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初中物理“空气压缩引火仪”的不足及改进
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作者 杨光远 潘国荣 《教学与管理》 2022年第7期55-57,共3页
对现行“空气压缩引火仪”的筒身、手柄、底座、压缩杆进行了改进,利用改进后的部件组装成“高效空气压缩引火仪”。用新仪器进行实验,不需要很大的推力,小女生都能够进行。新仪器对可燃物的要求不高,只要是干燥常见的纸、脱脂棉、棉布... 对现行“空气压缩引火仪”的筒身、手柄、底座、压缩杆进行了改进,利用改进后的部件组装成“高效空气压缩引火仪”。用新仪器进行实验,不需要很大的推力,小女生都能够进行。新仪器对可燃物的要求不高,只要是干燥常见的纸、脱脂棉、棉布、薄木片等都可以用于实验。可燃物燃烧时间长,燃烧位置无遮挡,实验现象易观察、成功率高。 展开更多
关键词 初中物理 内能的改变 实验仪器 高效空气压缩引
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改进“空气压缩引火仪”增强物理教学效果
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作者 胡米宁 《职教论坛》 2001年第12期56-56,共1页
"空气压缩引火仪"是中等职业学校和普通中学物理教学中常用的实验仪器.在教学实践中,该仪器有两点不足:
关键词 改进 空气压缩引仪” 物理教学 中等职业学校 教学效果
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机油压力为何不稳
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作者 卢继安 《农业开发与装备》 1995年第4期12-12,共1页
一台S195柴油机三级保养后,发动机车时出现机油指示器浮子时升时降,即机油压力不稳的现象。若长期在此状态运转,将会使发动机各部件处于干摩擦,还会导致烧瓦抱轴,应及时予以排除。分析引起机油压力不稳的主要原因如下。
关键词 机油压力 机油泵 发动机 三级保养 油指示器 S195柴油机 烧瓦抱轴 干摩擦 清洗机 火空气
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Formation mechanism of aerodynamic drag of high-speed train and some reduction measures 被引量:27
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作者 田红旗 《Journal of Central South University》 SCIE EI CAS 2009年第1期166-171,共6页
Aerodynamic drag is proportional to the square of speed. With the increase of the speed of train, aerodynamic drag plays an important role for high-speed train. Thus, the reduction of aerodynamic drag and energy consu... Aerodynamic drag is proportional to the square of speed. With the increase of the speed of train, aerodynamic drag plays an important role for high-speed train. Thus, the reduction of aerodynamic drag and energy consumption of high-speed train is one of the essential issues for the development of the desirable train system. Aerodynamic drag on the traveling train is divided into pressure drag and friction one. Pressure drag of train is the force caused by the pressure distribution on the train along the reverse running direction. Friction drag of train is the sum of shear stress, which is the reverse direction of train running direction. In order to reduce the aerodynamic drag, adopting streamline shape of train is the most effective measure. The velocity of the train is related to its length and shape. The outer wind shields can reduce train's air drag by about 15%. At the same time, the train with bottom cover can reduce the air drag by about 50%, compared with the train without bottom plate or skirt structure. 展开更多
关键词 aerodynamics of train high speed train aerodynamic drag drag reduction
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Experimental and numerical evaluations on characteristics of vented methane explosion 被引量:4
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作者 SU Bin LUO Zhen-min +1 位作者 WANG Tao LIU Lang 《Journal of Central South University》 SCIE EI CAS CSCD 2020年第8期2382-2393,共12页
To research the characteristics of vented explosion of methane-air mixture in the pipeline,coal mine tunnel or other closed space,the experiments and numerical simulations were carried out.In this work,explosion chara... To research the characteristics of vented explosion of methane-air mixture in the pipeline,coal mine tunnel or other closed space,the experiments and numerical simulations were carried out.In this work,explosion characteristics and flame propagation characteristics of methane in pipeline and coal mine tunnel are studied by using an explosion test system,combined with FLACS software,under different vented conditions.The numerical simulation results of methane explosion are basically consistent with the physical experiment results,which indicates that the numerical simulation for methane explosion is reliable to be applied to the practice.The results show that explosion parameters(pressure,temperature and product concentration)of methane at five volume fractions have the same change trend.Nevertheless,the explosion intension of 10.0%methane is the largest and that of 9.5%methane is relatively weak,followed by 11.0%methane,8.0%methane and 7.0%methane respectively.Under different vented conditions,the pressure and temperature of methane explosion are the highest in the pipeline without a vent,followed by the pipeline where ignition or vent position is in each end,and those are the lowest in the pipeline with ignition and vent at the same end.There is no significant effect on final product concentration of methane explosion under three vented conditions.For coal mine tunnel,it is indicated that the maximum explosion pressure at the airproof wall in return airway with the branch roadway at 50 m from goaf is significantly decreased while that in intake airway does not change overwhelmingly.In addition,when the branch roadway is longer or its section is larger,the peak pressure of airproof wall reduces slightly. 展开更多
关键词 methane-air flame propagation CFD simulation vented explosion ignition position peak pressure
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A numerical investigation in buoyancy effects on micro jet diffusion flame 被引量:1
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作者 LIU Lei ZHAO Ming +2 位作者 CHEN Yi-kun FAN Ai-wu LI Dan 《Journal of Central South University》 SCIE EI CAS CSCD 2020年第3期867-875,共9页
