Introduction

Technical job

• Professor, doctoral supervisor [1]

Administrative duties

• Deputy Director of the Institute of Electrical Technology;

• Director of Oilfield Electrical Engineering Research Center;

• Deputy Director of Energy-saving Lighting Technology Research Institute

Work study resume

• 1987.9～1991.7, Bachelor of Testing Technology and Instrument, Southeast University;

• 1991.7～1995.8, laboratory assistant/assistant of Electronic Measurement Technology Laboratory, Shenyang Institute of Technology;

• 1995.9～1998.7, Master of Electromagnetic Measurement Technology and Instrument, Tsinghua University;

• 1998.9～2001.6, Ph.D., Nuclear Electronics and Detection Technology, Tsinghua University;

• 2001.9～2003.8, Department of Mechanical Engineering, Tsinghua University, Postdoctoral Fellow/Research Assistant;

• 2003.9～present, Department of Electrical Engineering, Tsinghua University / Research Assistant, Associate Professor, Professor

Teaching situation

Undergraduate courses

• Circuit Principles, starting from 2007, every fall semester, 64 class hours each time, undergraduate students of the School of Information;

• Fundamentals of Virtual Instruments, five sessions from 2004 to 2008, every fall semester, 32 class hours each, undergraduate students in the school;

• Laboratory research and inquiry course: virtual instrument technology, three sessions from 2007 to 2009, every autumn semester, 32 class hours each time, undergraduate students of the whole school.

Graduate courses

• LabVIEW programming technology and virtual instrument design, five sessions from 2004 to 2008, every spring semester, 32 class hours each, graduate students in the school;

• Magnetic physics and electromagnetic inspection, starting from 2006, every autumn semester, 16 class hours each time, all graduate students in the school.

Research overview

Rsearch direction

• Structural health monitoring;

• Non-destructive testing and evaluation;

• Electromagnetic measurement and virtual instrument [1]

• Online detection of oil and gas pipeline defects

• Magnetic flux leakage detection

• Electromagnetic ultrasonic guided wave testing

• Eddy Current Testing

Academic part-time

• National Science and Technology Award Evaluation Expert;

• Member of the National Nondestructive Testing Instrument Standardization Technical Committee;

• Member of the editorial board of the journal «NDT»;

• «China Test» magazine editorial board;

• Executive Director of China Society for Nondestructive Testing;

• Member of the Electromagnetic (Eddy Current) Special Committee of China Society for Nondestructive Testing;

• Member of China Nondestructive Testing Education and Training Popular Science Working Committee;

• Senior member of Chinese Mechanical Engineering Society;

• IEEE member;

• Member of the Stress and Strain Testing Committee of China Society for Nondestructive Testing;

• External expert of China Petroleum and Natural Gas Pipeline Bureau;

• Member of the Organizing Committee of China Nondestructive Testing Higher Education Development Forum.

Main result

Undertook the development and research of "High-Definition Oil and Gas Pipeline Corrosion Detector", a key scientific and technological project of the "Tenth Five-Year Plan" of China National Petroleum Corporation, completed the pipeline inspection data analysis expert system, and proposed a new method for the quantification of pipeline corrosion defect magnetic flux leakage detection; completed The series development of high-definition detectors for oil and gas pipelines. At present, this series of detectors has been used in the detection of my country's "West-East Gas Transmission" pipelines.

The research on pulsed eddy current testing methods has been carried out, and some achievements have been made in sensor design, quantitative detection of crack defects, and suppression of probe lift-off effect, and a portable pulsed eddy current testing instrument has been successfully developed.

A magnetic flux leakage detector for large-scale storage tank floor defects has been successfully developed, which has been applied to industrial production.

The electromagnetic ultrasonic guided wave defect detection equipment was successfully developed and commercialized.

He has published more than 100 papers, of which more than 30 were retrieved by SCI, more than 40 by EI, and more than 10 by ISTP. He has obtained 12 national invention patents and 3 utility model patents.

In 2009, won the second prize of the Ministry of Education's Science and Technology Progress Award.

In 2009, won the first prize of scientific and technological progress in China's petroleum and chemical industry automation industry.

In 2010 State Grid Corporation Science and Technology Progress Second Prize Won the third prize of China Electric Power Science and Technology Award.

In 2010, won the third prize of Sichuan Science and Technology Progress Award.

In 2010, won the third prize of the National Energy Science and Technology Progress Award.

In 2011, won the second prize of China Petroleum and Chemical Industry Federation Science and Technology Progress Award Participated in the compilation of the large-scale professional reference book "China Electrical Engineering Ceremony"

Editor-in-chief of the national "Eleventh Five-Year" planning textbook "Virtual Instrument Design Basic Course"

Mature product

• High Definition Detector for Corrosion Defects in Oil and Gas Pipelines

• The high-definition detector completed by modern electromagnetic detection technology has more than 800 sensors, which can collect the corrosion information of the pipeline and the status information of the detector. Through the data analysis expert system software, the automatic analysis and processing of the detection data can be realized, and the welding seam identification can be completed. , defect quantification, pipeline wall thickness identification, etc., and finally give pipeline safety assessment. Has been applied to the "West-East Gas Transmission" pipeline detection.

