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Numerical simulation of influence of nozzle structure on arc characteristics of GPCA-TIG welding 被引量:1
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作者 Huang Yong Ren Qinglong +2 位作者 Lu Suzhong Ren Cao Feng Wei 《China Welding》 EI CAS 2018年第3期11-19,共9页
This work mainly articulated the effects of nozzle structure on arc characteristics in gas pool coupled activating TIG (GPCA-TIG) welding process by using Fluent Software. Different models were set up to adapt the d... This work mainly articulated the effects of nozzle structure on arc characteristics in gas pool coupled activating TIG (GPCA-TIG) welding process by using Fluent Software. Different models were set up to adapt the different torch structure during computer progress. The specific configuration of the welding torch made the gas flow in outer gas passage constrained. The nozzle structure has great influence on outer gas distribution because of the changing of coupling region between the outer active gas and molten pool surface. When the coupling degree is reduced or the outer gas passage become smaller, the oxygen in outer gas penetrates into the arc plasma and spreads to the arc region more easily. Owing to its cooling effects, the morphology of arc is contracted, and the arc temperature is increased. When the inner wall and the outer wall of outer gas passage are not parallel, the wide top and narrow bottom nozzle shape can bring more oxygen into the arc plasma, the arc is contracted and the peak temperature of arc rises a little more comparing to the narrow top and wide bottom one. 展开更多
关键词 gas pool coupled activating TIG welding numerical simulation nozzle structure arc characteristics
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Numerical simulation of nozzle structure to improve eccentric mold electromagnetic stirring in a round bloom mold
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作者 Jian-li Wang Yong-kun Yang +3 位作者 Jia-yu Zhu Wei-an Wang Liang Niu Xiao-ming Li 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2024年第9期2173-2185,共13页
A three-dimensional mathematical model coupling electromagnetic,flow,heat transfer,and solidification has been developed to investigate the effect of eccentric mold electromagnetic stirring(EM-EMS)on the flow and heat... A three-dimensional mathematical model coupling electromagnetic,flow,heat transfer,and solidification has been developed to investigate the effect of eccentric mold electromagnetic stirring(EM-EMS)on the flow and heat transfer of molten steel in round blooms with different cross sections.The uneven distribution of the flow field caused by EM-EMS was improved by changing the straight submerged entry nozzle(SEN)to a four-port SEN.The symmetry index was determined by the velocity distributions on the left and right sides of the center cross section of mold electromagnetic stirring(M-EMS),which quantitatively evaluated the symmetry of EM-EMS on the flow field.In the presence of EM-EMS,the maximum temperature difference ofϕ500 mm andϕ650 mm round blooms between the inner and outer curves amounted to 63 and 26 K,respectively.The maximum distinction between the solidified shells in the inner and outer curves was 11.5 and 5.3 mm,respectively.After using the four-port SEN,the temperature and the shell distribution on the inner and outer curves for theϕ500 mm round bloom were almost the same.The symmetry indices ofϕ500 mm andϕ650 mm round blooms were increased from 0.55 and 0.70 to 0.77 and 0.87,respectively.The four-port SEN can be used to mitigate the negative impact of EM-EMS on the steel flow field. 展开更多
关键词 nozzle structure Eccentric mold electromagnetic stirring Symmetry index Flow behavior Round bloom
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Prediction of atomization characteristics of pressure swirl nozzle with different structures 被引量:1
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作者 Jinfan Liu Xin Feng +4 位作者 Hu Liang Weipeng Zhang Yuanyuan Hui Haohan Xu Chao Yang 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2023年第11期171-184,共14页
