唐跟陽,,男,博士,教授,,博士生導(dǎo)師,,中國石油大學(xué)(北京)地球物理學(xué)院副院長(zhǎng),。
江蘇贛榆縣人,,本科畢業(yè)于北京大學(xué)地球物理系,,博士畢業(yè)于英國劍橋大學(xué)地球科學(xué)系,,從事地球物理和地質(zhì)資源與地質(zhì)工程專業(yè),,研究領(lǐng)域包括地震巖石物理與地震波傳播理論及其應(yīng)用。在學(xué)習(xí)期間曾在中石油塔里木油田公司勘探開發(fā)研究院,、斯倫貝謝劍橋研發(fā)中心以及英國國家海洋研究中心實(shí)習(xí),,2012年10月入職中國石油大學(xué)(北京),2013年6月入選學(xué)校“青年拔尖人才”,,并晉升為副教授,。為歐洲地球物理學(xué)家與工程師學(xué)會(huì)EAGE會(huì)員、EAGE北京分會(huì)秘書長(zhǎng),、美國勘探地球物理學(xué)會(huì)SEG會(huì)員,、SEG大學(xué)與學(xué)生委員會(huì)CUSP委員會(huì)委員。
聯(lián)系方式
Email: [email protected] 辦公電話:010-89731581
通訊地址:北京市昌平區(qū)府學(xué)路18號(hào)中國石油大學(xué)(北京)102249
教育背景
2002.9-2006.6 北京大學(xué)地球物理系獲學(xué)士學(xué)位
2006.9-2007.12 北京大學(xué)地球物理系碩士項(xiàng)目學(xué)習(xí)
2007.10 獲英國工程與物理研究理事會(huì)頒發(fā)的Dorothy Hodgkin Postgraduate Awards
2008.1-2012.2 英國劍橋大學(xué)地球科學(xué)系獲博士學(xué)位
獎(jiǎng)勵(lì)和榮譽(yù)
2007.10 獲英國工程與物理研究理事會(huì)頒發(fā)的Dorothy Hodgkin Postgraduate Awards
2013.6 獲中國石油大學(xué)(北京)“青年拔尖人才”稱號(hào)
2016.11 中國石油與化學(xué)工業(yè)聯(lián)合會(huì)科技進(jìn)步二等獎(jiǎng)(排名本單位第5)
研究方向
[1]巖石物理與地震波正反演
[2]多尺度構(gòu)造地震建模與成像
[3]地下空間探測(cè)與流體檢測(cè)
學(xué)術(shù)兼職
[1] 《Geophysical Prospecting》副主編
[2] 《Exploration Geophysics》副主編
[3] 《石油科學(xué)通報(bào)》副主編
科研項(xiàng)目
共主持國家級(jí),、省部級(jí)科研項(xiàng)目3項(xiàng),,校級(jí)科研項(xiàng)目2項(xiàng),參與國家級(jí),、省部級(jí)科研項(xiàng)目5項(xiàng),,包括國家973項(xiàng)目子課題1項(xiàng)、中石油十三五子課題1項(xiàng),、中石油十二五項(xiàng)目子課題2項(xiàng),、國家自然科學(xué)基金項(xiàng)目2項(xiàng)。
主持項(xiàng)目:
⑴ 《致密砂巖多頻段巖石物理特征與流體檢測(cè)應(yīng)用》(41774143),,2018.1-2021.12,,自然科學(xué)基金(面上)項(xiàng)目,主持
⑵ 《儲(chǔ)層巖石實(shí)驗(yàn)室地震頻段測(cè)試與分析》,2016.10-2017.9,中石化橫向項(xiàng)目
⑶ 《蘇門答臘俯沖帶分段邊界弧前區(qū)的精細(xì)結(jié)構(gòu)研究》(41304042),,2014.1-2016.12,,自然科學(xué)基金(青年)項(xiàng)目,主持
⑷ 《蘇門答臘俯沖帶地震斷層分段機(jī)理研究》,,2014.1-2016.12,,教育部留學(xué)歸國人員啟動(dòng)基金,主持
⑸ 《非均質(zhì)巖石中彈性波傳播的跨頻段實(shí)驗(yàn)?zāi)M與理論研究》(2462013BJRC004),,2013.7-2016.6,,中國石油大學(xué)(北京)拔尖人才基金,主持
⑹ 《蘇門答臘俯沖帶地震斷層分段機(jī)理研究》(YJRC-2013-33),2013.1-2015.12,,中國石油大學(xué)(北京)引進(jìn)人才基金,,主持
參與項(xiàng)目包括:
《深層溫壓條件下非均質(zhì)巖石中多頻段彈性波傳播》(2013CB228601),2013-2017,,國家重點(diǎn)基礎(chǔ)研究發(fā)展規(guī)劃973項(xiàng)目《深層油氣藏地球物理探測(cè)的基礎(chǔ)研究》(2013CB228600)子課題,
《物探新方法新技術(shù)研究》子課題《復(fù)雜介質(zhì)地震巖石物理分析》,,2013-2015,,中石油集團(tuán)公司十二五計(jì)劃項(xiàng)目
《物探新方法新技術(shù)研究》子課題《非均質(zhì)儲(chǔ)層低頻地震響應(yīng)特征研究及應(yīng)用》、還是《非均質(zhì)儲(chǔ)層全頻帶地震巖石物理分析方法研究及應(yīng)用》,,2011-2013,,中石油集團(tuán)公司十二五計(jì)劃項(xiàng)目
《低頻地震巖石物理系統(tǒng)測(cè)試與理論研究》,2017-2018,,中國石油化工股份有限公司勝利油田分公司物探研究院勘探開發(fā)項(xiàng)目,,合同編號(hào):30200020-17-ZC0607-0003
