Polpat Nilubon | Adaptation | Best Researcher Award

Posted on 27/02/202427/02/2024 by ScienceFather

Dr. Polpat Nilubon | Adaptation | Best Researcher Award

Head of International affairs, Rajamangala University of Technology Thanyaburi, Thailand

Dr. Polpat Nilubon, esteemed Head of International Affairs at Rajamangala University of Technology Thanyaburi, Thailand, is celebrated for his groundbreaking work in the field of adaptation research. His dedication and innovative approach have earned him the prestigious Best Researcher Award. 🏆 Dr. Nilubon’s contributions have significantly advanced our understanding of adaptation mechanisms in various contexts, paving the way for practical applications and policy interventions. With his expertise, he continues to drive impactful change, ensuring resilience and sustainability in the face of evolving challenges.

Profile

Google scholar

Education

Dr. Polpat Nil-u-bon, born on May 13, 1985, in Bangkok, Thailand, boasts an illustrious career as a highly qualified architect. His expertise lies in the intricate fusion of design and technology, with a specialized focus on Flood Resilience of Urban Systems in Architecture and Urban Design. Holding a Bachelor’s degree in Architecture from Rajamangala University of Technology Thanyaburi (RMUTT), he pursued further education, earning two Master’s degrees from Chulalongkorn University (CU) and The Berlage Institute/TUDelft, along with a Doctoral degree from IHE Delft and TUDelft, Netherlands. Dr. Nil-u-bon’s journey exemplifies dedication to advancing urban resilience strategies. 🌆

Experience

Presently, Dr. Polpat Nil-u-bon serves as a lecturer and researcher at the Faculty of Architecture, Rajamangala University of Technology Thanyaburi (RMUTT), located in Pathumthani, Thailand. Alongside his academic role, he channels his expertise as a Co-Founder of nppn design and research company, operating through www.nppncompany.com. 🏢 Through these dual capacities, Dr. Nil-u-bon seamlessly bridges academia with practical innovation, fostering a holistic approach to urban resilience and architectural advancement. His commitment to both education and real-world application underscores his impactful contributions to the field, ensuring sustainable solutions for contemporary urban challenges.

Contribution

In many developing cities, flood adaptation measures face planning challenges, often remaining underdeveloped. This paper explores urban flood adaptation solutions within a climate-vulnerable Southeast Asian city, focusing on the transformative potential of “design workshops.” Through collaboration with designers, planners, and decision-makers, the workshop introduced and experimented with adaptation pathways. Findings highlight the workshop’s role in formulating integrated flood adaptation solutions, fostering urban climate resilience. The adaptation pathways approach facilitates a concrete, time-bound design process for Bangkok’s flood adaptation. Multidisciplinary collaboration is crucial, yet feasibility depends on policy alignment, technical expertise, and local resources. Implementing such strategies requires a concerted effort by local governments, emphasizing a multidisciplinary approach to urban planning and flood risk management. 🏙️

Publications Top Notes

“Amphibious architecture and design: a catalyst of opportunistic adaptation? – Case study Bangkok” (2016)

Authors: N. Polpat, V. William, Z. Chris

Published in: Social and Behavioral Sciences

Cited by: 31

“Integrating Climate Adaptation into Asset Management Planning: Assessing the Adaptation Potential and Opportunities of an Urban Area in Bangkok” (2019)

Authors: N. Polpat, V. William, Z. Chris

Published in: International Journal of Water Resources Engineering

Cited by: 8

“Challenges in implementing an Opportunistic Adaptation approach in Bangkok” (2019)

Author: P. Nilubon

Published in: International Journal of Water Resources Engineering

Cited by: 3

“Decision tree method (Flexibility in adaptation – FIA) for evaluating the flexibility of flood risk adaptation options in Lad Krabang, Thailand” (2019)

Authors: N. Polpat, V. William, Z. Chris

Published in: International Journal of Water Resources Engineering

Cited by: 2

“Re-thinking new possibilities for urban climate resilience planning in Bangkok: Introducing adaptation pathways through a multidisciplinary design workshop” (2024)

