becomes one of the obstacles baffling dust-collecting stable operation.Starting from resistance-capacitance model,this paper tried to present instantaneous voltage equation in surface of dust layer.Also starting from increasing process of dust layer,this paper gave charge density instantaneous equation in dust layer and discussed the influence factors to back corona.
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孙可平, Keping Sun, Quanzhen Liu, Xuewen Li
,-0001,():
-1年11月30日
Explosion accidents on oil tank take place for two times last three year in China.The simulation test on charge density and surface potential during filling gasoline into a tank has been conducted.The volume-averaged charge density was found to rise to a maximum about 20 minutes after the pump was started and then began to decrease.The experimental dada correlate well with a simple predictive model under the assumption of uniform volume charge density and ohmic conduction.The surface potential rose steadily for about 30minutes and then decreased during filling operation.The maximum of surface potential sharply increased when the filling rate rose.
oil electrostatics, liquid electrostatics, petroleum safety, electrostatic safety technology
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