王勃(1984.12),男,安徽安慶人,博士後,副研究員,安徽省會“百人計畫”創新型領軍人才;岩土工程、建築與土木工程、地球物理學、地球探測與信息技術專業碩士生導師;美國地球物理學會(SEG)會員;教育部學位與研究生教育發展中心通訊評議專家;《Journal of Applied Geophysics》等國外SCI期刊審稿專家。主要從事捷運、隧道及礦井等領域地球物理勘探方面的研究和教學工作。
主持國家自然科學基金項目1項、國家重點實驗室基金項目1項、中央高校重大項目培育專項基金項目1項及青年項目1項,負責國家科技重大專項子課題1項、國家自然科學基金重點基金子課題1項、國家自然科學基金優秀國家重點實驗室研究子課題1項、雙一流建設自主創新專項項目子課題,參與國家自然科學基金重點項目2項;主持完成中鐵上海設計院、招商局重慶交通科研設計院、中鐵隧道集團、黃河勘測規劃設計研究院、神華集團、中煤集團、山西五大煤礦集團等委託橫向課題31項。
近年來,發表SCI論文13篇、EI論文14篇;制定國家行業標準3項;授權國家發明專利7項,國際PCT 1項,實質審查中的國際發明專利(澳大利亞)1項、中國發明專利10項;主編專著1部,參編教材2部,參編專著2部;受邀前往美國、日本等國參加學術交流,並獲得1項MITSUI MATASUSHIMA AWARD國際學術獎;獲中國煤炭工業協會一等獎1項,山西省科技進步二等獎1項,綠色礦山科學技術獎一等獎,中國科協二等獎1項,山西省科技進步三等獎1項。
基本介紹
- 中文名:王勃
- 國籍:中國
- 職業:高校教師
- 畢業院校:中國礦業大學
代表性研究成果和學術獎勵情況
一、論文27篇,其中SCI檢索13篇,EI檢索14篇
[1] Diffraction Characteristics of Small Fault ahead of tunnel face in coal roadway [J]. Earth Sciences Research Journal, 2017, 21(2):95-99.
[2] A Review of Geophysical Exploration Technology for Mine Water Disaster in China: Applications and Trends[J]. Mine Water and the Environment, 2017, 36(3):331-340.
[3] Double-transmitting and Sextuple-receiving Borehole Transient Electromagnetic Method and Experimental Study[J]. Earth Sciences Research Journal, 2017, 21(2):77-83.
[4] Experimental study on mechanical and porous characteristics of limestone affected by high temperature[J]. Applied Thermal Engineering, 2017, 110: 356-362.
[5] Pore characteristics and mechanical properties of sandstone under the influence of temperature[J]. Applied Thermal Engineering, 2017, 113:537-543.
[6] Quantitative Calculation of Aquifer Water Quantity Using TEM Data [J]. Earth Sciences Research Journal, 2017, 21(1):51-56.
[7] Experimental study on the thermal damage characteristics of limestone and underlying mechanism[J]. Rock Mechanics and Rock Engineering, 2016, 49: 2999-3008.
[8] Polarization Migration of Three-component Reflected Waves under Small Migration Aperture Condition[J]. Acta Geodynamica et Geomaterialia, 2016, 13(1): 1–12.
[9] Dispersion Characteristics of SH Transmitted Channel Waves and Comparative Study of Dispersion Analysis Methods[J]. Journal of Computational and Theoretical Nanoscience, 2016, 13(2): 1468–1474.
[10] Geoelectric response of porous media in water and grout injection processes [J]. Journal of Central South University, 2014, 12(12): 4640−4645.
[11] Modifications to the GSI for granite in drilling[J]. Bulletin of Engineering Geology & the Environment, 2014, 73(4), 1245-1258.
[12] Electrical Monitoring Criterion for Water Flow in Faults Activated by Mining [J]. Mine Water and the Environment, 2012, 31(3):172-178.
[13] Composite Advanced Detection for Coal Seam Thickness in Coal Roadway [J]. Petroleum Engineering Journal, 2015, 8(1): 153-157.
[14] Fine analysis on advanced detection of transient electromagnetic method [J]. International Journal of Mining Science and Technology, 2012, 22(3):925–931.
[15] Advanced forecast of coal seam thickness variation by integrated geophysical method in the laneway [J]. Procedia Engineering, 2011, 26: 335-342.
[16] Advanced prediction for multiple disaster sources of laneway under complicated geological conditions [J]. Mining Science and Technology, 2011, 21(5): 749–754.
[17] Coal Seam Thickness Detection in Mine Roadway by using Advanced Prediction Method[J]. Electronic Journal of Geotechnical Engineering, 2014, 19(T): 4753-4763.
[18] Fine analysis on advanced detection of transient electromagnetic method [J]. International Journal of Mining Science and Technology, 2012, 22(3):925–931.
[19] Advanced forecast of coal seam thickness variation by integrated geophysical method in the laneway [J]. Procedia Engineering, 2011, 26: 335-342.
[20] Advanced prediction for multiple disaster sources of laneway under complicated geological conditions[J]. Mining Science and Technology, 2011, 21(5): 749–754.
[21] Characteristic of geological anomaly detected by combined geophysical methods in a deep laneway of coal mine [J]. Procedia Earth and Planetary Science, 2009, 1(1) : 936-942.
[22]基於位姿測量與煤層DEM的採煤機滾筒自動調高方法[J].煤炭學報,2015,40(2):470-475.
[23]采動過程中頂板圍岩水滲流自然電位回響特徵[J].煤炭學報,2013,38(6):1031-1037.