Authors: N. Polpat, L. Naim

Published in: Environmental Science & Policy

Alfredo Dias | Sustainable construction | Sustainable Innovation Pioneer Award

Posted on 27/12/202329/12/2023 by ScienceFather

Alfredo Dias : Sustainable Innovation Pioneer Award

👨‍🏫 Alfredo Dias stands as a distinguished academic and researcher in the domain of Sustainable construction . Holding a Ph.d in Delft University of Technology his professional journey exemplifies dedication and expertise. 📚

🌐 Professional Profiles:

Academic Qualifications 📚

Alfredo Manuel Pereira Geraldes Dias pursued his academic journey through a BSc in Civil Engineering from the University of Coimbra, Portugal, in 1997, achieving a noteworthy final grade of 17 out of 20. 🏗️ His educational path continued with an MSc in Civil Engineering (Structures) from the same university in 1999. 📘 However, the pinnacle of his academic pursuit was marked by a PhD in Mechanical Behavior of Timber-Concrete Connections attained from Delft University of Technology, The Netherlands, in 2005. 🌍 This specialized focus on exploring the mechanical intricacies of timber-concrete connections played a pivotal role in shaping his subsequent research and professional engagements within the sphere of timber and composite structures. 🔍

Professional Engagements and Leadership Roles 🏗️🌐

Professional Membership

Senior member of the Portuguese Civil Engineering Association since 2004.Member of the Technical Committee CT14 “Wood” since 2006.Participation as a member of the Technical Committee CT115 “Structural Codes” since 2012.

Leadership and Coordination Responsibilities

Chairman of the National mirror committee from TC 124 since 2009.Chairman of the National mirror committee from TC 250\SC5 since 2014.Coordinator of the Working group “Innovative timber & composite elements for buildings” in COST E29 from 2004 to 2006.Coordinator of the Working group “Hybrid structures” in COST FP1402 “Basis of structural timber design – from research to standards” from 2014 to 2018.Head of the sub-group involved in preparing the new Eurocode 5 part on composite structures from 2011 to 2014.Convener of the WG2 from TC250\SC5 “Composite structures” from 2014 to 2020.Chairman of the Project Team SC5.T2 responsible for preparing the new Eurocode part on timber composites from 2015 to 2018.

Scientific Contributions 🌐📚

Published Research

Authored or co-authored 72 papers in ISI-Web of Knowledge indexed International Journals, with 66 specifically focusing on timber products and structures since 2005.Contributed to 66 papers in non-indexed journals and scientific conferences, with 60 covering topics related to timber products and structures since 2005.

Reviewer Engagement

Acted as an independent reviewer for 25 different International Journals since 2005.Served as an independent reviewer in 15 international conferences associated with timber products and structures since 2005.

Academic Supervision

Supervised or co-supervised 10 PhD theses, successfully concluding 6 and currently overseeing 4 ongoing research endeavors since 2005.

Research Project Involvement

Involved in 25 research projects, all focused on timber products and structures since 2005, taking the lead in 18 of these projects as the principal investigator.

Alfredo Dias’s citation metrics and indices from Google Scholar are as follows:

📊 Citation Metrics (Google Scholar):

Cited by: All – 2134, Since 2018 –1466
h-index: All – 22, Since 2018 – 20
i10-index : All -48 Since 2018 -39

Summary 🔍

Reinforced concrete corner for timber frame moment resisting joints –Design and experimental assessment

🌟 Introduces an innovative moment-resisting joint design for timber frames. 🪵 Uses a prismatic corner filled with robust concrete reinforced by steel bars within the timber beam and column. 🔍 Conducts analytical and experimental studies to assess resisting moment, stiffness, and failure modes of the proposed joint. 📏 Explores how timber cross-section and steel bar diameters influence resisting moment via a mechanical stress-strain model. ⚙️ Prefers steel bar yielding over timber shear failure, considering steel’s ductility. 🧪 Produces and tests knee joint specimens with varying steel bar diameters, aligning well with analytical estimates. 🛠️ Performs tests on polygonal bolted joint specimens for comparison purposes. 💪 Shows significantly improved rotational stiffness and bending strength compared to traditional bolted joints. 🏁 Concludes the joint’s structural effectiveness and its promising potential for real-world applications.