The N-1 criterion is a critical factor for ensuring the reliable and resilient operation of electric power distribution networks.However,the increasing complexity of distribution networks and the associated growth in ...The N-1 criterion is a critical factor for ensuring the reliable and resilient operation of electric power distribution networks.However,the increasing complexity of distribution networks and the associated growth in data size have created a significant challenge for distribution network planners.To address this issue,we propose a fast N-1 verification procedure for urban distribution networks that combines CIM file data analysis with MILP-based mathematical modeling.Our proposed method leverages the principles of CIM file analysis for distribution network N-1 analysis.We develop a mathematical model of distribution networks based on CIM data and transfer it into MILP.We also take into account the characteristics of medium voltage distribution networks after a line failure and select the feeder section at the exit of each substation with a high load rate to improve the efficiency of N-1 analysis.We validate our approach through a series of case studies and demonstrate its scalability and superiority over traditional N-1 analysis and heuristic optimization algorithms.By enabling online N-1 analysis,our approach significantly improves the work efficiency of distribution network planners.In summary,our proposed method provides a valuable tool for distribution network planners to enhance the accuracy and efficiency of their N-1 analyses.By leveraging the advantages of CIM file data analysis and MILP-based mathematical modeling,our approach contributes to the development of more resilient and reliable electric power distribution networks.展开更多
A novel Eu^(2+)-Eu^(3+)co-activated ratiometric thermo-sensitive phosphor was developed and synthesized by solid-state reaction.The valence state of Eu,photoluminescence and thermo-sensitive performance of the phospho...A novel Eu^(2+)-Eu^(3+)co-activated ratiometric thermo-sensitive phosphor was developed and synthesized by solid-state reaction.The valence state of Eu,photoluminescence and thermo-sensitive performance of the phosphor prepared either in ambient air or carbothermally were investigated and discussed.The phosphor shows high sensitivity(Sa=0.0173 K^(-1),S_(r)=0.461%/K)and superior signal discriminability(Δν∼10380 cm^(−1)).The thermo-sensitive performance is subject to the dual effects of different thermo-responses by Eu^(2+)versus Eu^(3+)combined with energy transfer from Eu^(2+)to Eu^(3+),so that the sensitivity of the phosphor in the temperature range presents a non-monotonic trend.The development of the BaAl_(2)B_(2)O_(7):Eu^(2+),Eu^(3+)phosphor is not only expected to be relevant for application in the field of temperature sensing,but also of reference significance for improving the sensitivity by means of energy transfer between co-activator ions over a wider temperature range of Eu^(2+)-Eu^(3+)co-activated ratiometric thermo-sensitive phosphors.展开更多
Ultrasonography is an important complement to clinical diagnosis,and the application of microbubbles effectively improved diagnostic accuracy in echography.In scientific research,the sizes of microbubbles range from n...Ultrasonography is an important complement to clinical diagnosis,and the application of microbubbles effectively improved diagnostic accuracy in echography.In scientific research,the sizes of microbubbles range from nanometers to microns.By optimizing the fabrication process,bubble sizes and ultrasound parameters,microbubbles can also be used for drug delivery and therapeutic monitoring.In this review,we summarize the recent advances in the diagnosis and treatment of microbubbles according to their different components.Modification of microbubble shells allows for more accurate imaging and detection and the combined utilization of US-targeted MB destruction(UTMD)allows for non-invasive,precise and targeted delivery of drug molecules to pathological tissues.These features pave the way for the emerge of theranostic microbubbles by combination of functional compositions and the application of multifunctional materials.Theranostic microbubbles allow for the simultaneous process of diagnosis,visualization of drug delivery and therapeutic monitoring.Ultimately,theranostic microbubbles are promising in clinical practice and would enhance contrast-enhanced US(CEUS)to a new qualitative level.展开更多
A series of luminescent Ba0.79Al10.9O17.14∶xEu (x=0.005-0.12) phosphors were prepared by high-temperature solid-state reaction in air atmosphere.The coexistence of Eu2+ and Eu3+ was observed and verified by photolumi...A series of luminescent Ba0.79Al10.9O17.14∶xEu (x=0.005-0.12) phosphors were prepared by high-temperature solid-state reaction in air atmosphere.The coexistence of Eu2+ and Eu3+ was observed and verified by photoluminescence (PL) and photoluminescence excitation (PLE) spectra,X-ray photoelectron spectra (XPS),and diffuse reflection spectra.The band emission peaking at 430 nm was assigned to 4F65D-4F7 transition of Eu2+,and another four emissions peaking at 589,619,655,and 704 nm were attributed to 4F-4F transitions of 5D0-7FJ(J=1,2,3,4) of Eu3+.The related mechanism of self-reduction was discussed in detail.The color of the Ba0.79Al10.9O17.14∶xEu phosphors could be shifted from blue (0.23,0.10) to red (0.42,0.27) by doping Li+ ions,and the temperature dependence properties were investigated.展开更多
基金supported by the National Natural Science Foundation of China(52207105)。
文摘The N-1 criterion is a critical factor for ensuring the reliable and resilient operation of electric power distribution networks.However,the increasing complexity of distribution networks and the associated growth in data size have created a significant challenge for distribution network planners.To address this issue,we propose a fast N-1 verification procedure for urban distribution networks that combines CIM file data analysis with MILP-based mathematical modeling.Our proposed method leverages the principles of CIM file analysis for distribution network N-1 analysis.We develop a mathematical model of distribution networks based on CIM data and transfer it into MILP.We also take into account the characteristics of medium voltage distribution networks after a line failure and select the feeder section at the exit of each substation with a high load rate to improve the efficiency of N-1 analysis.We validate our approach through a series of case studies and demonstrate its scalability and superiority over traditional N-1 analysis and heuristic optimization algorithms.By enabling online N-1 analysis,our approach significantly improves the work efficiency of distribution network planners.In summary,our proposed method provides a valuable tool for distribution network planners to enhance the accuracy and efficiency of their N-1 analyses.By leveraging the advantages of CIM file data analysis and MILP-based mathematical modeling,our approach contributes to the development of more resilient and reliable electric power distribution networks.
