Monica Alvarez Manso | Green Hydrogen | Editorial Board Member

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Ms. Monica Alvarez Manso | Green Hydrogen | Editorial Board Member

Universidad de León | Spain

Mónica Alvarez Manso is a researcher and energy engineering specialist whose work spans green hydrogen technologies, bioenergy systems, renewable energy integration, and sustainable water resource management, with extensive experience in designing, coordinating, and executing complex energy and infrastructure projects involving electrolysis-based hydrogen production, advanced water purification and demineralization systems, biomethane upgrading, and large-scale power generation and high-voltage substation facilities. Her professional contributions include implementing energy efficiency and industrial sustainability strategies for major international organizations, designing renewable energy systems for rural electrification in Africa, and developing innovative water management and pumping solutions across Europe. As a PhD candidate at the University of León and Vice-Dean of the Official College of Technical Mining Engineers and Mining and Energy Graduates, she plays a strategic leadership role in driving technological innovation, promoting sustainable engineering practices, and leading multidisciplinary teams in the mining, energy, and advanced materials sectors. She has contributed to competitive research initiatives such as ECOH2JET and BIOWATERING and has extensive experience in preparing and managing European and national funding proposals under Horizon 2020, LIFE, PRIMA, Eurostars, and the Innovation Fund. Her technological innovations include the registration of HYDROGREENSIM, a simulator for optimizing water purification processes in renewable hydrogen plants, and the patented VIRTUAL ART PROJECTION technique. Through collaborations with academic institutions, industry partners, and innovation-driven organizations, she has advanced scientific dissemination through publications, conferences, and the development of practical engineering tools, with her work collectively supporting the transition to low-carbon systems, circular bioeconomy solutions, and sustainable industrial development at regional and global scales.

Profiles: Google Scholar 

Featured Publications

1. Álvarez-Manso, M., Búrdalo-Salcedo, G., & Fernández-Raga, M. (2025). Classification framework for hydrological resources for sustainable hydrogen production with a predictive algorithm for optimization. Hydrogen, 6(3), 54.

2. Álvarez-Manso, M. (2002). Estudio de viabilidad de una instalación de energía eléctrica combinada con un proceso de termólisis.

Wanxuan Yao | Climate change mitigation technologies | Best Researcher Award

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Dr. Wanxuan Yao | Climate change mitigation technologies | Best Researcher Award

Researcher | GEOMAR Helmholtz Centre for Ocean Research Kiel | Germany

Dr. Ben Wanxuan Yao is an accomplished climate scientist specializing in biogeochemical modelling, carbon dioxide removal (CDR), and carbon capture and storage (CCS). His research integrates modelling, data analysis, and environmental assessment to evaluate the technical feasibility, effectiveness, and societal implications of carbon mitigation technologies. With extensive experience in developing CDR evaluation frameworks, he has advanced the global understanding of marine-based carbon removal and its integration within policy and sustainability contexts. He has led multidisciplinary research initiatives focused on site-specific CDR and CCS portfolio development, aligning scientific innovation with national and international climate goals. His work encompasses quantitative modelling of oceanic carbon and nutrient cycles, AI-based parameter calibration on high-performance computing systems, and holistic assessments of carbon sequestration techniques. His findings have been published in leading international journals, including Geophysical Research Letters, Earth’s Future, Environmental Research Letters, and Global Change Biology, providing critical insights into the environmental, economic, and ethical dimensions of marine carbon removal technologies. Beyond research, he has played a key role in facilitating collaboration between scientists, policymakers, and industry through workshops, think tanks, and conferences, strengthening the interface between science and decision-making in the field of climate solutions. His expertise in geospatial data analysis, system modelling, and sustainable innovation has positioned him as a valuable contributor to the evolving landscape of carbon management and environmental strategy. Dr. Yao’s academic excellence and research influence are reflected in his growing global recognition, with 67 citations, 8 publications, and an h-index of 5, underscoring his impactful contributions to the advancement of climate modelling and carbon removal science.

