Adarsh Kumar Arya | Hydrogen | Industry Impact Award

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Prof. Adarsh Kumar Arya | Hydrogen | Industry Impact Award 

Prof. Adarsh Kumar Arya | Hydrogen | Professor at Harcourt Butler Technical University | India

Dr. Adarsh Kumar Arya is a distinguished academic and researcher in the field of chemical engineering, specializing in natural gas pipeline optimization, energy systems, and sustainable chemical processes. He has built an impressive career as a professor, researcher, and consultant, contributing extensively to both academia and industry. With a strong record of research publications, project leadership, and mentorship, Dr. Arya has established himself as a leading figure in chemical engineering and pipeline optimization studies. His career demonstrates a balance between theoretical advancements and practical industrial applications, making him an exemplary candidate for international recognition.

Academic Profile

Scopus

Education

Dr. Adarsh Kumar Arya holds a Ph.D. in Chemical Engineering with a specialization in natural gas pipeline optimization, reflecting his deep expertise in multi-objective modeling and operational strategies for energy transport systems. He also pursued advanced studies in piping engineering at a premier institute of technology, which strengthened his applied technical skills for industry-driven research. His postgraduate and undergraduate degrees in chemical engineering were earned with distinction, enabling him to develop a solid foundation in core subjects such as fluid mechanics, mass transfer, and reaction engineering. This educational background has not only supported his academic career but also fueled his applied research in energy, sustainability, and pipeline networks.

Experience

Over his academic career, Dr. Adarsh Kumar Arya has served as a faculty member in reputed institutions and currently holds a senior position as an Associate Professor in Chemical Engineering. He has guided multiple doctoral scholars in specialized areas including pipeline corrosion, optimization, and hydrogen blending in natural gas transportation. His teaching portfolio includes subjects such as heat transfer, mass transfer, reaction engineering, and advanced pipeline design, reflecting his versatility as an educator. Beyond academics, Dr. Arya has collaborated with industry partners, notably contributing to major gas pipeline projects and providing consultancy for energy organizations. His professional experience also includes administrative leadership as an associate dean, coordinator for national academic missions, and faculty convenor for professional chemical engineering associations.

Research Interest

The primary research interests of Dr. Adarsh Kumar Arya lie in natural gas pipeline optimization, energy system sustainability, biomass supply chain management, and corrosion mitigation in pipeline networks. His work also extends to the applications of machine learning, artificial intelligence, and blockchain technology in chemical and energy engineering. He has explored interdisciplinary approaches to enhance the efficiency and safety of pipeline systems while addressing pressing environmental challenges. Recently, his focus has shifted toward hydrogen embrittlement in pipelines, renewable energy integration, and advanced materials for sustainable energy production. These research areas place him at the intersection of industrial problem-solving and academic innovation.

Award

Dr. Adarsh Kumar Arya has been the recipient of multiple awards in recognition of his outstanding research and teaching excellence. His accolades include research excellence awards, prestigious university research honors, and recognition by state leadership for his academic contributions. These awards highlight his dedication to impactful research, his ability to bridge academia and industry, and his leadership in advancing chemical engineering education. The recognition of his contributions reflects both the quality and the societal relevance of his work.

Selected Publication

  • “Optimal operation of a multi-distribution natural gas pipeline grid: an ant colony approach” (2021, Citations: 85)

  • “A critical review on optimization parameters and techniques for gas pipeline operation profitability” (2022, Citations: 60)

  • “Comparative Studies of Stochastic Techniques to Minimize the Cost of Biomass Supply Networks” (2024, Citations: 25)

  • “A multi-objective model for optimizing hydrogen injected-high pressure natural gas pipeline networks” (2023, Citations: 40)

Conclusion

In conclusion, Dr. Adarsh Kumar Arya is an accomplished academic whose career demonstrates a strong commitment to research, education, and industrial collaboration. His expertise in chemical engineering, pipeline optimization, and sustainable energy systems has significantly contributed to both scientific knowledge and practical industry solutions. With an outstanding record of publications, awards, and leadership roles, Dr. Arya has emerged as a role model for aspiring engineers and researchers. His ongoing projects in hydrogen energy, renewable systems, and machine learning applications highlight his forward-looking vision and potential for shaping the future of sustainable energy engineering. Dr. Arya’s academic contributions, coupled with his dedication to advancing society through research, make him highly deserving of this award nomination.

Chisom Okeke | Hydrogen | Best Researcher Award

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Mr. Chisom Okeke | Hydrogen | Best Researcher Award

Mr. Chisom Okeke | Hydrogen – PhD Researcher at Loughborough University, United Kingdom

Chisom Jude Okeke is an accomplished researcher and engineer with a focus on renewable energy, sustainable technologies, and the development of hydrogen as a clean energy source. With extensive experience in academia, industry, and leadership roles, he has made significant contributions to advancing energy systems, particularly in the context of developing countries. His research is driven by a passion for creating scalable solutions for clean cooking and energy access, particularly through the use of low-cost hydrogen technologies. Chisom’s academic journey, from undergraduate studies to PhD research, showcases his dedication to advancing sustainable energy solutions that can positively impact global communities.

