Vivek Garg | Waste-to-Energy Conversion | Best Researcher Award

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Dr. Vivek Garg | Waste-to-Energy Conversion | Best Researcher Award

Senior Lecturer and Applied Engineering Research Specialist at University of Greenwich | United Kingdom

Dr. Vivek Garg is an accomplished researcher and technical leader specializing in powder technology, bulk solids handling, mineral processing, and formulation science. Currently serving as a Senior Lecturer and Applied Engineering Research Specialist at the University of Greenwich, he leads interdisciplinary projects across the pharmaceutical, food, chemical, and environmental sectors. His expertise lies in bridging the gap between academic research and industrial application, delivering scalable solutions for formulation design, process optimization, and test method development. He has successfully secured competitive research funding and major consultancy projects, demonstrating his ability to attract resources and deliver measurable impact. His scholarly contributions include research publications in reputed international journals, patents in advanced systems and technologies, and book chapters addressing innovative engineering solutions. Widely recognized for his innovation and leadership, Dr. Garg actively contributes to scientific communities through invited talks, technical committees, and journal reviewing, while mentoring early-career researchers.

Professional Profile 

Google Scholar | Scopus Profile | ORCID Profile 

Education

Dr. Vivek Garg’s academic journey reflects a strong foundation in engineering and applied sciences. He earned his Ph.D. in Bulk Solids and Handling from the University of Greenwich, where his research focused on powder flow properties and their implications in industrial applications. Prior to that, he completed his Master’s degree in Thermal Engineering from Thapar University, where he expanded his expertise in advanced mechanical processes and energy systems. He began his academic pursuit with a Bachelor of Technology in Mechanical Engineering from IET Bhaddal, India, where he built the fundamental skills that would later shape his career as a researcher. Throughout his education, Dr. Garg has combined theoretical knowledge with practical experimentation, contributing to his expertise in formulation, process optimization, and sustainable solids handling. His academic achievements have been complemented by his strong engagement with industrial projects, enabling him to integrate academic learning with practical engineering challenges.

Experience

Dr. Vivek Garg brings over a decade of professional and research experience in powder technology, formulation science, and mineral processing. At the University of Greenwich, he has worked as a Senior Lecturer and Applied Engineering Research Specialist, where he has led industry-oriented R&D and consultancy projects, developed laboratory rigs for powder characterization, and guided students and researchers. His work spans diverse sectors including pharmaceuticals, food, chemicals, and environmental systems, focusing on developing innovative methods for powder flow measurement, material characterization, and process optimization. Earlier in his career, he contributed to engineering roles in leading industries such as Federal Mogul Goetze and Bhushan Power and Steel, where he provided solutions that improved efficiency and reduced operational costs. Through his consultancy and collaborative projects, he has partnered with global industries and academic institutions, successfully translating research outcomes into practical solutions. His leadership in project execution demonstrates his ability to deliver high-impact results.

Research Interest

Dr. Vivek Garg’s research interests lie in the study and advancement of powder technology and bulk solids handling, with applications across pharmaceutical, food, and chemical industries. He focuses on powder formulation and characterization, including flowability, compressibility, segregation, and caking, which are crucial factors in ensuring product quality and process efficiency. He also explores advanced topics such as air permeability, fluidization behavior, and the development of lab-to-full scale rigs for material characterization. In addition, his work in additive manufacturing, particularly 3D tablet printing, highlights his interest in combining pharmaceutical innovation with engineering design. He is equally committed to exploring sustainable solids handling, addressing industrial challenges in waste processing and renewable material applications. His approach integrates experimental methods, material science, and computational modeling to develop innovative solutions that bridge scientific research with industrial needs. By pursuing these areas, Dr. Garg aims to strengthen global research and innovation in material science and engineering.

Awards and Honors

Dr. Vivek Garg has been widely recognized for his contributions to engineering research and innovation through multiple prestigious awards. He has received distinctions for innovation in powder technology, materials handling, and applied research, demonstrating his ability to deliver high-impact solutions that bridge academia and industry. His recognition includes awards celebrating rising talent, newcomer contributions, and international excellence in young research, highlighting both his early promise and continued professional success. Beyond institutional awards, Dr. Garg has earned accolades from professional associations and industrial organizations, affirming the global relevance of his work. These honors reflect his ability to consistently push the boundaries of powder technology and applied engineering. His leadership in winning competitive research grants, along with contributions to interdisciplinary collaborations, further validates his achievements. Collectively, these recognitions underscore his growing influence in his field and affirm his position as a researcher of international distinction, committed to advancing science and innovation.

Research Skills

Dr. Vivek Garg has developed a strong portfolio of research skills that combine experimental expertise, analytical rigor, and project leadership. He is highly skilled in powder characterization techniques such as particle size analysis, powder flow testing, air permeability, and compressibility studies, supported by tools including DVS, SEM, ImageJ, and pycnometers. He has experience in developing bespoke laboratory rigs and smart test facilities that enable real-time monitoring of powder behavior, a key contribution to both academic research and industrial applications. In addition, his knowledge extends to design software such as SolidWorks and simulation approaches that integrate characterization techniques into virtual toolkits. He has also gained expertise in project management, having secured competitive funding, managed budgets, and led multi-disciplinary research teams. His ability to translate experimental insights into industrial solutions demonstrates both technical competence and applied innovation. These skills, combined with strong stakeholder engagement, make him a versatile and impactful researcher.