Profiles: Google Scholar | Scopus | ORCID | ResearchGate | LinkedIn

Featured Publications

1. Somes, C. J., Dale, A. W., Wallmann, K., Scholz, F., Yao, W., Oschlies, A., Muglia, J., & Achterberg, E. P. (2021). Constraining global marine iron sources and ligand‐mediated scavenging fluxes with GEOTRACES dissolved iron measurements in an ocean biogeochemical model. Global Biogeochemical Cycles, 35(8), e2021GB006948. Cited by: 30

2. Frenger, I., Landolfi, A., Kvale, K., Somes, C. J., Oschlies, A., Yao, W., & Koeve, W. (2024). Misconceptions of the marine biological carbon pump in a changing climate: Thinking outside the “export” box. Global Change Biology, 30(1), e17124. Cited by: 27

3. Yao, W., Kvale, K. F., Achterberg, E., Koeve, W., & Oschlies, A. (2019). Hierarchy of calibrated global models reveals improved distributions and fluxes of biogeochemical tracers in models with explicit representation of iron. Environmental Research Letters, 14(11), 114009. Cited by: 15

4. Kvale, K., Keller, D. P., Koeve, W., Meissner, K. J., Somes, C. J., Yao, W., & Oschlies, A. (2020). Explicit silicate cycling in the Kiel Marine Biogeochemistry Model, version 3 (KMBM3) embedded in the UVic ESCM version 2.9. Geoscientific Model Development Discussions, 1–46.Cited by: 10

5. Yao, W., Kvale, K. F., Koeve, W., Landolfi, A., Achterberg, E., Bertrand, E. M., & Oschlies, A. (2022). Simulated future trends in marine nitrogen fixation are sensitive to model iron implementation. Global Biogeochemical Cycles, 36(3), e2020GB006851. Cited by: 6

Dr. Wanxuan Yao’s work advances global climate solutions by integrating biogeochemical modelling with carbon removal science, enhancing the precision of Earth system projections and guiding sustainable carbon management strategies for policymakers and industry. His research bridges scientific innovation and environmental governance, driving impactful progress toward a low-carbon, resilient future.

Mahdi Jahami | Green Hydrogen | Green Hydrogen Production Award

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Dr. Mahdi Jahami | Green Hydrogen | Green Hydrogen Production Award

Professor | The University of Alabama | United States

Dr. Mahdi Jahami is a dedicated researcher in the Department of Mechanical Engineering, Tuscaloosa, United States, whose work focuses on renewable energy systems, sustainable hydrogen production, and life cycle assessment (LCA). His research aims to develop environmentally responsible energy conversion technologies by integrating renewable resources with innovative modeling and optimization frameworks. Dr. Jahami’s scholarly contributions emphasize reducing greenhouse gas emissions through cleaner production pathways and advancing the global transition toward a low-carbon, sustainable energy future. His notable publication, “Life cycle assessment of SMR and Electrified-SMR with renewable energy systems: Projecting emissions and optimizing hydrogen production for California’s goals,” provides a comprehensive assessment of hydrogen generation via Steam Methane Reforming (SMR) and Electrified-SMR systems powered by renewable energy. The study delivers significant insights into optimizing hydrogen production efficiency while aligning with ambitious environmental and policy objectives. With 9 citations, 1 publication, and a Scopus h-index of 1, Dr. Jahami’s research demonstrates growing academic recognition and influence in the fields of clean energy and carbon mitigation. Through collaboration with international co-authors, he applies an interdisciplinary approach combining techno-economic analysis, emissions modeling, and renewable energy integration to design efficient, sustainable hydrogen systems. Beyond academic contributions, his work holds strong societal impact by supporting global initiatives for carbon neutrality, clean technology advancement, and sustainable industrial transformation. Through rigorous research and innovation, Dr. Jahami continues to contribute to the evolution of green engineering solutions, reinforcing the vital role of hydrogen technologies in achieving net-zero emissions and driving global energy sustainability.

Profiles: Scopus | ResearchGate | LinkedIn

Featured Publications

1. Jahami, M. (2025). Life cycle assessment of SMR and Electrified-SMR with renewable energy systems: Projecting emissions and optimizing hydrogen production for California’s 2035 goals. Renewable Energy. Cited by 9.

Dr. Mahdi Jahami’s research advances the global transition toward sustainable hydrogen production and renewable energy integration, providing innovative life cycle–based solutions that reduce emissions and support carbon-neutral industrial systems. His work bridges engineering innovation and environmental responsibility, driving progress toward a cleaner, more resilient energy future.