The structure of the pressure swirl nozzle is an important factor affecting its spray performance.This work aims to study pressure swirl nozzles with different structures by experiment and simulation.In the experiment... The structure of the pressure swirl nozzle is an important factor affecting its spray performance.This work aims to study pressure swirl nozzles with different structures by experiment and simulation.In the experiment,10 nozzles with different structures are designed to comprehensively cover various geometric factors.In terms of simulation,steady-state simulation with less computational complexity is used to study the flow inside the nozzle.The results show that the diameter of the inlet and outlet,the direction of the inlet,the diameter of the swirl chamber,and the height of the swirl chamber all affect the atomization performance,and the diameter of the inlet and outlet has a greater impact.It is found that under the same flow rate and pressure,the geometric differences do have a significant impact on the atomization characteristics,such as spray angle and SMD(Sauter mean diameter).Specific nozzle structures can be customized according to the actual needs.Data analysis shows that the spray angle is related to the swirl number,and the SMD is related to turbulent kinetic energy.Through data fitting,the equations for predicting the spray angle and the SMD are obtained.The error range of the fitting equation for the prediction of spray angle and SMD is within 15% and 10% respectively.The prediction is expected to be used in engineering to estimate the spray performance at the beginning of a real project. 展开更多
关键词 Pressure swirl nozzle nozzle structure Numerical simulation Spray angle PREDICTION
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Design and Fluid-Dynamic Analysis of a Flushing Nozzle for Drilling Applications
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作者 Zhongshuai Chen Hongjian Ni +1 位作者 Xueliang Pei Yu Gao 《Fluid Dynamics & Materials Processing》 EI 2023年第12期2953-2963,共11页
The actuator is a key component of the creaming tool in drilling applications.Its jet performances determine the effective reaming efficiency.In this work,a new selective reaming tool is proposed and the RNG k-εturbu... The actuator is a key component of the creaming tool in drilling applications.Its jet performances determine the effective reaming efficiency.In this work,a new selective reaming tool is proposed and the RNG k-εturbulence model is used to calculate its internal and externalflowfields.In particular,special attention is paid to the design of theflushing nozzle.The results show that the jet originating from theflushing nozzle has a significant influence on rock cutting and blade cooling effects.In turn,the jet performances depend on geometric structure of the creaming actuator.In this framework,a conical-cylindrical nozzle with a diameter of 7 mm is initially considered as a basis to implement a strategy to optimize the structural parameters of the reaming actuator,and improve the related side tracking reconstruction technology. 展开更多
关键词 Reaming tool while drilling flowfluid characteristics flushing nozzle nozzle structure
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Analysis of the Agglomeration of Powder in a Coaxial Powder Feeding Nozzle Used for Laser Energy Deposition
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作者 Chenguang Guo Yu Sun +2 位作者 Qiang Li Haitao Yue Chuang Wang 《Fluid Dynamics & Materials Processing》 EI 2021年第2期349-370,共22页
To improve the agglomeration of powder in a coaxial powder feeding nozzle used in the frame of a laser energy deposition technique,the influence of several parameters must be carefully assessed.In the present study th... To improve the agglomeration of powder in a coaxial powder feeding nozzle used in the frame of a laser energy deposition technique,the influence of several parameters must be carefully assessed.In the present study the problem is addressed by means of numerical simulations based on a DEM-CFD(Discrete Element Method and Discrete Element Method)coupled model.The influence of the powder flow concentration,powder flow focal length and the amount of powder at the nozzle outlet on the rate of convergence of the powder flow is considered.The role played by the nozzle outlet width,the angle between the inner and outer walls and the powder incident angle in determining the powder flow concentration is also considered.The results show that,with increasing of nozzle outlet width,the powder flow concentration per unit volume at the nozzle focal point undergoes a non-monotonic behaviour(it first increases and then decreases).When the nozzle outlet widthδis 1.00 mm,the powder flow concentration at the focal point is maximal and the powder flow convergence can be considered optimal.By increasing the angle between the inner and outer walls,the powder flow concentration related to the upper focus decreases,the focus diameter increases and the powder flow aggregation worsens.The powder flow concentration increases first and then decreases with increasing incident angle.When the incident angleθis 30°,the powder flow exhibits the best agglomeration properties.When the outlet width is smaller,the angle between the inner and outer walls is larger,and when the incident angle is set at 30°,the powder flow concentration of the coaxial nozzle can be effectively improved. 展开更多