Publication Top Notes

Title: An investigation into the flowability of fine powders used in pharmaceutical industries
Authors: V. Garg, S.S. Mallick, P. García-Trinanes, R.J. Berry
Year: 2018
Citations: 93

Title: An experimental investigation on the effect of particle size into the flowability of fly ash
Authors: L. Rohilla, V. Garg, S.S. Mallick, G. Setia
Year: 2018
Citations: 32

Title: An experimental study on free-surface rolling segregation and correlations with angle of repose and particle sphericity
Authors: T. Deng, V. Garg, H. Salehi, M.S.A. Bradley
Year: 2020
Citations: 25

Title: A study of particle adhesion for cohesive powders using a novel mechanical surface energy tester
Authors: T. Deng, V. Garg, M.S.A. Bradley
Year: 2021
Citations: 19

Title: 3D Printing of Personalised Carvedilol Tablets Using Selective Laser Sintering
Authors: A.G. Tabriz, Q. Gonot-Munck, A. Baudoux, V. Garg, R. Farnish, O. Katsamenis, et al.
Year: 2023
Citations: 18

Title: Comparative studies of powder flow predictions using milligrams of powder for identifying powder flow issues
Authors: T. Deng, V. Garg, L.P. Diaz, D. Markl, C. Brown, A. Florence, M.S.A. Bradley
Year: 2022
Citations: 18

Title: Correlations between segregation intensity and material properties such as particle sizes and adhesions and novel methods for assessment
Authors: T. Deng, V. Garg, H. Salehi, M.S.A. Bradley
Year: 2021
Citations: 18

Title: A new method for assessing powder flowability based on physical properties and cohesiveness of particles using a small quantity of samples
Authors: V. Garg, T. Deng, M. Bradley
Year: 2022
Citations: 12

Title: Optimising Spread-Layer Quality in Powder Additive Manufacturing: Assessing Packing Fraction and Segregation Tendency
Authors: H. Salehi, J. Cummins, E. Gallino, V. Garg, T. Deng, A. Hassanpour, et al.
Year: 2023
Citations: 8

Title: Electrostatic Charging of Fine Powders and Assessment of Charge Polarity Using an Inductive Charge Sensor
Authors: T. Deng, V. Garg, M. Bradley
Year: 2023
Citations: 8

Conclusion

In summary, Dr. Vivek Garg exemplifies the qualities of an outstanding researcher through his pioneering contributions in powder technology, interdisciplinary research leadership, and impactful industrial collaborations. His scholarly output, patents, and recognition through awards such as the Best Innovation Award and the Rising Star Award reflect his dedication to advancing both scientific knowledge and industrial practices. With his proven track record of innovation, community engagement, and future-oriented research in sustainable solids handling and pharmaceutical technologies, Dr. Garg is highly deserving of the Best Researcher Award. His potential for continued leadership and global research impact positions him as an emerging leader in engineering science and applied technology.

Jihan Ahmad As-sya’bani | Energy Justice | Best Researcher Award

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Mr. Jihan Ahmad As-sya’bani | Energy Justice | Best Researcher Award

Master Student at Carl von Ossietzky Universität Oldenburg, Germany

Jihan Ahmad As-sya’bani is a dedicated researcher in the field of renewable energy, with expertise spanning wind energy, biogas, and sustainable energy transitions. With a background in physics and advanced training in renewable energy technologies, he has combined scientific rigor with applied solutions to address global energy challenges. His academic journey and professional engagements reflect a balance of technical depth, policy-level insight, and community impact. He has actively contributed to international projects, renewable energy modeling, and the development of national standards for biogas systems. Beyond research, he has demonstrated strong leadership through team coordination, stakeholder engagement, and mentoring roles in both academic and community-based initiatives. His work emphasizes innovation, sustainability, and global responsibility in energy development, making him a well-rounded candidate with significant contributions to science, society, and environmental stewardship. His professional trajectory highlights both strong research capability and impactful community engagement.

Professional Profile 

ORCID Profile 

Education

Jihan’s educational foundation began with a degree in physics, where he explored advanced topics such as plasma physics and quantum mechanics, supported by thesis research on computational models in toroidal systems. Building on this scientific base, he pursued a master’s program in sustainable renewable energy technologies, specializing in wind energy and energy systems optimization. His academic training was strengthened by a prestigious international fellowship, reflecting both his academic excellence and his potential to contribute to global sustainable development. His studies combined rigorous coursework, laboratory practice, and applied field training in renewable energy systems, enabling him to bridge theoretical principles with practical applications. Participation in specialized schools and workshops in plasma physics, fusion technology, and renewable energy further broadened his knowledge and international exposure. Through this academic path, he developed the technical expertise, interdisciplinary perspective, and global outlook required to contribute meaningfully to the advancement of sustainable energy solutions.

Experience

Jihan’s professional experience demonstrates a strong integration of research, applied science, and community development. As a research assistant at a leading wind energy research institute, he worked on high-performance simulations of wind farm wake effects, supporting advanced optimization models for renewable energy systems. In parallel, his work with a biogas technology company focused on carbon accounting, plant operation planning, and sustainable waste-to-energy solutions. He has also served as team leader for a multi-stakeholder river conservation project, where he coordinated governmental, private, and community actors to achieve long-term environmental protection goals. Earlier roles include contributing to national-scale biogas programs that improved rural energy access, teaching physics under international curricula, and assisting in laboratory and aerospace research projects. This diverse experience highlights his ability to operate across academic, industrial, and social sectors, making meaningful contributions at both technical and community levels. His career reflects adaptability, leadership, and multidisciplinary expertise.

Research Interest

Jihan’s research interests lie at the intersection of renewable energy technologies, sustainability, and global energy transitions. His work primarily focuses on wind energy simulation and optimization, biogas quality improvement, and carbon accounting methods for sustainable energy systems. He is deeply interested in advancing modeling tools that integrate data-driven methods with high-performance computing to optimize renewable energy deployment. Alongside technical work, he also pursues studies on policy and fairness in global energy transitions, particularly in comparing responsibilities between developed and developing regions. His interest extends to fusion energy and plasma physics, where he has participated in specialized training and workshops to explore emerging frontiers in energy research. By combining technical simulation, applied renewable projects, and policy-level analysis, his research seeks to contribute both to scientific advancement and to practical frameworks for global sustainability. He aspires to bridge academic research with real-world implementation for maximum societal impact.

Awards and Honors

Jihan has earned recognition for his academic and professional excellence through competitive fellowships, certifications, and research project grants. He was awarded a prestigious postgraduate fellowship that supports outstanding scholars in development-related fields, highlighting his potential to contribute globally to sustainable energy. His research initiatives have been supported through institutional research funding, enabling him to conduct comparative studies on fairness in energy transitions and develop practical renewable energy innovations. He has also been a co-researcher in projects backed by national standardization agencies, contributing to policy-relevant outcomes such as biogas quality requirements. In addition, he has received advanced certification in greenhouse gas inventory methodology under international guidelines, strengthening his credibility in climate-related fields. His academic achievements include strong international exposure through schools and workshops, often awarded on a competitive basis. These honors reflect his intellectual merit, leadership potential, and ongoing commitment to advancing renewable energy research and global sustainability.

Research Skills

Jihan possesses a wide range of research skills that combine computational, technical, and analytical expertise. He is proficient in high-performance computing applications, enabling him to handle complex wind farm simulations and optimize models for renewable energy projects. His technical toolkit includes numerical modeling, energy systems analysis, and simulation software relevant to wind, solar, and biogas research. In addition, he has strong capabilities in carbon accounting, life-cycle analysis, and environmental impact assessment, which strengthen the policy and sustainability dimensions of his work. His laboratory experience ranges from computational physics to plasma and atomic experiments, providing a robust scientific foundation. Complementing these are practical project management and community engagement skills, gained through leadership in renewable energy and conservation projects. He is also adept in technical writing, scientific communication, and presenting research at international platforms. Together, these skills position him as a versatile researcher capable of contributing across academic, industrial, and policy domains.

Publication Top Notes

Title: Assessing Global Responsibility: Comparative Analysis of Fairness in Energy Transition Between Developing and Developed Countries
Authors: Jihan Ahmad As-sya’bani; Muhammad Zubair Abbas; Alzobaer Alshaeki; Herena Torio
Year: 2025
Journal: Sustainability (MDPI)

Title: Hydrogen Sulfide Presence in Low-Pressure Biogas and Desulphurizer Performance Comparison Towards Its Development of International Standard
Authors: Bendjamin Benny Louhenapessy; Muhammad Haekal Habibie; Yosi Aristiawan; Jihan Ahmad As-sya’bani; Krisna Wijaya
Year: 2023
Journal: AIP Conference Proceedings – XVII Mexican Symposium on Medical Physics

Title: Kajian Mekanika Kuantum dalam Sistem Koordinat Toroidal
Authors: Jihan Ahmad As-sya’bani; Muhammad Farchani Rosyid; Muhammad Nur
Year: 2017
Journal/Source: Undergraduate Thesis, Universitas Gadjah Mada

Title: Assessing Global Responsibility: Comparative Analysis of Fairness in Energy Transition Between Developing and Developed Countries
Authors: Jihan Ahmad As-sya’bani
Year: 2025
Journal/Source: Preprints (MDPI)

Conclusion

Jihan Ahmad As-sya’bani presents an impressive blend of academic excellence, multidisciplinary research experience, and international engagement in renewable energy and sustainability. His contributions to biogas standardization, wind energy simulations, and policy-relevant projects highlight his commitment to advancing clean energy solutions. His leadership in community-based renewable energy projects, coupled with a strong academic foundation and international exposure, make him a deserving candidate for the Best Researcher Award. With his ongoing research trajectory and leadership potential, Jihan is well-positioned to become a future global leader in the field of sustainable energy research.