In order to decrease the solubility of PbSO4 and enhance lead recovery from PbSO4 bearing wastes, CO was employed as a reductant to transform PbSO4 into Pb S. Reaction system was established and reductive thermodynami...In order to decrease the solubility of PbSO4 and enhance lead recovery from PbSO4 bearing wastes, CO was employed as a reductant to transform PbSO4 into Pb S. Reaction system was established and reductive thermodynamics of PbSO4 was calculated by software HSC 5.0. The effects of gas concentration, reaction temperature, time and mass of sample on reduction of PbSO4 were examined by thermogravimetry(TG) and XRD. Roasting tests further verify the conclusions of thermodynamic and TG analyses. The results show that increasing temperature in the reasonable range and CO content are favorable for the formation of Pb S. The reduction process is controlled by chemical reaction and calculation value of the activation energy is 47.88 k J/mol.展开更多
The dissolved gas analysis is one of the most effective and convenient methods to diagnose the early discharge faults of transformers,the fault involves the solid insulation.oil—paper insulation cracks and releases c...The dissolved gas analysis is one of the most effective and convenient methods to diagnose the early discharge faults of transformers,the fault involves the solid insulation.oil—paper insulation cracks and releases carbon monoxide(co)gas.Therefore,the detection of CO can forecast the potentia1 inner faults of oil.filled transformers.展开更多
This study systematically investigated the effects of experimental conditions,crystal phase,and microstructure on the preparation of V_(2)O_(3)for vanadium flow batteries by reducing ammonium metavanadate extracted fr...This study systematically investigated the effects of experimental conditions,crystal phase,and microstructure on the preparation of V_(2)O_(3)for vanadium flow batteries by reducing ammonium metavanadate extracted from waste catalyst.The optimized experimental conditions were determined as follows:the CO reduction temperature was set at 575℃,the reduction time was 1 hour,the CO flow rate was 50 mL/min,and furnace cooling was performed subsequently.Under these conditions,the samples obtained were predominantly composed of single-phase V_(2)O_(3).Microstructural analysis reveals tightly packed grain configurations exhibiting flake-like or block-like morphologies.Significantly,the as-synthesized V_(2)O_(3)demonstrates sufficient purity for fabricating high-performance electrolytes in all-vanadium flow batteries,showing promising electrochemical applicability.展开更多
Exploring catalysts with high catalytic activity and low cost is crucial for promoting the electrocatalytic reduction of CO_(2).In this study,Ag nanoparticle catalysts were synthesized on GS carbon and vapor grown car...Exploring catalysts with high catalytic activity and low cost is crucial for promoting the electrocatalytic reduction of CO_(2).In this study,Ag nanoparticle catalysts were synthesized on GS carbon and vapor grown carbon fiber(VGCF)carbon carriers using different silver precursors(AgAc,AgNO_(3))through the ultrafast high temperature thermal shock method.The experimental results demonstrated that the performance of Ag catalysts for the electrocatalytic reduction of CO_(2) to CO could be significantly enhanced by modulating the nanostructure,carrier,and metal loading.The VGCF-AgNO_(3)-HT nanoparticles exhibited a relatively regular spherical morphology,with smaller particle sizes and uniform distribution.Furthermore,the intricate and overlapping arrangement of VGCF carbon nanofibers contributed to increasing the active area for electrochemical reactions,making it an excellent catalyst carrier.Catalysts with varying Ag loadings were prepared using the thermal shock method,and it was observed that the nanoparticles maintained their superior nanostructures even with increased Ag loading.The Ag-HT-65 catalyst exhibited outstanding catalytic performance,achieving a CO Faradaic efficiency of 93.03% at a potential of−0.8 V(vs.RHE).After 12 h of testing,the CO Faradaic efficiency remained 90%,exhibiting an excellent stability.展开更多
The effect of H_2 gas content on the reduction of Panzhihua titanomagnetite concentrate pellets by carbon monoxide was investigated by isothermal reduction experiment using CO-N_2-H_2 gas mixtures in a vertical electr...The effect of H_2 gas content on the reduction of Panzhihua titanomagnetite concentrate pellets by carbon monoxide was investigated by isothermal reduction experiment using CO-N_2-H_2 gas mixtures in a vertical electric resistance furnace.The morphology and phase transformation of reduced samples obtained were detected by scanning electron microscopy,energy disperse spectroscopy analysis and X-ray diffractometry respectively.The results show that increasing H_2 content will enhance the initial stage of reduction rate apparently.There are two reasons responsible for this effect,one is that H_2 accelerates the chemical reaction,and the other is that the addition of H_2 gas can improve the porosity of pellet intensively.It is noteworthy that this effect is more obvious when the reduction temperature reaches 1473 K with sticking phenomenon happening.There are no crystalline phases which can be found such as ulvospinle,ilmenite,ferrous-pseudobrookite and any titanium oxide except titanomagnetite(TTM).The reduction progress is suggested as follows:1) Fe_2O_3→Fe_3O_4→FeO→Fe;2) Fe_2TiO_5→Fe_2TiO_4+Fe_3O_4→TTM.Element Al migrates and gets enriched in high titanium content iron ores,and eventually Al to Ti molar ratio is 1:3.Al is likely to dissolve in titanium iron oxides to form a kind of composite iron compound,which results in the restrain of reduction.展开更多
基金Project(51204210)supported by the National Natural Science Foundation of ChinaProject(2011AA061001)supported by the National High Technology Research and Development Program of ChinaProject(2012BAC12B04)supported by the National Science and Technology Pillar Program during the Twelfth Five-Year Plan of China
文摘In order to decrease the solubility of PbSO4 and enhance lead recovery from PbSO4 bearing wastes, CO was employed as a reductant to transform PbSO4 into Pb S. Reaction system was established and reductive thermodynamics of PbSO4 was calculated by software HSC 5.0. The effects of gas concentration, reaction temperature, time and mass of sample on reduction of PbSO4 were examined by thermogravimetry(TG) and XRD. Roasting tests further verify the conclusions of thermodynamic and TG analyses. The results show that increasing temperature in the reasonable range and CO content are favorable for the formation of Pb S. The reduction process is controlled by chemical reaction and calculation value of the activation energy is 47.88 k J/mol.
