唐天全 特聘青年研究員
學歷學位:博士學位
導師類別:碩士生導師
研究方向:1.超聲聲懸浮:有聲學基礎,熟悉單片機; 2.流體力學:側重葉輪(旋轉)機械;除了以上,掌握機器學習優(yōu)先。
聯(lián)系方式:tianquan122@163.com
學習與工作經歷
2011-2015 西北工業(yè)大學 學士
2015-2018 西北工業(yè)大學 碩士
2018-2022 香港大學 博士
2022-2023 香港大學 博士后
2023-至今 佛山大學 特聘青年研究員
科研項目
《不規(guī)則接觸面多層介質中不規(guī)則微粒所受聲輻射力和扭矩的調控理論與應用研究》 廣東省基礎與應用基礎研究區(qū)域聯(lián)合基金-青年基金 10萬 主持
論文成果
近年來發(fā)表論文:*代表通訊作者
聲場中介質耗散與聲輻射效應:
[1]. T. Tang*, L. Huang. Mie particle assembly by a converging ultrasound field and acoustic interaction forces [J]. Applied Acoustics, 2021, 180, 108123. (JCR-Q1)
[2]. T. Tang*, B. Dong, B., L. Huang. Agglomeration of particles by a converging ultrasound field and their quantitative assessments [J]. Ultrasonics sonochemistry, 2021, 75, 105590. (JCR-Q1 TOP)
聲鑷平臺聲輻射力和扭矩理論模型:
[3]. T. Tang*, L. Huang. Acoustic radiation force for multiple particles over a wide size-scale by multiple ultrasound sources [J]. Journal of Sound and Vibration, 2021, 509, 116256. (JCR-Q1 TOP 聲學公認頂刊)
[4]. T. Tang*, L. Huang. An efficient semi-analytical procedure to calculate acoustic radiation force and torque for axisymmetric irregular bodies [J]. Journal of Sound and Vibration, 2022, 532, 117012. (JCR-Q1 TOP 聲學公認頂刊)
[5]. T. Tang*, L. Huang. Theoretical framework to predict the acoustophoresis of axisymmetric irregular objects above an ultrasound transducer array [J]. Physical Review E, 2022, 105(5), 055110. (JCR-Q1 流體力學領域公認三大頂刊之一)
[6]. T. Tang*, L. Huang. Soundiation: A software in evaluation of acoustophoresis driven by radiation force and torque on axisymmetric objects [J]. Journal of the Acoustical Society of America, 2022, 152(5), 2934–2945. (JCR-Q1 聲學公認頂刊)
聲鑷平臺動平衡穩(wěn)定操控理論和實驗:
[7]. T. Tang*, G. T. Silva, L. Huang, X. Han. Acoustic levitation of axisymmetric Mie objects above a transducer array by engineering the acoustic radiation force and torque [J]. Physical Review E, 2022, 106(4), 045108. (JCR-Q1 流體力學領域公認三大頂刊之一)
[8]. T. Tang*, C. Shen, L. Huang*. Acoustic rotation of non-spherical micro-objects: Characterization of acoustophoresis and quantification of rotational stability [J]. Journal of Sound and Vibration, 2023, 554, 117694. (JCR-Q1 TOP 聲學公認頂刊)
分層介質的聲場傳播模型:
[9]. T. Tang*, C. Shen, L. Huang. Propagation of acoustic waves and determined radiation effects on axisymmetric objects in heterogeneous medium with irregular interfaces [J]. Physics of Fluids, 2024, 36(1). (JCR-Q1 流體力學領域公認三大頂刊之一)
[10].
葉輪機械(氣動)相關:
[11]. T. Tang*, B. Liu. The genetic algorithm-radial basis function neural network to quickly predict aerodynamic performance of compressors [J]. Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, 2021, 235(5), 537–552. (JCR-Q2)
[12]. B. Dong, Y. Zhao, T. Tang, F. He. Flow effects of microperforated-panel casing treatments in a contra-rotating fan [J]. International Journal of Mechanical Sciences, 2023, 239, 107879.(JCR-Q1 TOP)
[13]. X. Mao, B. Liu, T. Tang, H. Zhao. The impact of casing groove location on the flow instability in a counter-rotating axial flow compressor [J]. Aerospace Science and Technology, 2018, 76, 250–259. (JCR-Q1 TOP)
[14]. X. Mao, B. Liu, T. Tang. Effect of casing aspiration on the tip leakage flow in the axial flow compressor cascade [J]. Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, 2018, 232(3), 225–239.(JCR-Q2)
[15]. X. Mao, B. Liu, T. Tang. Control of tip leakage flow in axial flow compressor cascade by suction on the blade tip [J]. Journal of Applied Fluid Mechanics, 2018, 11(1), 137–149.(JCR-Q3)
學生培養(yǎng)
具備豐富的數(shù)學建模競賽經驗,分別獲得:
國際數(shù)學建模競賽二等獎:1次;
全國本科生數(shù)學建模競賽一等獎,二等獎:2次,1次;
全國研究生數(shù)學建模競賽特等獎,三等獎:1次,1次。
豐富的本科畢業(yè)設計培養(yǎng)經驗:
2024年:優(yōu)秀本科畢業(yè)論文 1份。
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