The buoyancy effect on micro hydrogen jet flames in still air was numerially studied.The results show that when the jet velocity is relatively large(V≥0.2 m/s),the flame height,width and temperature decrease,whereas ... The buoyancy effect on micro hydrogen jet flames in still air was numerially studied.The results show that when the jet velocity is relatively large(V≥0.2 m/s),the flame height,width and temperature decrease,whereas the peak OH mass fraction increases significantly under normal gravity(g=9.8 m/s^2).For a very low jet velocity(e.g.,V=0.1 m/s),both the peak OH mass fraction and flame temperature under g=9.8 m/s^2 are lower than the counterparts under g=0 m/s^2.Analysis reveals that when V≥0.2 m/s,fuel/air mixing will be promoted and combustion will be intensified due to radial flow caused by the buoyancy effect.However,the flame temperature will be slightly decreased owing to the large amount of entrainment of cold air into the reaction zone.For V=0.1 m/s,since the heat release rate is very low,the entrainment of cold air and fuel leakage from the rim of tube exit lead to a significant drop of flame temperature.Meanwhile,the heat loss rate from fuel to inner tube wall is larger under g=9.8 m/s^2 compared to that under g=0 m/s^2.Therefore,the buoyancy effect is overall negative at very low jet velocities. 展开更多
关键词 micro jet diffusion flame buoyancy effect flame structure flame temperature air entrainment preheating effect
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Sensitivity and effect of key operational parameters on performance of a dual-cylinder free-piston engine generator 被引量:1
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作者 ZHANG Zhi-yuan FENG Hui-hua +1 位作者 JIA Bo-ru ZUO Zheng-xing 《Journal of Central South University》 SCIE EI CAS CSCD 2022年第7期2101-2111,共11页
The free-piston engine generator(FPEG)is regarded as the next generation of energy conversion system which may replace traditional engines in the future.The effect of key operational parameters like excess air ratio o... The free-piston engine generator(FPEG)is regarded as the next generation of energy conversion system which may replace traditional engines in the future.The effect of key operational parameters like excess air ratio of input mixture and ignition position on the engine performance of a dual-cylinder FPEG was investigated,and their sensitivity was analyzed in this paper.The operating compression ratio of the system is susceptible to changes in excess air ratio and ignition position.At the same time,it decreases from 15.8 to 6.6 when excess air ratio increases from 0.85 to 1.15,but it increases from 6.1 to 13.3 as ignition position increases from 15 mm to 20 mm.The operating frequency and indicated power are more sensitive to changes in excess air ratio than ignition position.But it is the opposite for the indicated thermal efficiency and friction loss.Excess air ratio and ignition position have a quite similar influence on heat transfer.Therefore,from the perspective of system operation and performance,it is preferable to keep excess air coefficient slightly below 1.0.In contrast,when selecting ignition position,it is of great importance to comprehensively consider the risk of structural damage caused by the increase in the compression ratio and in-cylinder gas pressure. 展开更多
关键词 free piston engine generator excess air ratio ignition position operation characteristics sensitivity analysis thermal efficiency
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Influence of Cr^(3+) Doping Concentration on the Persistent Performance of YAGG:Ce^(3+),Cr^(3+) Luminescent Ceramics
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作者 LI Tingsong WANG Wenli +4 位作者 LIU Qiang WANG Yanbin ZHOU Zhenzhen HU Chen LI Jiang 《无机材料学报》 2025年第9期1037-1044,共8页
Y_(3)Al_(2)Ga_(3)O_(12):Ce^(3+),Cr^(3+)(YAGG:Ce^(3+),Cr^(3+)),as a persistent luminescent material,has advantages of high initial luminescence intensity and long persistent time,which is promising in persistent lumine... Y_(3)Al_(2)Ga_(3)O_(12):Ce^(3+),Cr^(3+)(YAGG:Ce^(3+),Cr^(3+)),as a persistent luminescent material,has advantages of high initial luminescence intensity and long persistent time,which is promising in persistent luminescent material applications.At present,YAGG:Ce^(3+),Cr^(3+)powders exhibit good persistent performance,but their persistent performance of ceramics still needs to be further improved to meet the new requirements.In this work,(Y_(0.998)Ce_(0.002))_(3)(Al_(1-x)Cr_(x))_(2)Ga_(3)O_(12)ceramics with different Cr^(3+)doping concentrations were prepared by solid-state reaction,including air pre-sintering,hot isostatic pressing(HIP)post-treatment and air annealing,to investigate the effects of Cr^(3+)doping concentration on the microstructure,optical properties and persistent performance of the ceramics.The results showed that as the doping concentration of Cr^(3+)increased from 0.025%to 0.2%(in atom),no significant effect of Cr^(3+)concentration on the morphology of pre-sintered ceramics or HIP post-treatment ceramics was observed,but the in-line transmittance gradually increased while the persistent performance gradually decreased.Among them,YAGG:Ce^(3+),Cr^(3+)ceramics doped with 0.025%Cr^(3+)showed the strongest initial luminescence intensity exceeding 6055 mcd/m^(2)and a persistent time of 1030 min after air pre-sintering combined with HIP post-treatment and air annealing.By optimizing the Cr^(3+)doping concentration and the fabrication process,the persistent luminescence(PersL)performance of the YAGG:Ce^(3+),Cr^(3+)ceramics was obviously improved. 展开更多
关键词 YAGG:Ce^(3+) Cr^(3+)ceramic Cr^(3+)doping concentration persistent luminescence hot isostatic pressing air annealing
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