Large Tank Floor Defect Detector

• The magnetic flux leakage detection technology is used to realize the high-definition detection of the defects of the tank bottom plate. The detector is divided into two types: 36-channel and 18-channel (product model: Mscan-1 type; Mscan-2 type); two working modes of motor drive or manual detection. Already used in industrial production

Portable Pulse Eddy Current Tester

• It can realize the detection of surface cracks of conductive materials. The probe has a strong ability to suppress the lift-off effect, and cracks in all directions can be found in one scan. Has been applied to inspection engineering.

Magnetic memory detector

Using the magnetic memory effect to detect stress concentrations and active defects in in-service ferromagnetic components. Has been used in railways, power plants and other industries.

Electromagnetic ultrasonic guided wave testing equipment

The electromagnetic ultrasonic guided wave inspection equipment developed by Tsinghua University can quickly scan the defects of steel plates and steel pipes. It is a device that meets both the needs of electromagnetic ultrasonic guided wave laboratories and engineering applications, especially for university users. And detection data source files, which can be convenient for university teachers and students to use in scientific research. Main indicators when equipped with pipeline axial guided wave detection probe: 1. Can generate L-mode and T-mode pipeline axial guided waves 2. The detection range can reach 30 m 3. It can detect independent corrosion pits and circumferential cracks (both internal and external wall defects can be detected ) 4. The cross-sectional area of ​​the smallest defect that can be detected is less than 2% of the cross-sectional area of ​​the pipeline. 5. The axial positioning error is less than ±6 cm. Main indicators when equipped with a flat-plate guided wave detection probe: 1. Lamb wave mode and SH wave mode can be generated 2. The detection distance reaches 3 m 3. Independent corrosion pits and transverse cracks can be detected 4. The maximum detection plate thickness is 20mm 5. The minimum corrosion defect can be detected 3t×3t×0.2t (deep); the minimum crack can be detected 3t (length) × 0.2t (depth), t is plate thickness 6. Positioning error < ±5 cm It has been used in power plants, oil fields, petrochemicals and other units.

Personal honor

Scientific research achievement awards

• 2014 First Prize of Beijing Science and Technology Award

• 2014 China Patent Excellence Award of China Intellectual Property Office

• 2013 Ministry of Education Technology Invention Second Prize

• 2013 China Industry-University-Research Cooperation Innovation Achievement Award

• 2012 China Machinery Industry Federation China Machinery Industry Science and Technology Second Prize

• 2010 Second Prize of Science and Technology Progress of State Grid Corporation of China

• 2009 Second Prize of Science and Technology Progress of the Ministry of Education

• In 2009, the first prize of scientific and technological progress in China's petroleum and chemical automation industry

Teaching Achievement Award

• 2014 Tsinghua University Teaching Achievement First Prize.

• As the first author, he has published 4 monographs and more than 200 papers, of which more than 40 are indexed by SCI and more than 90 are indexed by EI.

Scientific research achievements

Focus on

1. Songling Huang, Jing Wu . Basic Tutorial of Virtual Instrument Design, Tsinghua University Press, September 2008.
2. Wei Zhao , Songling Huang,Yifei Hu , Haiming Shao,Xue Wang, China Electrical Engineering Encyclopedia, Vol. 1, Chapter 4, China Electric Power Press, January 2009.
3. Songling Huang. Theory and application of magnetic flux leakage internal detection for oil and gas pipeline defects, Machinery Industry Press, September 2013
4. Songling Huang, Shen Wang, Wei Zhao. Theory and Application of Electromagnetic Ultrasonic Guided Waves, Tsinghua University Press, October 2013.
5. Songling Huang. New Technology of Electromagnetic Nondestructive Testing, Tsinghua University Press, January 2014.

Selected Papers in International Journals (since 2010)

1. Yu Zhang, Shen Wang,Songling Huang, Wei Zhao. Mode Recognition of Lamb Wave Detecting Signals in Metal Plate Using the Hilbert-Huang Transform Method. Journal of Sensor Technology, v5n2 p7-14, March, 2015
2. Shen Wang, Songling Huang, Wei Zhao, Zheng Wei. 3D modeling of circumferential SH guided waves in pipeline for axial cracking detection in ILI tools. Ultrasonics, v56n2 p325-331, March, 2015
3. Junjie Chen, Songling Huang, and Wei Zhao. Equivalent MFL Model of Pipelines for 3-D Defect Reconstruction Using Simulated Annealing Inversion Procedure. International Journal of Applied Electromagnetics and Mechanics, v47n15 p551-561, 2015
4. Songling Huang, Zheng Wei, Wei Zhao, et al. A New Omni-Directional EMAT for Ultrasonic Lamb Wave Tomography Imaging of Metallic Plate Defects. Sensors, v 14 n2 p 3458-3476, February, 2014
5. Songling Huang, Zheng Wei, Wei Zhao, et al. A Large Ratio Data Compression Method for Pipeline inspection based on EMAT-generated Guided Wave. International Journal of Applied Electromagnetics and Mechanics,v 45n14 p511-517 , 2014
6. Junjie Chen, Songling Huang, Wei Zhao and Shen Wang. Reconstruction of 3-D defect profiles from MFL signals using radial wavelet basis function neural network. International Journal of Applied Electromagnetics and Mechanics, v45n14 p465-471, 2014
7. Junjie Chen, Songling Huang, and Wei Zhao. Three-dimensional Defect Reconstruction from Magnetic Flux Leakage Signals in Pipeline Inspection based on a Dynamic Taboo Search Procedure. Insight-Non-Destructive Testing and Condition Monitoring, v56n10 p535-540, 2014
8. Junjie Chen, Songling Huang, and Wei Zhao. Three-dimensional defect inversion from magnetic flux leakage signals using iterative neural network. IET Science, Measurement and Technology. DOI: 10.1049/iet-smt.2014.0173. [1]

