Edinburgh Research Explorer

Dr Chang Liu

Lecturer in Electronic Engineering

Profile photo
Phone: +44 (0)131 650 2563

Willingness to take Ph.D. students: Yes

Education/Academic qualification

Doctor of Philosophy (PhD), Beihang University
Laser absorption spectroscopy tomography and monitoring of combustion process
Bachelor of Science, Tianjin University
Numerical simulation of appearance of gas-liquid two-phase vortex street in the vertically upward pipeline

Area of Expertise

Research expertiseCutting-edge laser-based sensing solutions, Hard-field tomography towards customised spatial/temporal resolution, Sensor design for ultra-weak optical and electrical signals detection, Embedded system design and hardware/software interface

Biography

Dr Chang Liu received the B.Sc. degree in automation from Tianjin University, China, in 2010, and the Ph.D. degree in testing, measurement technology and instrument in Beihang University, China, in 2016. From April 2016 to January 2018, he was a postdoctoral researcher in the department of air pollution and environmental technology, Empa-Swiss Federal Laboratories for Materials Science and Technology (ETH Domain), Dübendorf, Switzerland. He is now a lecture in the Agile Tomography Group at the School of Engineering, University of Edinburgh.

Dr Liu’s current research interests include laser absorption spectroscopy (LAS), LAS tomography, and their applications to reacting flow-fields diagnostics and environmental monitoring. His expertise is in opto-electronic and opto-mechanical design of near/mid infrared LAS sensing systems, and development of high-sensitivity LAS tomographic methodologies. It covers fundamental LAS modeling, inverse problem solving, signal processing, embedded system and hardware/software interface design. In collaboration with worldwide industrial and academic partners, Dr Liu and his team focus on providing cutting-edge laser-based sensing solutions for various challenging problems in both the industry and academia.

Research Interests

• Laser absorption spectroscopy (LAS)
    o Direct absorption spectroscopy
    o Wavelength modulation spectroscopy
    o LAS tomography
• Reacting flow-fields diagnostics
    o Real-time and in situ combustion monitoring
    o Laser-based measurement in harsh environment (e.g. gas turbine, IC engine and power plant)
• Environmental monitoring
    o Field-deployable trace gas sensing
    o Spatially/temporally resolved pollutant monitoring
    o Simultaneous analysis of multiple gases at ppm/ppb level
• Inverse problem
    o Image reconstruction algorithms
    o Regularisation methods

Research Groups

Agile Tomography Group

ID: 54036170