Assoc Prof. Dr. Youpeng Zhang | Welding Processes Awards | Best Scholar Award

Assoc Prof. Dr.Youpeng Zhang, Fudan Univeristy, China

Dr. Zhang Yongping is an accomplished academic and professional in the field of nuclear engineering, specializing in reactor physics and safety analysis. Holding a Doctoral Degree from the Reactor Physics department at the Royal Institute of Technology (KTH), with a thesis focused on the transmutation of Am in sodium fast reactors and accelerator-driven systems, Dr. Zhang’s expertise is highly sought after in the realm of advanced nuclear reactor designs.

With a solid educational foundation, including a Master’s Degree in Sustainable Energy Engineering also from KTH and a Bachelor’s Degree in Thermal Power and Engineering from Shandong University, Dr. Zhang has continuously expanded his knowledge and skills throughout his career.

Having held significant positions at esteemed institutions such as Fudan University, where he currently serves as an Associate Professor, Dr. Zhang has been deeply involved in safety analysis projects concerning advanced fast reactor designs, including the CFR-600 and CiADS.

Professional Profiles:

SCOPUS

📚 Academic Background:

In 2005, Dr. Zhang completed his Bachelor’s Degree in Thermal Power and Engineering from Shandong University.
His quest for knowledge led him to the Royal Institute of Technology (KTH) in Sweden, where he earned his Master’s Degree in Sustainable Energy Engineering in 2007.
Demonstrating exceptional academic prowess, he pursued his Doctoral Degree in Reactor Physics at KTH, culminating in a groundbreaking thesis titled “Transmutation of Am in sodium fast reactors and accelerator-driven systems” in 2012.

👨‍🔬 Professional Journey:

Dr. Zhang’s professional journey commenced in 2004 when he served as a System Upgrading Analyzer at the Minghu Thermal Power Plant in Jinan, China, demonstrating his early commitment to enhancing system efficiency.
From 2006 to 2012, he honed his skills as a Safety Analysis Officer at RELCON (Scandpower) AB in Stockholm, Sweden, where he contributed to assessing the safety status of the Ringhals 2 reactor.
His passion for research led him to join the Reactor Physics department at KTH as a Doctoral Student in 2007. During this tenure, he delved into safety analysis of sodium-cooled Gen-IV reactors and contributed significantly to various projects financially sponsored by organizations like Svensk Kärnbränslehantering (SKB) and the European Commission (EC).
In pursuit of broader horizons, Dr. Zhang embarked on a Postdoc Fellowship at the Paul Scherrer Institut in Switzerland from 2012 to 2015, where he engaged in projects supported by the European Commission (EC) and the International Atomic Energy Agency (IAEA), focusing on neutronic calculations and safety analysis of fast reactor designs.
Since 2016, Dr. Zhang has been serving as an Associate Professor at Fudan University, where he continues to enrich the academic landscape with his expertise in safety analysis of advanced fast reactor designs.

🌟 Contributions and Achievements:

Dr. Zhang’s contributions to the field of nuclear engineering are invaluable, evident in his extensive research, publications, and teaching experiences.
His expertise in safety analysis has been instrumental in ensuring the viability and sustainability of advanced reactor designs, including CFR-600 and CiADS.
Throughout his career, Dr. Zhang has been committed to pushing the boundaries of knowledge and fostering innovation in the field of nuclear engineering.

Dr. Zhang Yanping epitomizes dedication, excellence, and passion in the pursuit of scientific advancement. His unwavering commitment to safety and sustainability continues to inspire and shape the future of nuclear engineering. 🚀🔬

Publication Top Notes:

Analysis of the stress field in the reactor vessel of the China Initiative Accelerator Driven System during postulated ULOF and UTOP transients

Reliability analysis of core power optimization control using Kalman filter for accelerator driven system based on reconfigurable computing

CFD analysis of a CiADS fuel assembly during the steam generator tube rupture accident based on the LBEsteamEulerFoam

The development of training platform for CiADS using cave automatic virtual environment

The cutting path planning of main components in China initiative accelerator driven subcritical system based on the quantum evolutionary algorithm

Finite element analysis of the main reactor vessel in the China Initiative Accelerator Driven System

Study on the effects from spacer wires on coolant flow within a CiADS fuel assembly

The optimization study of core power control based on meta-heuristic algorithm for China initiative accelerator driven subcritical system

The gamma dose rate analysis method for the maintenance of China initiative accelerator driven subcritical system based on the voxelized algorithm

Mr. Outhmane Siar | Resistance Spot Welding Award | Best Researcher Award

Mr. Outhmane Siar, ArcelorMittal R&D, France

Outhmane Siar is a meticulous and result-oriented mechanical engineer with a PhD in Materials Science. With over 6 years of experience in Research & Development within the automotive industry, he has established himself as an autonomous and curious professional, always eager to take on new challenges. Outhmane thrives in team environments and possesses excellent interpersonal skills.

His educational background includes a PhD thesis from the Institut National des Sciences Appliquées (INSA) de Lyon, completed between 2018 and 2021. This involved a partnership between the MATEIS laboratory of INSA Lyon and ArcelorMittal Automotive Research center, focusing on the Welding & Joining team. Prior to his PhD, he earned an engineering degree in Mechanics from INSA Hauts de France, specializing in Analysis and Safety of Structures.

Professional Profiles:

Education and Training:

PhD in Materials Science, Institut National des Sciences Appliquées (INSA) de Lyon, 2018 – 2021
Engineering Degree in Mechanics, specializing in Analysis and Safety of Structures, INSA Hauts de France, 2014 – 2018
Advanced Courses in Mathematics, Physics, and Computer Science, CPGE Moulay Idriss (Morocco), 2012 – 2014

Work Experiences:

Research Welding Engineer, ArcelorMittal Automotive – Maizières, December 2021 – Present
Research Welding Engineer, ArcelorMittal Automotive – Maizières, December 2018 – November 2021
Part-time Teacher, INSA Lyon, 2019 – September 2021
R&D Engineer Intern, ArcelorMittal – Maizières, Forming Team, March 2018 – August 2018
Numerical Simulation Engineer Intern, Continental – Toulouse, September 2016 – January 2017

Dr. Siar’s expertise lies in the comprehensive understanding of welding processes, particularly in assessing the weldability of Advanced High Strength Steels (AHSS) for automotive applications. His research focuses on mitigating issues such as Liquid Metal Embrittlement (LME) and Hydrogen Embrittlement through a combination of experimental comprehension and numerical simulations.

Key Skills and Responsibilities:

R&D project management for assessing in-use properties of spot welds
Technical support for ArcelorMittal plants and automotive customers
Management of research projects, technicians, and trainees
Active involvement in the digital transformation of the laboratory using agile methods for continuous improvement

With a strong foundation in finite element modeling and experimental validation, Dr. Siar contributes significantly to the advancement of welding technologies in the automotive sector. His dedication, autonomy, and problem-solving skills make him an invaluable member of any research and development team.

Publication Top Notes: