Engineer at China Nuclear Power Engineering Co.Ltd, China.
Fengna Tang is an accomplished engineer in the field of 🔬 nuclear chemical instrumentation and control. She earned her 🎓 Master’s in Control Science and Engineering from Beijing University of Chemical Technology in 2018. Currently, she works at 🏢 China Nuclear Power Engineering Co. Ltd. and the Institute of Nuclear Chemical Instrumentation and Control. Her work includes developing and implementing advanced detection and control systems 🔧 in nuclear environments. She has actively contributed to 🔗 multiple national-level projects, enhancing nuclear safety, precision, and efficiency. Her blend of technical skills, research insight, and innovation in a high-stakes field underscores her status as a rising leader 🌟 in nuclear engineering and control systems.
🌍 Professional Profile:
Scopus
🏆 Suitability for the Best Researcher Award :
Fengna Tang is a standout candidate for the 🏆 Best Researcher Award, recognized for her pioneering work in 🔐 nuclear safety and instrumentation. She plays a vital role in multiple 🇨🇳 national-level projects, integrating research and application in the high-impact field of nuclear chemical control ⚛️. Her engineering expertise improves reliability and safety across critical systems, fulfilling national energy and security needs. By combining strong academic credentials 📘 with real-world project experience 🔍, she demonstrates innovation, scientific rigor, and a commitment to excellence. Her contributions directly impact energy sustainability, automation, and nuclear reliability, making her an ideal choice for this prestigious recognition 🌐.
🎓 Education :
📚 Fengna Tang completed her Master’s degree in Control Science and Engineering at 🎓 Beijing University of Chemical Technology in 2018. Her studies focused on automation, process modeling, and system design 🧠, laying a strong theoretical foundation for her career in nuclear instrumentation. She gained deep knowledge of control algorithms, real-time feedback systems, and hardware integration 🛠️. The comprehensive nature of her education enabled her to transition seamlessly into the research-intensive and high-precision field of nuclear engineering ⚙️. With a firm academic background in system reliability and control logic, Fengna is well-prepared for challenges in designing and enhancing safety mechanisms for nuclear facilities 🧪.
🏢 Work Experience :
🔧 Fengna Tang works as an engineer at 🏭 China Nuclear Power Engineering Co. Ltd. and the Institute of Nuclear Chemical Instrumentation and Control. Her experience includes designing, testing, and implementing advanced control systems and detection technologies 📊 for nuclear chemical environments. She has been involved in the successful execution of several national-level projects 🇨🇳, where she played a critical role in process automation, safety logic development, and instrumentation reliability. Her hands-on expertise spans system diagnostics, control software optimization, and engineering compliance in a sensitive, high-risk domain ⚠️. Fengna’s work directly enhances operational performance and environmental safety, demonstrating her ability to translate research into impactful applications 💡.
🔬 Research Focus :
⚛️ Fengna Tang’s research is centered on detection and control systems in nuclear chemical engineering. She works on designing and enhancing automated monitoring and safety systems that operate in radioactive and high-risk chemical environments 🔍. Her focus includes real-time instrumentation, signal reliability, and feedback loop optimization for increased process safety 🧠. She leverages modern control strategies and detection tech to minimize risks and support efficient nuclear operations 🚦. Her technical knowledge is also applied to software and hardware integration for control system reliability 🖥️. Fengna’s work ensures safe operations while pushing forward nuclear technology innovation, aligning with both national strategic goals and global energy sustainability 🌍.
Title: Integrating economic model predictive control and event-triggered control: Application to bi-hormonal artificial pancreas system
Year: 2019
Journal: IEEE Access
Cited by: 5
Focus: Predictive Control, Biomedical Systems, Artificial Pancreas
Title: Study on the Method of Measuring the Interface of Radioactive Liquids
Year: 2025
Journal: Nuclear Chemical Instruments & Control
Focus: radioactive-liquid interface detection & measurement method.