Mr. Bo Yuan -Renewable Energy Technologies – Excellence in Scientific Innovation Award

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Mr. Bo Yuan -Renewable Energy Technologies - Excellence in Scientific Innovation Award

Economic and Technical Research Institute of State Grid Hebei Electric Power Co., Ltd - China

🎓 Early academic pursuits

Bo Yuan began his academic journey in the field of electrical engineering, obtaining his master’s degree in engineering from tianjin university in 2015. demonstrating a continued passion for technological advancement and innovation, he is currently pursuing a ph.d. in engineering at the same prestigious institution. his academic focus has consistently revolved around emerging technologies such as power electronics, big data analytics, and smart grid systems.

🏱 Professional endeavors

Currently serving as a senior engineer at the economic and technical research institute of state grid hebei electric power co., ltd, bo yuan plays a significant role in national and regional energy research. he has also earned the title of director within the ieee pes power system operation, planning & economics satellite committee (china). in addition, he holds the national consulting engineer practicing qualification in china, which further validates his professional credibility in the power electronics and energy systems domain.

🧠 Contributions and research focus

Bo yuan’s research expertise lies in the application of compressed sensing in power systems, smart grid big data analysis, power grid reliability analysis, structural optimization, and theRenewable Energy Technologies optimized operation of integrated energy systems. his work integrates advanced power electronics concepts to enhance energy efficiency and grid management. he has made major strides by publishing 29 core chinese journal or sci/ei-indexed papers and applying for 31 national invention patents in china as the first inventor. he also led the editorial direction of a technical book (isbn: 978-7-5198-4859-0) as editor-in-chief.

🌐 Impact and influence

Recognized as one of the top 5 highly cited scholars on china national knowledge infrastructure (cnki), bo yuan has made a significant impact in the field of electrical engineering and power electronics. his influence extends across various scientific and technological platforms in china. as the first researcher, he has earned three prestigious science and technology prizes fromRenewable Energy Technologies hebei province, the china power development promotion association, and the china power construction association, along with two outstanding awards in the digital china innovation competition.

📊 Academic cites

While exact citation data is not fully detailed, bo yuan remains one of the most highly referenced engineers in cnki, reflecting the practical value and scholarly impact of his work. his contributions have become vital references for professionals and academics working on smart grid and integrated energy systems in china.

🏆 Legacy and future contributions

Bo yuan's legacy is built on a foundation of technological excellence and visionary research. his ongoing ph.d. work and continuing role as senior engineer at state grid indicate a commitment to further breakthroughs in power electronics and grid optimization. with his consistent record of publications, patent filings, and national project involvement, he is expected to lead future innovations in china’s power infrastructure.

Notable Publications 

Non-intrusive Load Monitoring Based on Compressed Sensing

POWER DEMAND RESPONSE STRATEGY CONSIDERING “ENERGY STORAGE OF HYDROGEN & ELECTRICITY”

Ms. Lingxiao Qu – kernel method – Best Researcher Award

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Ms. Lingxiao Qu - kernel method - Best Researcher Award

The University of Aizu - China

Author Profile 

ORCID 

🎓 Early academic pursuits

Lingxiao Qu began her academic journey with a strong foundation in computer science and technology, earning her bachelor’s degree from north china electric power university in china between october 2013 and september 2017. during this time, she developed a deep interest in embedded systems and power electronics, which laid the groundwork for her future academic and research pursuits. her academic dedication and performance paved the way for graduate-level opportunities and advanced research training.

đŸ‘©â€đŸ’» Professional endeavors

Following her undergraduate studies, lingxiao pursued a master’s degree in software engineering at guangxi normal university, china, from october 2018 to september 2021 under the guidance of professor jiang jing. currently, she is completing her ph.d. at the university of aizu, japan, in the graduate school of computer science and engineering, where she has been working under the supervision of professor pei yan since october 2021. throughout her academic trajectory, she has actively contributed to software development projects and collaborative research in power electronics and intelligent systems.

🔬 Contributions and research focus

Lingxiao’s research primarily centers on integrating software engineering with power electronics applications, aiming to enhance the intelligence and efficiency of electronic systems. she has explored machine learning algorithms, optimization techniques, and real-time control strategies to advance the design and deployment of smart power electronic devices. her work demonstrates a profound understanding of cross-disciplinary systems, particularly in how computational methods can elevate power electronics design and operation.

🌍 Impact and influence

Lingxiao Qu’s research contributions have had a growing influence in the field of embedded systems and intelligent control, particularly in applying advanced software engineering approaches to power electronics. her innovative thinking has inspired her peers and collaborators, fostering academic discussions and new explorations within her research group and beyond. her ability to merge theoretical knowledge with practical implementation makes her a valuable contributor to modern electronic system advancements.

📚 Academic cites

Although in the early stages of her research career, lingxiao qu’s scholarly work is gaining academic recognition, especially within the circles of computer science and power electronics. she has been actively engaged in publishing her research findings in international journals and conferences. her work has contributed to evolving academic conversations and citations in areas intersecting computer engineering and smart electrical systems.

đŸŒ± Legacy and future contributions

Lingxiao Qu is poised to become a prominent researcher at the intersection of software engineering and power electronics. her future endeavors are expected to explore green energy applications, smart grids, and ai-powered control systems. with a robust academic foundation and a commitment to innovation, her ongoing and future contributions will likely shape the next generation of intelligent electronic systems. she aims to mentor future researchers and collaborate globally to advance sustainable and efficient electronic technologies.