Profile:

Orcid | Scopus

Education:

Chisom’s academic qualifications highlight his strong foundation in engineering and sustainable energy systems. He is currently pursuing a PhD in Electronic, Electrical, and Systems Engineering at Loughborough University, focusing on the development of sustainable hydrogen technologies for clean cooking in developing countries. This research is part of the Centre for Doctoral Training in Sustainable Hydrogen (SusHy CDT). Prior to this, he earned a Master’s in Renewable Energy from Cranfield University, where his thesis focused on the decarbonization of industrial buildings. Chisom also holds various other qualifications, including a Postgraduate Certificate in Hydrogen Safety Engineering from Ulster University, Belfast, which reflects his strong commitment to safety in energy systems. His diverse educational background has equipped him with an in-depth understanding of energy systems, policy, and technological innovations for sustainable development.

Experience:

Chisom has an extensive professional background in renewable energy engineering and sustainable energy solutions. He currently works as a Renewable Energy Engineer at Chotech Renergy, a company he founded, which specializes in solar and biogas systems for rural communities in Nigeria. His responsibilities involve leading project teams, conducting feasibility studies, and designing sustainable energy solutions. He also has experience as a Building Engineer, contributing to the installation of solar panels and retrofitting buildings with energy-efficient systems. His work as a researcher, both at Loughborough University and at the University of Uyo, Nigeria, has contributed to various academic projects and energy solutions. Additionally, Chisom has taught at the University of Uyo and Loughborough University, where he mentors undergraduate students, sharing his knowledge and fostering the development of future engineers.

Research Interests:

Chisom’s primary research interests lie in the areas of renewable energy, sustainable hydrogen production, and the integration of clean energy systems into developing countries. He is particularly interested in exploring the potential of hydrogen as a fuel source for clean cooking and energy production in regions that face energy access challenges. His research aims to develop cost-effective solutions that can be scaled in low-income settings, reducing reliance on traditional, polluting cooking methods. Chisom is also passionate about the intersection of energy technology and policy, understanding the broader social and economic impacts of renewable energy adoption. His work aims to create practical, accessible, and affordable energy solutions that address global challenges related to climate change, energy access, and sustainable development.

Awards:

Chisom’s achievements have been recognized through numerous prestigious awards, underscoring his contributions to renewable energy and sustainable development. He is the recipient of the UK EPSRC Sustainable Hydrogen Centre for Doctoral Training Scholarship, which supports his current PhD research. He was also awarded the Commonwealth Scholarship, further emphasizing his excellence in the field of renewable energy. Chisom’s team was a runner-up in the UK and Ireland for the Schneider Electric Go Green 2022 competition, showcasing his innovative approach to sustainable energy solutions. He has received accolades for academic excellence, including being named the Best Graduating Student at the University of Uyo, Nigeria, and earning the Student Union Government Leadership Award of Excellence. These awards reflect his outstanding academic achievements and his potential to drive meaningful change in the energy sector.

Publications:

Chisom’s scholarly contributions have been published in several reputable journals, reflecting the breadth and depth of his research. Some of his key publications include:

  1. Okeke, C.J., Egberibine, P.K., Edet, J.U., Wilson, J., & Blanchard, R.E. (2025). “Comparative assessment of concentrated solar power and photovoltaic for power generation and green hydrogen potential in West Africa: A case study on Nigeria.” Renewable and Sustainable Energy Reviews. 📅 2025. Link to article
  2. Ifiok Edem Ekop, Chisom Jude Okeke & Etieno Victor Inyang (2022). “Comparative study on recycled iron filings and glass particles as a potential fine aggregate in concrete.” Journal of Resources, Conservation & Recycling Advances. 📅 2022. Link to article
  3. Okeke, C.J. & Ajiero, I.R. (2019). “Cow dung and paper waste co-digestion for biogas production and use in buildings.” Construction Focus, Vol.10, No 1, 25-35. 📅 2019
  4. Okeke, C.J. and Ajiero, I.R. (2018). “Prospect of sustainable energy generation for use in the University of Uyo cafeteria.” Journal of Contemporary Research in the Built Environment. 📅 2018. ISSN: 2636 – 4468

Conclusion:

Chisom Jude Okeke is an exceptional researcher and engineer with a deep commitment to advancing sustainable energy solutions. His educational background, professional experience, and research contributions position him as a leader in the field of renewable energy. Chisom’s work, especially in developing cost-effective hydrogen technologies for clean cooking in developing countries, has the potential to drive significant social and environmental change. His passion for sustainability and his dedication to practical energy solutions make him a deserving candidate for the Best Researcher Award. With continued growth in his research and further interdisciplinary collaborations, Chisom is poised to make a lasting impact on global energy systems and sustainable development.