文摘The dissolved gas analysis is one of the most effective and convenient methods to diagnose the early discharge faults of transformers,the fault involves the solid insulation.oil—paper insulation cracks and releases carbon monoxide(co)gas.Therefore,the detection of CO can forecast the potentia1 inner faults of oil.filled transformers.
文摘This study systematically investigated the effects of experimental conditions,crystal phase,and microstructure on the preparation of V_(2)O_(3)for vanadium flow batteries by reducing ammonium metavanadate extracted from waste catalyst.The optimized experimental conditions were determined as follows:the CO reduction temperature was set at 575℃,the reduction time was 1 hour,the CO flow rate was 50 mL/min,and furnace cooling was performed subsequently.Under these conditions,the samples obtained were predominantly composed of single-phase V_(2)O_(3).Microstructural analysis reveals tightly packed grain configurations exhibiting flake-like or block-like morphologies.Significantly,the as-synthesized V_(2)O_(3)demonstrates sufficient purity for fabricating high-performance electrolytes in all-vanadium flow batteries,showing promising electrochemical applicability.
基金Project(52304338)supported by the National Natural Science Foundation of China。
文摘Exploring catalysts with high catalytic activity and low cost is crucial for promoting the electrocatalytic reduction of CO_(2).In this study,Ag nanoparticle catalysts were synthesized on GS carbon and vapor grown carbon fiber(VGCF)carbon carriers using different silver precursors(AgAc,AgNO_(3))through the ultrafast high temperature thermal shock method.The experimental results demonstrated that the performance of Ag catalysts for the electrocatalytic reduction of CO_(2) to CO could be significantly enhanced by modulating the nanostructure,carrier,and metal loading.The VGCF-AgNO_(3)-HT nanoparticles exhibited a relatively regular spherical morphology,with smaller particle sizes and uniform distribution.Furthermore,the intricate and overlapping arrangement of VGCF carbon nanofibers contributed to increasing the active area for electrochemical reactions,making it an excellent catalyst carrier.Catalysts with varying Ag loadings were prepared using the thermal shock method,and it was observed that the nanoparticles maintained their superior nanostructures even with increased Ag loading.The Ag-HT-65 catalyst exhibited outstanding catalytic performance,achieving a CO Faradaic efficiency of 93.03% at a potential of−0.8 V(vs.RHE).After 12 h of testing,the CO Faradaic efficiency remained 90%,exhibiting an excellent stability.
基金Project (51134008) supported by the National Natural Science Foundation of ChinaProject (2012CB720401) supported by the National Basic Research Program of China
文摘The effect of H_2 gas content on the reduction of Panzhihua titanomagnetite concentrate pellets by carbon monoxide was investigated by isothermal reduction experiment using CO-N_2-H_2 gas mixtures in a vertical electric resistance furnace.The morphology and phase transformation of reduced samples obtained were detected by scanning electron microscopy,energy disperse spectroscopy analysis and X-ray diffractometry respectively.The results show that increasing H_2 content will enhance the initial stage of reduction rate apparently.There are two reasons responsible for this effect,one is that H_2 accelerates the chemical reaction,and the other is that the addition of H_2 gas can improve the porosity of pellet intensively.It is noteworthy that this effect is more obvious when the reduction temperature reaches 1473 K with sticking phenomenon happening.There are no crystalline phases which can be found such as ulvospinle,ilmenite,ferrous-pseudobrookite and any titanium oxide except titanomagnetite(TTM).The reduction progress is suggested as follows:1) Fe_2O_3→Fe_3O_4→FeO→Fe;2) Fe_2TiO_5→Fe_2TiO_4+Fe_3O_4→TTM.Element Al migrates and gets enriched in high titanium content iron ores,and eventually Al to Ti molar ratio is 1:3.Al is likely to dissolve in titanium iron oxides to form a kind of composite iron compound,which results in the restrain of reduction.
