Dr. M. (Ming) Yang
Dr. M. (Ming) Yang
Profile
Biography
I am Assistant Professor of Safety and Security Science. My scientific work evolves around reliability, risk, and resilience modelling to support safety and security-related decision-making problems in the process industries and offshore operations. I hold a B.Eng in Chemical and Material Engineering and minor in Management Science, a MSc. in Environmental System Engineering, and a PhD in Oil and Gas Engineering. I am Associate Editor of ACS Journal of Chemical Health and Safety, Subject Editor of Process Safety and Environmental Protection, Safety in Extreme Environments, Editorial Board Member of Journal of Loss Prevention in the Process Industries, Engineering Applications of Artificial Intelligence, and Hygiene and Environmental Health Advances. I am listed in Top 2% Scientist Worldwide 2021, 2022, 2023 by Stanford University in the subject area of "Energy-Civil Engineering-Enabling & Strategic Technologies".
Research Interests
- Quantitative resilience modeling
- Dynamic risk assessment
- Process safety and process resilience
- Marine transportation safety
- Environmental management
Expertise
My research aims to create knowledge in two main areas: a) fundamental and conceptual knowledge of risk and resilience, risk and resilience assessment and management, b) knowledge with respect to the application of risk and resilience modelling in various areas such as oil and gas, marine transportation, construction, public security, etc. My current research topics include: a) resilience engineering of complex systems, b) dynamic risk management for process systems, c) condition monitoring-based asset integrity management, d) risk-based approaches for engineering design and operation, e) emerging process safety and security problems in the context of digitalization and energy transition.
Projects
- FUSION - Smart Sensing for Informed Maintenance & Optimized Naval Design, NWO Maritime High Tech (2022-2026)
- AmmoniaDrive- Towards Ammonia as a viable renewable shipping fuel, NWO Perspectief (2023-2027)
- Value of Safety – LRF (2021)
- Process safety and asset integrity management in the digital age – Safety and Security Institute, TU Delft (2021)
- Dynamic resilience assessment of process systems operating in harsh environments - NUFDP (2019-2021)
- Condition monitoring-based asset integrity management for process facilities in harsh environments – MoSE (2020-2022)
- Risk-based inspection and maintenance for process facilities - NUSPG (2017-2018)
- Testing and validating for assets operating in harsh environments - ABS (2012-2013)
- Risk-based winterization - ABS (2013-2014)
- Scenario-based risk management of Arctic shipping - LRF (2015-2019)
- Dynamic risk assessment of process operations - Vale (2010-2015)
- Safe and sustainable operation of offshore oil and gas operations – NSERC STG (2008-2011)
- Development of dynamic operational risk management tool for processing system – NSERC CRD (2013-2015)
Expertise
Publications
-
2025
A Monte Carlo-based modeling method for the spatial-temporal evolution process of multi-hazard and higher-order domino effect
Weikai Ma / Yanfu Wang / Peijie Xing / Ming Yang
-
2024
A Multidisciplinary Review Into the Evolution of Risk Concepts and Their Assessment Methods
Yuanyuan Xu / Genserik Reniers / Ming Yang
-
2024
A simulation-based approach for resilience assessment of process system
A case of LNG terminal system
Hao Sun / Ming Yang / Enrico Zio / Xinhong Li / Xiaofei Lin / Xinjie Huang / Qun Wu -
2024
An Integrated Technical and Societal Risk Index for Ranking Major Accident Risks in Chemical Process Industries
Y. Xu / S. Yuan / G.L.L.M.E. Reniers / M. Yang
-
2024
An integrated approach to quantitative resilience assessment in process systems
Hao Sun / Ming Yang / Haiqing Wang
-
Prizes
-
2022-7
UTM (University Technology Malaysia) Research Fellow
-
2022
Innovation in Transport Applications, European Safety and Reliability Conference
European Safety and Reliability Conference 2022 -
2021-1
Adjunct Senior Researcher
National Centre for Maritime Engineering and Hydrodynamics, University of Tasmania