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Yanyan Shi,Meng Wang,Minghui Shen,Haiming Wang 대한기계학회 2015 JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY Vol.29 No.7
To obtain the phase fraction and velocity of vertical air-water two-phase flows, an electromagnetic flowmeter with two arc-shapedelectrodes is proposed. The electromagnetic flowmeter is operated in two measuring modes: electrical measurement mode and electromagneticmeasurement mode. The geometry of the electromagnetic flowmeter for dual-parameter measurement is optimized based onthe numerical finite element analysis. The electric field and sensitivity distribution of the electromagnetic flowmeter is investigated toensure an accurate measurement of volume fraction under the mode of the electrical measurement. Weight function of the electromagneticflowmeter operated under the mode of the electromagnetic measurement is also analyzed for the velocity measurement. Preliminaryexperiments are conducted to calibrate the optimized electromagnetic flowmeter in simulated air-water flows. It is noted that the proposedelectromagnetic flowmeter with arc-shaped electrodes can be adopted to obtain the phase fraction and velocity of vertical air-watertwo-phase flows.
Xuyang Zhang,Hangjia Shen,Babak Rezaei Moghadam,Siqi Liu,Yuejin Zhu,Jiacheng Wang,Minghui Yang 성균관대학교(자연과학캠퍼스) 성균나노과학기술원 2019 NANO Vol.14 No.7
Practical application of oxygen evolution reaction (OER) in energy conversion devices, such as water splitting and metal-air batteries, relies on the development of highly efficient and stable electrocatalysts and is still challengeable. Here, Nickel modulated ternary Iron tungsten nitride (Ni-FeWN2) nanosheets are synthesized through a facile hydrothermal growth method and subsequently nitriding process for boosting OER. A potential of 1.57V at the current density of 10 mA/cm2 and Tafel slope (40 mV/dec) are achieved on Ni-FeWN2, much lower than that on Ni-free FeWN2 and commercial IrO2. More importantly, Ni-FeWN2 nanosheets display high stability and electrocatalytic activity toward driving oxygen evolution efficiently in alkaline media.
Qi Zhang,Zhongbin Su,Guijun Yang,Minghui Wang,Weizheng Shen,Xiaowei Teng,Jinhui Dong 보안공학연구지원센터 2016 International Journal of Hybrid Information Techno Vol.9 No.7
Currently, TM images has a very high practical value and widely used in all aspects of agricultural. Unmanned Aerial Vehicles (UAV) remote sensing platform mounted ADC-Lite multi-spectral sensor has consistent channels response functions with TM sensor in TM2, TM3 and TM4, demonstrated to compete with TM sensor, due to low operational cost, high operational flexibility, high spatial resolution of imagery (0.018m with flight altitude 50m) and heterogeneity both at time and spatial-scale. In order to make sure whether it has widely used as TM sensor, moreover, the aim of this work is to assess ADC-Lite performance such as its adaptability and practicability. In this paper, ADC-Lite multi-spectral data, ground truth ASD hyperspectral and Leaf area index (LAI) data were acquired in soybean planting area, Jiaxiang County, Shandong Province on September18th, 2015. Since the ADC-Lite has different spatial scales with TM, this paper used TM simulation data transformed by ground truth ASD data, constructed LAI inversion model by empirical model based on two sensors and ground measured data, using 5 vegetation indices: ratio vegetation index (RVI), normalized difference vegetation index (NDVI), soil adjust vegetation index (SAVI), difference vegetation index (DVI) and triangular vegetation index (TVI). Determination coefficient R2, root mean square error (RMSE) and the estimation accuracy (EA) 3 indicators were acquired to assess the model. This work suggests that the established model of ADC-Lite sensor with TM simulation sensor has high consistency in accuracy. NDVI linear regression model derived from both of them presented a strong correlation with ground-measured LAI. It’s preliminarily shown that ADC-Lite images assess soybean LAI is feasible. This is anticipated to have tremendous implications that ADC-Lite can be made supplement for existing satellites, aerial and ground sensing, provide important information for Crop condition monitoring and critical data to support crop maturity, nutrition monitoring and fertilization management.
Deng, Niantao,Goh, Liang Kee,Wang, Hannah,Das, Kakoli,Tao, Jiong,Tan, Iain Beehuat,Zhang, Shenli,Lee, Minghui,Wu, Jeanie,Lim, Kiat Hon,Lei, Zhengdeng,Goh, Glenn,Lim, Qing-Yan,Tan, Angie Lay-Keng,Sin P BMJ Group 2012 Gut Vol.61 No.5
<P><B>Objective</B></P><P>Gastric cancer is a major gastrointestinal malignancy for which targeted therapies are emerging as treatment options. This study sought to identify the most prevalent molecular targets in gastric cancer and to elucidate systematic patterns of exclusivity and co-occurrence among these targets, through comprehensive genomic analysis of a large panel of gastric cancers.</P><P><B>Design</B></P><P>Using high-resolution single nucleotide polymorphism arrays, copy number alterations were profiled in a panel of 233 gastric cancers (193 primary tumours, 40 cell lines) and 98 primary matched gastric non-malignant samples. For selected alterations, their impact on gene expression and clinical outcome were evaluated.</P><P><B>Results</B></P><P>22 recurrent focal alterations (13 amplifications and nine deletions) were identified. These included both known targets (<I>FGFR2</I>, <I>ERBB2</I>) and also novel genes in gastric cancer (<I>KLF5</I>, <I>GATA6</I>). Receptor tyrosine kinase (RTK)/RAS alterations were found to be frequent in gastric cancer. This study also demonstrates, for the first time, that these alterations occur in a mutually exclusive fashion, with <I>KRAS</I> gene amplifications highlighting a clinically relevant but previously underappreciated gastric cancer subgroup. <I>FGFR2</I>-amplified gastric cancers were also shown to be sensitive to dovitinib, an orally bioavailable FGFR/VEGFR targeting agent, potentially representing a subtype-specific therapy for <I>FGFR2</I>-amplified gastric cancers.</P><P><B>Conclusion</B></P><P>The study demonstrates the existence of five distinct gastric cancer patient subgroups, defined by the signature genomic alterations <I>FGFR2</I> (9% of tumours), <I>KRAS</I> (9%), <I>EGFR</I> (8%), <I>ERBB2</I> (7%) and <I>MET</I> (4%). Collectively, these subgroups suggest that at least 37% of gastric cancer patients may be potentially treatable by RTK/RAS directed therapies.</P>