Sebastian Kaminski – Bio-based materials in seismic areas – Best Researcher Award

Published on by Civil

Sebastian Kaminski - Bio-based materials in seismic areas - Best Researcher Award

Arup - United Kingdom

SEBASTIAN KAMINSKI: STRUCTURAL ENGINEER 🌍

Sebastian Kaminski is a seasoned Structural Engineer with sixteen years of experience in designing reinforced concrete, steel, masonry, timber, and bamboo structures. His expertise spans various international building codes, and he collaborates closely with architects, contractors, and humanitarian organizations to deliver cost-effective, practical design solutions. Sebastian’s work has taken him across the globe, leaving a positive impact in communities from Central America to Southeast Asia.

SUSTAINABLE HOUSING ADVOCATE 🏡

A passionate advocate for low-cost, sustainable housing, Sebastian has focused on using local materials and traditional building techniques. His work in developing nations, including projects in Haiti, Nepal, and Ecuador, integrates environmentally friendly technologies. Through fieldwork and community engagement, he helps create housing and schools that are resilient and affordable, ensuring that local communities are actively involved in the design and construction processes.

BAMBOO STRUCTURAL SPECIALIST 🎋

Sebastian is a recognized expert in the structural use of bamboo. He has delivered international training on bamboo construction and co-authored the 2021 ISO Bamboo Structural Design Code. His work promotes the appropriate use of bamboo in construction, enhancing its role as a sustainable building material. Sebastian’s guidance on bamboo has been crucial in post-disaster reconstruction efforts, particularly in earthquake-affected regions.

POST-EARTHQUAKE RECONSTRUCTION EXPERT 🌪️

With extensive field experience in post-earthquake reconstruction, Sebastian has contributed significantly to rebuilding efforts in Haiti, Nepal, and Ecuador. He provides technical support to humanitarian organizations and has worked closely with the Shelter Cluster in Ecuador and Nepal. His designs emphasize resilience and sustainability, focusing on rebuilding homes and infrastructure that can better withstand future natural disasters.

GLOBAL TRAINER & EDUCATOR 📚

Sebastian has conducted numerous training courses on timber and bamboo construction across continents, including Asia, Africa, and Latin America. His educational efforts aim to spread knowledge of sustainable building materials and best practices in structural engineering. His workshops and seminars have empowered builders and engineers with the skills needed to use timber and bamboo effectively.

INNOVATOR IN BAMBOO HOUSING 🛠️

Sebastian’s innovation in bamboo housing extends to new affordable housing projects, particularly in the Philippines and India. He collaborates with NGOs and bamboo specialists to develop affordable, durable housing solutions. By using locally sourced materials and modern engineering techniques, he is helping to scale bamboo construction for widespread use in low-income communities.

AUTHOR & PUBLISHER ✍️

As a prolific author, Sebastian has published numerous papers and design guides on bamboo construction and low-cost housing. His co-authored works, such as "Structural Use of Bamboo" and "A Low-Cost Vernacular Improved Housing Design," are highly regarded in the field of civil engineering. These publications provide essential insights into the structural use of bamboo, enhancing global understanding of this renewable material.

NOTABLE PUBLICATION

Title: Lessons Learnt from the 2009 Padang Indonesia, 2011 Tōhoku Japan and 2016 Muisne Ecuador Earthquakes
Authors: Chian, S.C., Wilkinson, S.M., Whittle, J.K., Kaminski, S., Lopez, J.
Journal: Frontiers in Built Environment
Year: 2019

Title: Bamboo Reinforced Concrete: A Critical Review
Authors: Archila, H., Kaminski, S., Trujillo, D., Zea Escamilla, E., Harries, K.A.
Journal: Materials and Structures/Materiaux et Constructions
Year: 2018

Title: Structural Use of Bamboo. Part 4: Element Design Equations
Authors: Kaminski, S., Lawrence, A., Trujillo, D., Feltham, I., López, L.F.
Journal: Structural Engineer
Year: 2017

Title: Structural Use of Bamboo Part 3: Design Values
Authors: Kaminski, S., Lawrence, A., Trujillo, D., Feltham, I., López, L.F.
Journal: Structural Engineer
Year: 2016

Title: Structural Use of Bamboo Part 2: Durability and Preservation
Authors: Kaminski, S., Lawrence, A., Trujillo, D., King, C.
Journal: Structural Engineer
Year: 2016

Syed Nasir Abbas – Sustainable Development – Best Researcher Award

Published on by Civil

Syed Nasir Abbas - Sustainable Development - Best Researcher Award

University of Sargodha - Pakistan

AUTHOR PROFILE

SCOPUS

🎓 EDUCATIONAL BACKGROUND AND RESEARCH EXPERIENCE

Syed Nasir Abbas is an accomplished civil engineer with a deep focus on material science, particularly in the areas of concrete and composite materials. He has completed his BSc and MSc research, investigating crucial topics such as the "Relationship between Plasticity Index and Expansion Index" and the "Flexural Capacity of Brick – FRP Composite." His academic work laid the foundation for further explorations into the mechanical behavior of construction materials.

🔬 RESEARCH SUPERVISION AND TEACHING

With years of experience in the field, Syed Abbas has guided multiple research projects for both Civil Engineering and Civil Engineering Technology students. His supervision has led to the successful completion of various final-year projects, emphasizing the impact of alternative materials on concrete properties, such as the use of Waste Foundry Sand (WFS) to enhance compressive strength and workability.

