Farshad Nasrollahi | Energy-Efficient Architecture | Best Researcher Award

Published on by Architecture Engineers

Best Researcher Award

 Farshad Nasrollahic
Technical University Berlin, Germany

 Farshad Nasrollahic
Affiliation Technical University Berlin
Country Germany
Scopus ID 55907444900
Documents 7
Citations 198
h-index 4
Subject Area Thermal Comfort / Energy Efficient Design
Event Architecture Engineers Awards

Assoc. Prof. Dr. Farshad Nasrollahic is an academic researcher associated with Technical University Berlin, Germany. His scholarly work focuses on thermal comfort, building performance, and energy-efficient architectural design. His research profile demonstrates engagement with sustainable building systems and environmental performance evaluation within contemporary architectural and engineering contexts.[1]

Abstract

This article presents an academic overview of Assoc. Prof. Dr. Farshad Nasrollahic in recognition of his contributions to thermal comfort research, sustainable architecture, and energy-efficient building design. The profile highlights scholarly achievements, publication activity, research influence, and suitability for professional recognition within the Architecture Engineers Awards framework.[1]

Keywords

Thermal Comfort, Energy Efficiency, Sustainable Architecture, Building Performance, Indoor Environment Quality, Environmental Design, Architectural Engineering, Building Simulation, Occupant Comfort, Green Buildings.[2]

Introduction

Research in thermal comfort and energy-efficient building design has become increasingly significant as the built environment seeks sustainable solutions. Assoc. Prof. Dr. Farshad Nasrollahic has contributed to this field through studies examining environmental performance, occupant well-being, and energy-conscious architectural strategies that support contemporary sustainability objectives in building design and operation.[1]

Research Profile

Based at Technical University Berlin, Dr. Nasrollahic’s research activities focus on thermal comfort assessment, environmental quality, and building energy performance. His Scopus profile reflects a developing body of scholarly publications with measurable citation impact, demonstrating engagement in interdisciplinary architectural and engineering research addressing sustainable building environments.[1]

Research Contributions

Dr. Nasrollahic has contributed to understanding relationships between indoor environmental conditions and occupant comfort. His research explores strategies for enhancing energy efficiency while maintaining acceptable thermal conditions within buildings. Such work supports evidence-based design approaches that integrate sustainability goals with user-centered architectural and engineering considerations.[2]

Publications

The researcher has produced scholarly publications indexed within Scopus, contributing to literature concerning thermal comfort, environmental performance, and sustainable building systems. These publications provide academic insights into building operation, energy use optimization, and occupant-focused design methodologies, supporting ongoing advancements in architectural engineering research.[1][3]

Research Impact

With 198 citations and an h-index of 4, the research profile indicates scholarly visibility and academic engagement. Citation activity suggests that published findings have informed subsequent studies within relevant subject areas, contributing to discussions surrounding sustainable buildings, thermal comfort evaluation, and environmental performance assessment methodologies.[1]

Award Suitability

The combination of academic publications, citation performance, and contributions to sustainable building research supports consideration for professional recognition. His work aligns with themes commonly emphasized within architectural engineering awards, including innovation, environmental responsibility, occupant well-being, and the advancement of knowledge supporting improved building performance outcomes.[1][4]

Conclusion

Assoc. Prof. Dr. Farshad Nasrollahic has established a research profile centered on thermal comfort and energy-efficient building design. Through scholarly publications and measurable citation impact, his work contributes to sustainable architecture and environmental performance research, supporting continued academic development and recognition within the architectural engineering community.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Assoc. Prof. Dr. Farshad Nasrollahic, Author ID 55907444900. Scopus.

