Sliding gate control system is widely employed in continuous casting process of steel to control flow rate of molten steel.As molten steel passes through a sliding gate,uneven flow develops.This will cause asymmetrica...Sliding gate control system is widely employed in continuous casting process of steel to control flow rate of molten steel.As molten steel passes through a sliding gate,uneven flow develops.This will cause asymmetrical distribution of flow and temperature field in mold consequently,formation of vortex near the nozzle and entrapment of CC powder into the molten steel.etc,which have negative effect on process productivity and product quality.To suppress the uneven flow,electromagnetic swirling flow has been proposed to impose on the flow in submerged entry nozzle below the sliding gate.In this study the uneven flow developed by incompletely open sliding gate and the suppression of this uneven flow using electromagnetic swirling flow are numerically studied in round billet continuous casting of steel process.The improvement of the flow and temperature filed in the submerged entry nozzle and mold are investigated.It is found that:The uneven velocity in nozzle can be suppressed by electromagnetic swirling flow,and the flow and temperature field in mold be improved obviously;With the increase of electromagnetic swirling intensity,the effect of uneven flow can be almost completely suppressed.展开更多
Developing a portable yet affordable method for the discrimination of chemical substances with good sensitivity and selectivity is essential for on-site visual detection of unknown substances.Herein,we propose an opto...Developing a portable yet affordable method for the discrimination of chemical substances with good sensitivity and selectivity is essential for on-site visual detection of unknown substances.Herein,we propose an optofluidic paper-based analytical device(PAD)that consists of a macromolecule-driven flow(MDF)gate and photonic crystal(PhC)coding units,enabling portable and scalable detection and discrimination of various organic chemical,mimicking the olfactory system.The MDF gate is designed for precise flow control of liquid analytes,which depends on intermolecular interactions between the polymer at the MDF gate and the liquid analytes.Subsequently,the PhC coding unit allows for visualizing the result obtained from the MDF gate and generating differential optical patterns.We fabricate an optofluidic PAD by integrating two coding units into a three-dimensional(3D)microfluidic paper within a 3D-printed cartridge.The optofluidic PADs clearly distinguish 11 organic chemicals with digital readout of pattern recognition from colorimetric signals.We believe that our optofluidic coding strategy mimicking the olfactory system opens up a wide range of potential applications in colorimetric monitoring of chemicals observed in environment.展开更多
基金Item Sponsored by The Central Universities(N100409010)Project for Key Laboratory of Liaoning Province(LS2010065)"111 project" of Northeastern University,China(B07015)
文摘Sliding gate control system is widely employed in continuous casting process of steel to control flow rate of molten steel.As molten steel passes through a sliding gate,uneven flow develops.This will cause asymmetrical distribution of flow and temperature field in mold consequently,formation of vortex near the nozzle and entrapment of CC powder into the molten steel.etc,which have negative effect on process productivity and product quality.To suppress the uneven flow,electromagnetic swirling flow has been proposed to impose on the flow in submerged entry nozzle below the sliding gate.In this study the uneven flow developed by incompletely open sliding gate and the suppression of this uneven flow using electromagnetic swirling flow are numerically studied in round billet continuous casting of steel process.The improvement of the flow and temperature filed in the submerged entry nozzle and mold are investigated.It is found that:The uneven velocity in nozzle can be suppressed by electromagnetic swirling flow,and the flow and temperature field in mold be improved obviously;With the increase of electromagnetic swirling intensity,the effect of uneven flow can be almost completely suppressed.
基金supported by the National Research Foundation of Korea(NRF)Grant funded by the Korea Government(NRF-2020R1C1C1005505 and NRF-2022R1F1A106519512).
文摘Developing a portable yet affordable method for the discrimination of chemical substances with good sensitivity and selectivity is essential for on-site visual detection of unknown substances.Herein,we propose an optofluidic paper-based analytical device(PAD)that consists of a macromolecule-driven flow(MDF)gate and photonic crystal(PhC)coding units,enabling portable and scalable detection and discrimination of various organic chemical,mimicking the olfactory system.The MDF gate is designed for precise flow control of liquid analytes,which depends on intermolecular interactions between the polymer at the MDF gate and the liquid analytes.Subsequently,the PhC coding unit allows for visualizing the result obtained from the MDF gate and generating differential optical patterns.We fabricate an optofluidic PAD by integrating two coding units into a three-dimensional(3D)microfluidic paper within a 3D-printed cartridge.The optofluidic PADs clearly distinguish 11 organic chemicals with digital readout of pattern recognition from colorimetric signals.We believe that our optofluidic coding strategy mimicking the olfactory system opens up a wide range of potential applications in colorimetric monitoring of chemicals observed in environment.