[24]采動條件下一次場電位對地下水滲流回響的定量研究[J].採礦與安全工程學報,2013,30(5):748-755.
[25]砂岩地層滲流過程非飽和厚度變化的地電測試[J].岩土工程學報,2013,35(7):1350-1354.
[26]煤層圍岩破裂過程中的自然電位回響[J].煤炭學報,2013,38(1):50-54.
[27]基於地下水滲流中地電場回響的礦井水害預警試驗研究[J].岩石力學與工程學報,2009,28(2):267-272.
二、專著
[1]採煤掘進工作面超前極化偏移成像技術[M].中國礦業大學出版社,180千字,2014.
[2]礦井地震方法與技術[M].中國礦業大學出版社,362千字,2016.
[3]地球物理勘查儀器與設備(地震勘查儀器與設備)[M].中國礦業大學出版社,800千字,2012.
[4]工作面底板突水機理及遠程監控技術[M].中國礦業大學出版社,2011.
三、授權發明專利和編制標準、規範
1、發明專利
(1)collapse column detection method using diffraction wave,PCT/CN2016/083990,國際PCT.
(2)基於反射槽波信號的煤巷超前探測斷層方法,2015.9.9,中國,ZL201310124467.2.
(3)基於單一炮檢對觀測系統的煤巷超前探測斷失翼煤層的方法,2015.7.15,中國,ZL201310123575.8.
(4)基於地震信號的低抽巷道超前探測斷層落差方法,2015.6.10,中國,ZL201310124782.5.
(5)一種基於繞射波的回採工作面小型陷落柱探測方法,2017.10.27,中國,ZL201610323984.6.
(6)一種突出煤層巷道小斷層超前定性預報方法,2018.8.2,中國,ZL201610316770.6.
(7)一種三因素影響作用下的煤樣超音波主頻探測裝置及方法,中國,發明專利申請號201610324295.7.
(8)一種基於反射信號的巷道超前探測速度建模方法,2018.6.21.中國,ZL201610321726.4.
(9)一種基於多場耦合的煤樣橫波波速探測裝置及方法,中國,發明專利申請號201610324336.2.
(10)一種基於CO2炮的礦井地震超前探測方法,中國,發明專利申請號201811062871.0.
(11)一種真三軸氣液固耦合煤樣波速各向異性探測裝置及方法,中國,發明專利申請號201811063477.9.
(12)一種能精確定位CO2炮位置的工作面地震探測方法,中國,發明專利申請號201811066584.7.
(13)一種氣固熱耦合的煤岩體滯彈性各向異性探測裝置及方法,中國,發明專利申請號201811063469.4.
(14)一種用於高瓦斯礦井的地震透射槽波勘探方法,中國,發明專利申請號201811061977.9.
(15)一種真三軸氣固耦合煤樣滯彈性各向異性探測裝置及方法,中國,發明專利申請號201811061992.3.
(16)一種以CO2炮為震源的工作面側幫地震探測方法,中國,發明專利申請號201811061994.2.
(17)一種氣固耦合的煤樣波速各向異性探測裝置及方法,中國,發明專利申請號201811063476.4.
(18)瓦斯煤水力壓裂裂隙場時空監測裝置及方法,2017.2.1.中國,ZL201410284933.8.
(19)一種煤層水力壓裂效果時空評價方法,2017.1.25.中國,ZL201410283307.7.
(20)collapse column detection method using diffraction wave,申請號2016407579,國際專利(澳大利亞).
2、中華人民共和國能源行業標準
[1]煤礦掘進巷道地震反射(槽)波超前探測方法,國家能源局,中國人民共和國能源行業標準,NB/T 51034-2015,2015.
[2]回採工作面煤層槽波地震探測方法,國家能源局,中國人民共和國能源行業標準,NB/T 51035-2015,2015.
[3]煤礦地震透射圍岩檢測方法,國家能源局,中國人民共和國能源行業標準,NB/T 51037-2015,2015.
四、會議特邀學術報告
[1] Advanced Geological Prediction Based on Integrated Geophysical Method, 13th International sym1posium on earth science and technology, Fukuoka, Japan, 3-4 December 2015.
[2] Goaf water quantity estimation by Mine Transient Electromagnetic Method, SEG 2015 International Exposition and 85th Annual Meeting, New Orleans, USA, 18-23 October 2015.
[3] Study on Aquifer Water Content Estimation by Transient Electromagnetic Method, 12th International Mine Water Association Congress, Xuzhou, CHINA, 18-20,August,2014.
五、獲得學術獎勵
[1] Advanced Geological Prediction Based on Integrated Geophysical Method, Cooperative International Network for Earth Science and Technology, MITSUI MATASUSHIMA AWARD, Japan, 2015.
[2]煤與瓦斯突出綜合防治新技術研究,中國煤炭工業協會科技進步一等獎,2016.
[3]煤礦突出危險煤層區域水力消突新技術與套用,綠色礦山科學技術獎一等獎,2017.
[4]陽泉礦區煤與瓦斯突出綜合防治技術研究,山西省科技進步二等獎,2017.
[5]中國科協第二屆TRIZ創新方法大賽二等獎,2017.
[6]新景礦突出煤層掘進巷道瓦斯超前探測技術研究,山西省科技進步三等獎,2018.
[7]突出煤層掘進巷道瓦斯超前探測技術研究,中國煤炭工業協會科技進步三等獎,2017.
[8]基於創新能力培養的《礦井地球物理勘探》課程教學改革與實踐,中國礦業大學優秀教學成果二等獎,2016.