Selected International Conference Papers (since 2010)

1. Junjie Chen, Songling Huang, and Wei Zhao. Three-axial MFL inspection in pipelines for defect imaging using a dynamic inversion procedure. the 10th European Conference on Magnetic Sensors and Actuators. July6-9,2014, Vienna, Austria: 242.
2. Zhen Wei, Songling Huang, Shen Wang and Wei Zhao. Magnetostriction-Based Omni-Directional Guided Wave Transducer for Tomography of Steel Plate Defects. the 10th European Conference on Magnetic Sensors and Actuators. July6-9,2014, Vienna, Austria: 268.
3. Xinmeng Liu, Songling Huang, Wei Zhao and Shen Wang. Slowly Varying Defects Reconstruction from MFL Signals Using BP Neural Network Based on Bayesian Algorithm. the 10th European Conference on Magnetic Sensors and Actuators. July6-9,2014, Vienna, Austria:242
4. MingsongShao,SonglingHuang,WeiZhao.NonlinearAnalysisofaFamilyofHigh-FrequencySelf-OscillatingResonantInverters,the28thAnnualIEEEAppliedPowerElectronicsConference&Exposition, March 17-21, 2013: 2349-2354.，LongBeach,California,USA
5. Zhu Furong, Zhu Hongxiu, Wei Zheng, Huang Songling. The development of rock failure electromagnetic emission monitoring system. The 1st International Conference on Structural Health Monitoring and Integrity Management. November 25-28, 2012, Beijing,China :81-84.
6. Zhiyi Su, Songling Huang, Wei Zhao, Shen Wang, Huacheng Feng. Development of a Portable High-Precision Above Ground Marker System for an MFL Pipeline Inspector. 18th World Conference on Non Destructive Testing, April 16-20, 2012, Durban, South Africa.

Selected papers in domestic journals (since 2010)

1. Junjie Chen , Songling Huang, Wei Zhao. Research on data compression algorithm for magnetic flux leakage detection of oil and gas pipeline defects. Electrical Measurement and Instrumentation, 2014, 51(15):100-104.
2. Zheng Wei,Songling Huang , Wei Zhao,g Shen Wan. Development of an ultrasonic guided wave detection system for magnetostrictive pipe defects. Electrical Measurement and Instrumentation, 2013, 50(9):21-25.
3. Mingsong Shao, Songling Huang , Wei Zhao. Modeling and Analysis of Electrodeless Lamp System. Chinese Journal of Electrotechnical Technology, 2013, 28(4):13-19.
4. Mingsong Shao, Songling Huang, Wei Zhao. Test and Analysis of Impedance Characteristics of High Frequency Electrodeless Lamps under Steady-State Conditions. High Voltage Technology, 2013, 39(4):923-927.
5. Peng Li , Songling Huang, Shen Wang, Wei Zhao. Development of a pulse excitation power supply for electromagnetic ultrasonic testing. Electrical Measurement and Instrumentation, 2012, 49(2):76-79.
6. Yuhang Su, Jing Wu, Huacheng Feng, Songling Huang. Development of a Portable Pipeline Detector Positioning System. Nondestructive Testing, 2012,34(4): 22-25.
7. Zhiyi Su, Songling Huang, Wei Zhao, Shen Wang, Huacheng Feng. Development of surface marker for magnetic flux leakage detection of oil and gas pipeline defects. Nondestructive Testing, 2012,34(10): 16-18.
8. Huacheng Feng, Songling Huang, etc. Development of a three-dimensional magnetic flux leakage detection experimental platform. Electrical Measurement and Instrumentation, 2011, 48(4):27-29.
9. Mingsong Shao, Songling Huang, Wei Zhao, et al. Parameter optimization of electronic ballast for 2.65MHz induction lamp. Journal of Tsinghua University, 2011,51(7):928-932.
10. Songling Huang, Leyi Ge, Zhongyu Wang, Wei Zhao. Poor information material brinell hardness measurement uncertainty evaluation based on monte carlo method. Chinese Journal of Agricultural Machinery, 2011, 42(9): 225-229.