关键词 DEM-CFD coupling gas-solid two-phase flow coaxial powder feeding nozzle structure powder flow agglomeration
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Low porosity and fine coatings produced by a new type nozzle of high velocity arc spray gun
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作者 汪瑞军 张天剑 +1 位作者 徐林 黄小鸥 《China Welding》 EI CAS 2006年第3期51-54,共4页
The new designed high-velocity arc spray gun with three different nozzles is developed to match the DZ400 arc spray system, which can produce the coatings with the structure of superfine and low porosity. This system ... The new designed high-velocity arc spray gun with three different nozzles is developed to match the DZ400 arc spray system, which can produce the coatings with the structure of superfine and low porosity. This system can be used to spray three normal wires such as 4Cr13, FeCrAl and 7Cr13 (flux cored wires). Using the scanning electron microscope ( SEM ) to analyze shape and particles size that sprayed by the nozzles with different parameters, as well as with the S-3500N SEM and the energy spectrum analytic (ESA) instrument to identify the content of the oxides, porosity and thickness of the coatings, we get the result that the porosity in the coatings of solid wire is less than 3%, of the flux-cored wires is less than 5%, and the distribution of the coatings sprayed by the nozzle with secondary supplementary airflow is typically shown in the form of highdensity lameUarsplat structure and the average lamellar thickness is around 5μm. 展开更多
关键词 twin wire arc spray nozzles structure coatings structure porosity OXIDES
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Producing ultra-high-speed nitrogen jets by arc heating in a low-pressure chamber
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作者 Wenxia Pan Xian Meng +1 位作者 Heji Huang Chengkang Wu 《Theoretical & Applied Mechanics Letters》 CAS CSCD 2016年第1期60-63,共4页
Pure nitrogen gas was heated with direct current arc, at input powers from several hundred Watt to over 5 kW, and then injected through a nozzle into a chamber at 1 or 10 Pa pressure, with the purpose of accelerating ... Pure nitrogen gas was heated with direct current arc, at input powers from several hundred Watt to over 5 kW, and then injected through a nozzle into a chamber at 1 or 10 Pa pressure, with the purpose of accelerating the gas to very high speed around 7 km/s. Various structures of the arc generator and gas expansion nozzle were examined. Results show that bypass exhausting of the boundary layer before it enters the nozzle divergent section can greatly increase flow speed of the jet, thus it might be possible to use nitrogen as a working gas in high speed gas dynamic test facilities. 展开更多
关键词 Low-power nitrogen arc-heater Lateral bypass-exhausting Very high flow speed nozzle structure Chamber pressure
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A Review of Engine Fuel Injection Studies Using Synchrotron Radiation X-ray Imaging 被引量:4
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作者 Zhijun Wu Wenbo Zhao +3 位作者 Zhilong Li Jun Deng Zongjie Hu Liguang Li 《Automotive Innovation》 EI CSCD 2019年第2期79-92,共14页
Fuel spray characteristics directly determine the formation pattern and quality of the fuel/air mixture in an engine,and thus affect the combustion process.For this reason,the improvement and optimization of fuel inje... Fuel spray characteristics directly determine the formation pattern and quality of the fuel/air mixture in an engine,and thus affect the combustion process.For this reason,the improvement and optimization of fuel injection systems is crucial to the development of engine technologies.The fuel jet breakup and atomization process is a complex liquid-gas two-phase turbulent flow system that has not yet been fully elucidated.Owing to the limitations of standard optical measurement techniques,the spray breakup mechanism and its interaction with the nozzle internal flow are still unclear.However,in recent years synchrotron radiation(SR)X-ray imaging technologies have been widely applied in engine fuel injection studies because of the higher energy and brilliance of third-generation SR light sources.This review provides a brief introduction to the development of SR technology and compares the critical parameters of the primary third-generation SR light sources available worldwide.The basic principles and applications of various X-ray imaging technologies with regard to nozzle internal structure measurements,visualization of in-nozzle flow characteristics and quantitative analyses of near-field spray transient dynamics are examined in detail. 展开更多
关键词 X-ray imaging technology Fuel injection nozzle internal structure In-nozzle flow visualization Near-field spray dynamics
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