Notable Publications 

  • Title: A Comprehensive Review on Discriminant Analysis for Addressing Challenges of Class-Level Limitations, Small Sample Size, and Robustness
    Author(s): Lingxiao Qu, Yan Pei
    Journal: Processes

  • Title: A Data Analysis Method Using Orthogonal Transformation in a Reproducing Kernel Hilbert Space
    Author(s): Lingxiao Qu, Yan Pei, Jianqiang Li
    Conference: 2023 IEEE International Conference on Systems, Man, and Cybernetics (SMC)

  • Title: Coded Distributed Computing Schemes via Grouping Method
    Author(s): Jing Jiang, Lingling Zhou, Lingxiao Qu
    Conference: Proceedings of the 8th International Conference on Computing and Artificial Intelligence

  • Title: An Approach to Improve Distributed Computing
    Author(s): Jing Jiang, Yiyun Zhong, Lingxiao Qu
    Conference: 2021 2nd International Conference on Electronics, Communications and Information Technology (CECIT)

  • Title: Cascaded Coded Distributed Computing Schemes Based on Placement Delivery Arrays
    Author(s): Jing Jiang, Lingxiao Qu
    Journal: IEEE Access

Dr. Daniel Fruchart – massive Solid State Hydrogen Storage – Excellence in Scientific Innovation Award

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Dr. Daniel Fruchart - massive Solid State Hydrogen Storage - Excellence in Scientific Innovation Award

JOMI-LEMAN SA - France 

Author Profile 

SCOPUS 

🎓 Early academic pursuits

Dr. Daniel Fruchart began his academic journey with a master’s degree in pure and fundamental mathematics in france, followed by a second master’s in physics and crystallography in grenoble. he earned his phd and state doctorate (habilitation Ă  diriger des recherches) from grenoble, focusing on neutron diffraction studies of metal perovskites and intermetallic carbides and nitrides. under the guidance of a prestigious jury, including nobel laureate louis nĂ©el, fruchart laid a strong foundation for a career rooted in materials science and condensed matter physics.

đŸ’Œ Professional endeavors

Fruchart served as a cnrs research director at institut nĂ©el in grenoble, where he managed advanced studies in intermetallics and interstitials for energy conversion. he later became a co-ounder and research director at mcphy energy sa (2008–2014), focusing on solid hydrogen storage—a key technology in power electronics and clean energy systems. his entrepreneurial spirit led him to establish hollyflow – eurl, providing consulting expertise in materials and energy systems. in 2021, he co-founded jomi-lĂ©man, continuing his work on hydrogen-based materials and tank systems.

🔬 Contributions and research focus

Daniel fruchart has significantly advanced research in hydrogen storage, magnetocalorics, and solid-state materials for clean energy. he has supervised over 40 doctoral theses, guided more than 110 international post-docs and scientists, and led research groups such as iice (intermetallics & interstitials – energy conversion) at institut nĂ©el. his patents reflect a deep massive Solid State Hydrogen Storage engagement with spd metallurgy, magnetic nano-layers, and metal hydride systems, which are integral to power electronics and renewable energy applications.

🌍 Impact and influence

With a global footprint, fruchart has led 32+ r&d contracts across multiple countries, coordinated nine european union research projects, and collaborated through international platforms massive Solid State Hydrogen Storage like the iea, iaea, lia, and pics. he co-directed the french-spanish european laboratory manes and contributed to major international hydrogen initiatives, earning him an authoritative voice in the fields of materials science and energy innovation, both of which intersect critically with power electronics in modern infrastructure.

🏆 Accolades and academic cites

Fruchart’s pioneering work has been widely recognized with awards from the sociĂ©tĂ© française de chimie (1986), sociedad de materiales de españa (1994), and ade me for massive Solid State Hydrogen Storage magnetocalorics (2004). he was honored with the yves rocard award (2012), international institute of refrigeration award (2012), and two prestigious european patent office awards in 2023. most recently, he received the green hydrogen award at the international conference in rabat (2024). his research is widely cited in academic publications focused on crystallography, hydrogen systems, and energy conversion materials.

📚 Legacy and future contributions

As an associate member of the acadĂ©mie delphinale since 2024 and currently based at jomi-lĂ©man, daniel fruchart continues to influence the scientific community through innovation in hydrogen storage technologies. his leadership in both academic and industrial contexts serves as a model for integrating theoretical science with applied power electronics, ensuring sustainable advancements in energy systems. fruchart’s legacy lies in bridging science and application, making a long-lasting contribution to green technologies and the circular economy.

Notable Publications 

Instances of Safety-Related Advances in Hydrogen as Regards Its Gaseous Transport and Buffer Storage and Its Solid-State Storage 

Impact of severe plastic deformation on kinetics and thermodynamics of hydrogen storage in magnesium and its alloys

Hydrogen Solid State Storage on MgH2 Compacts for Mass Applications

Review: On the complex magnetic phase diagram of the MnRuxRh1−xAs system,crystal, a.c. susceptibility, magnetization and electronic structure characterizations

Role of induced elastic deformations at the Mg/MgH2 transformation