《深層非常規(guī)能源物探新方法新技術(shù)》子課題《深層致密砂巖儲(chǔ)層巖石物理實(shí)驗(yàn)測(cè)量與分析》,2017.4 -2018.9,,中石油集團(tuán)公司十二五計(jì)劃項(xiàng)目,,合同編號(hào):
代表性論文
[1] Tang GY, Guo FH, Wang SX, et al., An upscaling numerical modeling of the squirt flow mechanism and effects of microcrack properties. Exploration Geophysics, 2021 (in press)
[2] Han X, Wang SX , Tang GY, Dong CH,He YH,,Liu T,,Zhao LM,Sun C , et al., Coupled effects of pressure and frequency on velocities of tight sandstones saturated with fluids: measurements and rock physics modelling[J]. Geophysical Journal International, 226(2), 1308–1321,2021(通訊作者)
[3] Sun C, Tang GY, Fortin J., Borgomano J. V. M. & Wang SX. Dispersion and Attenuation of Elastic Wave Velocities: Impact of Microstructure Heterogeneity and Local Measurements. Journal of Geophysical Research: Solid Earth, 125(12), e2020JB020132,2020(共同通訊)
[4] 唐跟陽,,董春暉,,王尚旭,曾心 ,,任保德,,基于差異共振聲譜儀多階共振模式的彈性模量頻散測(cè)量,石油科學(xué)通報(bào),,5(4),,483-495,2020
[5] Liang J , Mueller T M , Tang GY , et al. Compensating elastic transmission losses for P-wave attenuation estimation from sonic logs. Geophysical Prospecting, 67(4):969-983,2019
[6] Meng X, Wang S, Tang G, et al. Stochastic parameter estimation of heterogeneity from crosswell seismic data based on the Monte Carlo radiative transfer theory. Journal of Geophysics & Engineering, 2017, 14(3):621-633.(SCI,,通訊作者)
[7] Meng X, Wang S, Tang G, et al. Monte-Carlo radiative transfer simulation of acoustic waves in two-dimensional random media and its application. Petroleum Science Bulletin, 2017.
[8] Li J, Wang S, Yang D, et al. Subsurface attenuation estimation using a novel hybrid method based on FWE function and power spectrum[J]. Exploration Geophysics, 2017.(SCI,,通訊作者)
[9] Tang, G.*, P. J. Barton, L. C. McNeill, T. J. Henstock, F. Tilmann, S. M. Dean, M. D. Jusuf, Y. S. Djajadihardja, H. Permana, F. Klingelhoefer, and H. Kopp, 3-D active source tomography around Simeulue Island offshore Sumatra: Thick crustal zone responsible for earthquake segment boundary, Geophysical Research Letters, v. 40, pp. 48–53, 2013. (SCI一區(qū),第一作者,、通訊作者)
[10] Tang, G., Barton, P. J., Dean, S. M., Vermeesch, P. M., Jusuf, M. D., Henstock, T., Djajadihardja, Y., McNeill, L. C., Permana, H., 3-D Seismic Tomographic Inversion to Image Segmentation of the Sumatra Subduction Zone near Simeulue Island, Eos, Transactions of the American Geophysical Union, Fall Meeting Supplement, 90(52), 2009.