基金Project supported by the Central Funding Project for Local Science and Technology Development(2022JH6/100100048)the National Natural Science Foundation of China(52103038)Shenyang Science and Technology Plan Project(20-202-1-12)。
文摘A novel Eu^(2+)-Eu^(3+)co-activated ratiometric thermo-sensitive phosphor was developed and synthesized by solid-state reaction.The valence state of Eu,photoluminescence and thermo-sensitive performance of the phosphor prepared either in ambient air or carbothermally were investigated and discussed.The phosphor shows high sensitivity(Sa=0.0173 K^(-1),S_(r)=0.461%/K)and superior signal discriminability(Δν∼10380 cm^(−1)).The thermo-sensitive performance is subject to the dual effects of different thermo-responses by Eu^(2+)versus Eu^(3+)combined with energy transfer from Eu^(2+)to Eu^(3+),so that the sensitivity of the phosphor in the temperature range presents a non-monotonic trend.The development of the BaAl_(2)B_(2)O_(7):Eu^(2+),Eu^(3+)phosphor is not only expected to be relevant for application in the field of temperature sensing,but also of reference significance for improving the sensitivity by means of energy transfer between co-activator ions over a wider temperature range of Eu^(2+)-Eu^(3+)co-activated ratiometric thermo-sensitive phosphors.
基金supported by the National Natural Science Foundation of China-Sichuan Joint Fund Key Program(No.NSFCU21A20417)the National Natural Science Foundation of China(Nos.NSFC31930067,81971622,82272003)the 135 Project for Disciplines of Excellence,West China Hospital,Sichuan University(No.ZYGD18002,China)。
文摘Ultrasonography is an important complement to clinical diagnosis,and the application of microbubbles effectively improved diagnostic accuracy in echography.In scientific research,the sizes of microbubbles range from nanometers to microns.By optimizing the fabrication process,bubble sizes and ultrasound parameters,microbubbles can also be used for drug delivery and therapeutic monitoring.In this review,we summarize the recent advances in the diagnosis and treatment of microbubbles according to their different components.Modification of microbubble shells allows for more accurate imaging and detection and the combined utilization of US-targeted MB destruction(UTMD)allows for non-invasive,precise and targeted delivery of drug molecules to pathological tissues.These features pave the way for the emerge of theranostic microbubbles by combination of functional compositions and the application of multifunctional materials.Theranostic microbubbles allow for the simultaneous process of diagnosis,visualization of drug delivery and therapeutic monitoring.Ultimately,theranostic microbubbles are promising in clinical practice and would enhance contrast-enhanced US(CEUS)to a new qualitative level.
基金We thank the National Natural Science Foundation of China,the Program for New Century Excellent Talents in University of Ministry of Education of China,the Fundamental Research Funds for Central Universities
文摘A series of luminescent Ba0.79Al10.9O17.14∶xEu (x=0.005-0.12) phosphors were prepared by high-temperature solid-state reaction in air atmosphere.The coexistence of Eu2+ and Eu3+ was observed and verified by photoluminescence (PL) and photoluminescence excitation (PLE) spectra,X-ray photoelectron spectra (XPS),and diffuse reflection spectra.The band emission peaking at 430 nm was assigned to 4F65D-4F7 transition of Eu2+,and another four emissions peaking at 589,619,655,and 704 nm were attributed to 4F-4F transitions of 5D0-7FJ(J=1,2,3,4) of Eu3+.The related mechanism of self-reduction was discussed in detail.The color of the Ba0.79Al10.9O17.14∶xEu phosphors could be shifted from blue (0.23,0.10) to red (0.42,0.27) by doping Li+ ions,and the temperature dependence properties were investigated.
