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Large Eddy Simulation of Axisymmetric Scramjet Based on Dynamic Zone Flamelet Model 会议论文
Asia-Pacific International Symposium on Aerospace Technology (APISAT), Korean Soc Aeronaut & Space Sci, Jeju, SOUTH KOREA, NOV 15-17, 2021
作者:  Sun WM(孙文明);  Liu H(刘杭);  Li L(李龙);  Yao W(姚卫)
Adobe PDF(2371Kb)  |  收藏  |  浏览/下载:157/34  |  提交时间:2022/11/24
Axisymmetric scramjet  Ethylene  Improved Delay Detached Eddy Simulation (IDDES)  Dynamic Zone Flamelet Model (DZFM)  Cavity  
Towards the development of a wake meandering model based on neural networks 会议论文
Science of Making Torque from Wind 2020, TU Delft, September 28, 2020 - October 2, 2020
作者:  Yang XL(杨晓雷)
Adobe PDF(883Kb)  |  收藏  |  浏览/下载:145/32  |  提交时间:2021/01/12
Investigation of flow model and flow behavior in typical fractured-vuggy structure of carbonate reservoirs 会议论文
4th International Workshop on Renewable Energy and Development (IWRED), ELECTR NETWORK, APR 24-26, 2020
作者:  Li XB;  Yang M;  Li Q;  Liu YW(刘曰武)
Adobe PDF(477Kb)  |  收藏  |  浏览/下载:160/55  |  提交时间:2020/08/26
Analysis of the influence of the vane width on the fluid transmission performance in the vane-type tank 会议论文
International Conference on Energy, Power and Mechanical Engineering (EPME2019), Guangzhou, China, 20-22 December 2019
作者:  Zhuang BT(庄宝唐);  Li Y;  Pan HL;  Rui W
浏览  |  Adobe PDF(499Kb)  |  收藏  |  浏览/下载:203/55  |  提交时间:2020/06/15
A method for rapid generation of 3D infrared radiation intensity field of engine exhaust plume 会议论文
6th Symposium on Novel Optoelectronic Detection Technology and Applications, Beijing, PEOPLES R CHINA, 3 December 2019 through 5 December 2019
作者:  Bao XD(包醒东);  Yu XL(余西龙);  Wang Z.-H;  Mao H.-X;  Xiao Z.-H.
Adobe PDF(602Kb)  |  收藏  |  浏览/下载:151/67  |  提交时间:2021/06/11
Calculation method  Exhaust plume  Infrared spectroscopy  Radiation intensity  Three-dimensional space  
Temperature and H2O concentration measurements for a hybrid rocket motor plume using a single mid-infrared tunable diode laser 会议论文
2020 Applied Optics and Photonics China: Optical Sensing and Imaging Technology, AOPC 2020, Xiamen, PEOPLES R CHINA, 25 August 2020 through 27 August 2020
作者:  Fang SH(方思晗);  Wang ZZ(王泽众);  Li RJ(李仁杰);  Zhang ZL(张泽林);  Lin X(林鑫);  Li F(李飞);  Yu XL(余西龙)
Adobe PDF(1569Kb)  |  收藏  |  浏览/下载:215/67  |  提交时间:2021/06/11
concentration  hybrid rocket motor  nozzle exit  temperature  Tunable diode laser absorption spectroscopy (TDLAS)  water vapor  
In-situ investigation on fatigue behaviors of Ti-6Al-4V manufactured by selective laser melting 会议论文
19th International Colloquium on Mechanical Fatigue of Metals (ICMFM), Univ Porto, Fac Engn, Porto, PORTUGAL, SEP 05-07, 2018
作者:  Qian GA(钱桂安);  Jian,Zhimo;  Pan XN(潘向南);  Berto,Filippo
Adobe PDF(2875Kb)  |  收藏  |  浏览/下载:106/37  |  提交时间:2022/11/24
Selective laser melting  In-situ SEM  Ti-6Al-4V  Low cycle fatigue  Crack propagation  
Non-Linearly Restoring Performance and its Hysteresis behavior of Dynamic Catenary 会议论文
38th International Conference on Ocean, Offshore and Arctic Engineering, Glasgow, Scotland, UK, June 9–14, 2019
作者:  Li YL;  Guo SX(郭双喜);  Chen WM(陈伟民);  Li M(李敏)
Adobe PDF(1132Kb)  |  收藏  |  浏览/下载:119/23  |  提交时间:2020/01/06
Using Deep Learning Techniques for Sandwich Panels with Truss Core Damage Detection 会议论文
2019 International Conference on Advanced Electronic Materials, Computers and Materials Engineering (AEMCME 2019), Changsha, China, 19–21 April 2019
作者:  Wang YB(王亚博);  Lu LL(路玲玲);  Song HW(宋宏伟)
Adobe PDF(1150Kb)  |  收藏  |  浏览/下载:187/45  |  提交时间:2019/09/29
deep learning  sandwich panels with truss core  damage dection  
On hybrid electroosmotic kinetics for field-effect-reconfigurable nanoparticle trapping in a four-terminal spiral microelectrode array 会议论文
2nd International Conference of Microfluidics, Nanofluidics and Lab-on-a-Chip, Beijing, PEOPLES R CHINA, JUN 08-10, 2018
作者:  Ren YK;  Song CL;  Liu WY;  Jiang TY;  Song JN;  Wu QS;  Jiang HY
浏览  |  Adobe PDF(2031Kb)  |  收藏  |  浏览/下载:301/129  |  提交时间:2019/04/19
AC field-effect flow control  hybrid electroosmotic kinetics  induced-charge electrokinetic  microfluidics  nanoparticle concentration