🏗️ INNOVATIVE RESEARCH IN CONCRETE AND COMPOSITE MATERIALS

Syed Abbas has made significant contributions to understanding the mechanical properties of concrete by integrating recycled materials. His groundbreaking work includes investigating the use of high-density polyethylene (HDPE), electronic waste (e-waste), and fly ash-based geo polymer concrete. These studies aim to improve the sustainability and performance of modern construction materials, which are vital for the future of civil engineering.

📚 PUBLISHED WORKS AND SCIENTIFIC CONTRIBUTIONS

Syed Abbas has published several papers in reputed journals, such as MDPI Sustainability and Science International Lahore. His research covers a wide range of topics, from flexural behavior of brick-FRP composites to the mechanical properties of concrete with alternative aggregates like HDPE and fly ash. His work highlights the potential for more sustainable and efficient construction materials.

🌍 SUSTAINABLE BUILDING MATERIALS

A core aspect of Syed Abbas’s research is sustainability in construction. His investigations into the use of recycled and alternative materials, including the combined effect of silica fume and various fibers, showcase his dedication to reducing the environmental impact of concrete production. This focus aligns with global efforts to promote eco-friendly and sustainable building practices.

🧱 EXPERIMENTAL STUDIES ON CONCRETE PERFORMANCE

Syed Abbas has conducted numerous experimental studies aimed at improving concrete’s compressive strength and overall performance. By exploring the effects of different compaction methods, admixtures, and the partial replacement of cement with silica fume, he continues to push the boundaries of material science in civil engineering.

🏆 AWARDS AND RECOGNITION IN THE FIELD

Through his dedication and innovative approach, Syed Abbas has earned recognition in the civil engineering community. His research not only contributes to the academic understanding of material properties but also offers practical solutions for improving construction techniques and building sustainability in the modern world.

NOTABLE PUBLICATION

Title: Combined effect of silica fume and various fibers on fresh and hardened properties of concrete incorporating HDPE aggregates
Authors: S.N. Abbas, M.I. Qureshi, M.K. Alkharisi, M. Alturki, Z. Ahmad
Journal: Construction and Building Materials
Year: 2024

Title: An Investigation of Mechanical Properties of Fly Ash Based Geopolymer and Glass Fibers Concrete
Authors: S.N. Abbas, M.I. Qureshi, M.M. Abid, A. Zia, M.A.U.R. Tariq
Journal: Sustainability (Switzerland)
Year: 2022

Title: An Investigation of Mechanical Properties of Concrete by Applying Sand Coating on Recycled High-Density Polyethylene (HDPE) and Electronic-Wastes (E-Wastes) Used as a Partial Replacement of Natural Coarse Aggregates
Authors: S.N. Abbas, M.I. Qureshi, M. Abid, M.A.U.R. Tariq, A.W.M. Ng
Journal: Sustainability (Switzerland)
Year: 2022

Da Xu – Urban power system planning – Best Researcher Award

Published on by Civil

Da Xu - Urban power system planning - Best Researcher Award

China University of Geosciences - China

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS

Da Xu's academic journey reflects a commitment to excellence in electrical engineering, beginning with his Bachelor's degree in Automation from Wuhan University of Technology and culminating in a Doctor of Philosophy from Hunan University. Under the guidance of esteemed supervisors, Xu honed his skills and developed a strong foundation in his field.

PROFESSIONAL ENDEAVORS

As an Associate Professor at China University of Geosciences, Wuhan, and a former Post-Doctoral Fellow at the University of Macau, Xu has demonstrated a dedication to academic research and teaching. His diverse experiences, including a research assistantship at The Hong Kong Polytechnic University, have enriched his perspective and contributed to his expertise in urban power system planning.

CONTRIBUTIONS AND RESEARCH FOCUS

Xu's research interests revolve around the planning and operation of smart grids with renewable energy sources, as well as multi-carrier energy systems. His innovative work has led to advancements in the optimization of energy systems, with a focus on promoting sustainability and resilience in urban power infrastructure.

IMPACT AND INFLUENCE

Through his extensive publication record in prestigious journals and his participation in academic conferences, Xu has made a significant impact on the field of electrical engineering. His research findings have practical implications for the development of efficient and sustainable energy solutions, influencing policymakers and industry professionals alike.

ACADEMIC CITES

Xu's scholarly contributions have garnered attention within the academic community, as evidenced by the citations his publications have received. His work serves as a cornerstone for further exploration and development in the realm of urban power system planning and renewable energy integration.

LEGACY AND FUTURE CONTRIBUTIONS

As Xu continues his academic journey, his focus on urban power system planning remains central to his research agenda. Through ongoing projects and collaborations, he seeks to address pressing challenges in energy sustainability and contribute to the realization of a cleaner and more resilient energy future. His legacy will be defined by his dedication to advancing knowledge and fostering innovation in the field of electrical engineering.

NOTABLE PUBLICATION

Fixed-time/Preassigned-time Dynamic Surface Control of Power Systems with Capacitive-coupled STATCOM 2024

A Cascaded Multilevel Battery Energy Storage Based Parallel Dynamic Voltage Compensator for Medium Voltage Industrial Distribution Systems 2024 (1)

Peer-to-Peer Transactive Computation–Electricity Trading for Interconnected Virtual Power Plant Buildings 2023

A Centralized Battery Energy Storage-Based Medium-Voltage Multiwinding DVC for Balance and Unbalance Operations 2023 (3)