[11] Tang, G., Barton, P., Dean, S., Vermeesch, P., Jusuf, M. D., Henstock, T., Djajadihardja, Y. S., McNeill, L., Permana, H., 3-D Refraction Tomography in the Sumatra Subduction Zone,Eos, Transactions of the American Geophysical Union, Fall Meeting Supplement, 89(53), 2008.
[12] Zhao L, Tang G Y, Dong C H, et al. Effect of Strain-Gage-scale Inhomogeneity on Measuring Young's Modulus at Low Frequency. EAGE Conference and Exhibition. 2017.
[13] Sun C, Tang G Y, Dong C H, et al. Fluid Saturation Effect on the Characteristic Frequency and Attenuation of Tight Sandstone. EAGE Conference and Exhibition. 2017.
[14] Liang J, Müller T M, Tang G, et al. Towards Developing a Robust Q-extraction Method from Full-Waveform Acoustic Logs. EAGE Conference and Exhibition. 2017.
[15] Yin H, Zhao J, Tang G, et al. Pressure and Fluid Effect on Frequency Dependent Elastic Moduli in Fully Saturated Tight Sandstone. Journal of Geophysical Research Solid Earth, 2017. (SCI二區(qū))
[16] Dong C, Tang G, Wang S, Y He. Numerical simulation and analysis for low frequency rock physics measurements. Journal of Geophysics & Engineering, 2017, 14(5). (SCI)
[17] Yin H, Zhao J, Tang G, et al. Numerical and experimental investigation of a low-frequency measurement technique: differential acoustic resonance spectroscopy. Journal of Geophysics & Engineering, 2016, 13(3):342-353. (SCI)
[18] 未晛,王尚旭,趙建國,唐跟陽,,鄧?yán)^新.含流體砂巖地震波頻散實(shí)驗(yàn)研究.地球物理學(xué)報(bào), 2015, 58(9):3380-3388.(SCI)
[19] Tang G., J. Zhao, X. Tong, and S. Wang, Estimating Compressibility and Density of Oil-Saturated Rock Samples Using Higher Order Resonance Modes of DARS, EAGE Expanded Abstract, 2013.
[20] J. Zhao, G. Tang, J. Deng, X. Tong, and S. Wang, Determination of rock acoustic properties at low frequency: A differential acoustical resonance spectroscopy device and its estimation technique, Geophysical Research Letters, v. 40, pp. 1-8, 2013. (SCI 二區(qū))
[21] Deng J, Wang S, Tang G, et al. The influence of mesoscopic flow on the P-wave attenuation and dispersion in a porous media permeated by aligned fractures. Studia Geophysica Et Geodaetica, 2013, 57(3):482-506. (SCI)
[22] Dong C, Wang S, Zhao J, Tang G. Numerical experiment and analysis of the differential acoustic resonance spectroscopy for elastic property measurements. Journal of Geophysics & Engineering, 2013, 10(5):054002. (SCI)
[23] Chai X, Tang G, Peng R, et al. The Linearized Bregman Method for Frugal Full-waveform Inversion with Compressive Sensing and Sparsity-promoting. Pure & Applied Geophysics, 2017:1-17. (SCI)
[24] Chai X, Wang S, Tang G. Sparse reflectivity inversion for non-stationary seismic data with surface-related multiples: Numerical and field data experiments. Geophysics, 2017:1-125. (SCI)
[25] Chai X, Wang S, Tang G, et al. Stable and efficient Q -compensated least-squares migration with compressive sensing, sparsity-promoting, and preconditioning. Journal of Applied Geophysics, 2017, 145. (SCI)
[26] Yang J, Tao L, Tang G, et al. Modeling seismic wave propagation within complex structures. 應(yīng)用地球物理(英文版), 2009, 6(1):30-41. (SCI)
