Ni/CeO_(2) catalysts(nCeO_(2):n_(Ni)=0,1,4,7,10)supported on SiC porous ce ramics for ethanol steam reforming(ESR)were investigated with respect to hydrogen production performance and growth of carbon deposition.The o...Ni/CeO_(2) catalysts(nCeO_(2):n_(Ni)=0,1,4,7,10)supported on SiC porous ce ramics for ethanol steam reforming(ESR)were investigated with respect to hydrogen production performance and growth of carbon deposition.The oxygen released from CeO_(2) enables the oxidation of CH_(x) species to serve as carbon precursors,thus providing Ni/CeO_(2) catalysts with stronger resistance to carbon deposition compared with Ni catalysts.The Ni/CeO_(2) catalysts prepared by inverse microemulsion and impregnation methods exhibit regular semicircular spherical shape on SiC porous ceramics.Under 500℃for 25 h of ESR reaction,the ethanol conversion rate over Ni/CeO_(2) catalysts(n_(CeO_(2)):n_(Ni)=7)is sustained up to 100%and H_(2) selectivity is essentially kept at 74%.The by-product selectivity declines stepwise with increasing content of CeO_(2),which is attributed to the adsorption and oxidation of CO and of CH_(x) species as CH_4 precursor from CeO_(2).The scanning electron microscopy(SEM)and transform electron microscopy(TEM)results reveal that further loading of CeO_(2) on the surface of Ni catalysts can alleviate both migration and sintering of Ni particles.Furthermore,carbon deposition on Ni/CeO_(2) catalysts preferentially outgrow filamentous rather than amorphous carbon,with a tendency for the latter to be more deactivated.展开更多
Since micro-sources are mostly interfaced to microgrid by power inverters,this paper gives an insight of the control methods of the micro-source inverters by reviewing some recent documents.Firstly,the basic principle...Since micro-sources are mostly interfaced to microgrid by power inverters,this paper gives an insight of the control methods of the micro-source inverters by reviewing some recent documents.Firstly,the basic principles of different inverter control methods are illustrated by analyzing the electrical circuits and control loops.Then,the main problems and some typical improved schemes of theωU-droop grid-supporting inverter are presented.In results and discussion part,the comparison of different kinds of inverters is presented and some notable research points is discussed.It is concluded that the most promising control method should be theωU-droop control,and it is meaningful to study the performance improvement methods under realistic operation conditions in the future work.展开更多
基金Project supported by the Natural Science Foundation of Hunan Province,China (2022JJ30133)。
文摘Ni/CeO_(2) catalysts(nCeO_(2):n_(Ni)=0,1,4,7,10)supported on SiC porous ce ramics for ethanol steam reforming(ESR)were investigated with respect to hydrogen production performance and growth of carbon deposition.The oxygen released from CeO_(2) enables the oxidation of CH_(x) species to serve as carbon precursors,thus providing Ni/CeO_(2) catalysts with stronger resistance to carbon deposition compared with Ni catalysts.The Ni/CeO_(2) catalysts prepared by inverse microemulsion and impregnation methods exhibit regular semicircular spherical shape on SiC porous ceramics.Under 500℃for 25 h of ESR reaction,the ethanol conversion rate over Ni/CeO_(2) catalysts(n_(CeO_(2)):n_(Ni)=7)is sustained up to 100%and H_(2) selectivity is essentially kept at 74%.The by-product selectivity declines stepwise with increasing content of CeO_(2),which is attributed to the adsorption and oxidation of CO and of CH_(x) species as CH_4 precursor from CeO_(2).The scanning electron microscopy(SEM)and transform electron microscopy(TEM)results reveal that further loading of CeO_(2) on the surface of Ni catalysts can alleviate both migration and sintering of Ni particles.Furthermore,carbon deposition on Ni/CeO_(2) catalysts preferentially outgrow filamentous rather than amorphous carbon,with a tendency for the latter to be more deactivated.
基金supported in part by Nation Natural Science Foundation of China(51407128)the key technologies research project on distribution network reconfiguration of State Grid Hunan Electric Power Company(5216A1300JV).
文摘Since micro-sources are mostly interfaced to microgrid by power inverters,this paper gives an insight of the control methods of the micro-source inverters by reviewing some recent documents.Firstly,the basic principles of different inverter control methods are illustrated by analyzing the electrical circuits and control loops.Then,the main problems and some typical improved schemes of theωU-droop grid-supporting inverter are presented.In results and discussion part,the comparison of different kinds of inverters is presented and some notable research points is discussed.It is concluded that the most promising control method should be theωU-droop control,and it is meaningful to study the performance improvement methods under realistic operation conditions in the future work.