Xiaoming Gao
University of Malaya
13 Papers
7 Citations
Xiaoming Gao is an academic researcher from University of Malaya. The author has contributed to research in topics: Inherent safety & Computer science. The author has an hindex of 3, co-authored 6 publications. Previous affiliations of Xiaoming Gao include Hebei University of Engineering.
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Papers
Review on the Inherently Safer Design for chemical processes: Past, present and future
Xiaoming Gao,Abdul Aziz Abdul Raman,Hanee F. Hizaddin,Mustapha Mohammed Bello,Archina Buthiyappan +4 more
TL;DR: In this paper, the development spectrum of inherent safety with a primary focus on the ISMs in chemical processes is investigated, which are largely characterized by proactive and simultaneous augmentation in safety, health, environment, and economic performance.
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Inherent health oriented design for preventing sick building syndrome during planning stage
Xiaoming Gao,Zakiah Mat Jali,A.R. Abdul Aziz,Hanee F. Hizaddin,Archina Buthiyappan,J. Jewaratnam,Mustapha Mohammed Bello +6 more
TL;DR: This work investigated the feasibility of addressing SBS via Inherent Health Oriented Design (IHOD) and developed SBS Contributory Indices (SBSCI) for quantifying the sickness severity and presented a nexus study between the implications of "inherent" solutions and healthy buildings.
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Systematic inherent safety and its implementation in chlorine liquefaction process
Xiaoming Gao,Abdul Aziz Abdul Raman,Hanee F. Hizaddin,Archina Buthiyappan,Mustapha Mohammed Bello +4 more
TL;DR: The results show that the SISM value has improved from the relatively dangerous (RD) to the relatively safe (RS) after implementing SIS, thus demonstrating that the revised design is inherently safer than the base design.
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Agent-based modeling methodology and temporal simulation for Natech events in chemical clusters
Lixing Zhou,Guohua Chen,Mianbin Zheng,Xiaoming Gao,Chennan Luo,Xiaohui Rao +5 more
- 01 Dec 2023
TL;DR: An agent-based modeling methodology is proposed to simulate Natech events in chemical clusters, considering temporal characteristics and uncertainties, and demonstrates cyclic increase in failed facilities with strong temporal characteristic, influenced by natural hazards and safety barrier failures.
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Developing friendlier biodiesel production process via systematic inherent safety interventions
Xiaoming Gao,Abdul Aziz Abdul Raman,Hanee F. Hizaddin,Archina Buthiyappan,Mustapha Mohammed Bello +4 more
TL;DR: A Reconciled Friendly Process Metric (RFPM) is developed that can be used as a tool for hierarchically indicating the friendliness of processing scenarios and making trade-offs among safety, health, environmental, and cost concerns during conceptual design stage.
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