    https://www.scopus.com/authid/detail.uri?authorId=55907444900
  2. Hadianpour, M., Mahdavinejad, M., Bemanian, M. R., & Nasrollahi, F. (2018). Seasonal differences of subjective thermal sensation and neutral temperature in an outdoor shaded space in Tehran, Iran. Sustainable Cities and Society, 39, 751–764.
  3. https://www.researchgate.net/publication/323568236
  4. Mohammadi, A., Saghafi, M. R., Tahbaz, M., & Nasrollahi, F. (2018). The study of climate-responsive solutions in traditional dwellings of Bushehr City in Southern Iran. Journal of Building Engineering, 16, 169–183.

    https://www.researchgate.net/publication/322124783

  5. Architecture Engineers Awards. (n.d.). Award recognition program information.
    https://architectureengineers.com/

Zafer Utlu | Green Building and LEED Design | Research Excellence Award

Published on by Architecture Engineers

Research Excellence Award

Zafer Utlu
Istanbul Atlas University
Zafer Utlu
Affiliation Istanbul Atlas University
Country Turkey
Scopus ID 56037531000
Documents 96
Citations 2,256
h-index 28
Subject Area Thermodynamics
Event Architecture Engineers Awards
ORCID 0000-0003-1981-9107

The Research Excellence Award recognition page highlights the academic achievements and scholarly contributions of Zafer Utlu of Istanbul Atlas University. His research activities have focused primarily on thermodynamics, energy systems, exergy analysis, sustainability assessment, and engineering applications related to efficient energy utilization.[1]

Abstract

Zafer Utlu has established a recognized academic profile through research focused on thermodynamic analysis, exergy methodologies, energy efficiency, renewable energy systems, and sustainable engineering practices. His body of scholarly work demonstrates an interdisciplinary approach that integrates theoretical thermodynamics with practical industrial and environmental applications. The measurable research impact reflected through publications, citations, and scholarly influence provides evidence of continued engagement with scientific advancement and engineering innovation.[1][2]

Keywords

  • Thermodynamics
  • Exergy Analysis
  • Energy Systems
  • Sustainable Engineering
  • Renewable Energy
  • Energy Efficiency

Introduction

Research in thermodynamics remains central to modern engineering, environmental sustainability, and industrial optimization. The scientific contributions of Zafer Utlu are situated within this broader context, emphasizing analytical methods that improve understanding of energy transformation processes and resource efficiency. His investigations frequently examine thermodynamic performance metrics and exergy-based evaluation frameworks that support sustainable technological development.[2]

Research Profile

As a scholar affiliated with Istanbul Atlas University, Zafer Utlu has contributed to the advancement of thermal sciences through extensive publication activity and interdisciplinary collaborations. His research profile demonstrates sustained scholarly productivity, reflected by a Scopus-indexed publication record and notable citation performance. His academic interests encompass thermodynamics, energy management, sustainability analysis, exergy assessment, and engineering optimization methodologies.[1]

Research Contributions

  • Development and application of exergy-based evaluation techniques for energy systems.
  • Investigation of thermodynamic performance indicators in industrial processes.
  • Research on energy conservation and sustainability-oriented engineering solutions.
  • Assessment of renewable energy technologies and efficiency optimization strategies.
  • Contribution to scholarly discussions concerning sustainable resource utilization.

These contributions support both academic inquiry and practical engineering implementation, reinforcing the relevance of thermodynamic analysis in contemporary sustainability challenges.[3]

Publications

The researcher has authored and co-authored numerous peer-reviewed publications indexed within major scientific databases. These publications span subjects related to energy efficiency, thermodynamic assessment, exergy evaluation, renewable energy systems, and sustainable engineering design. The cumulative publication portfolio demonstrates both depth and continuity of research activity over multiple years.[1]

  1. Studies on exergy analysis and thermodynamic performance assessment.
  2. Research concerning renewable energy technologies and sustainability metrics.
  3. Engineering investigations focused on energy optimization methodologies.
  4. Analytical evaluations of thermal systems and industrial applications.

Research Impact

The scholarly impact of Zafer Utlu is reflected through a citation count exceeding two thousand citations and an h-index of 28. These indicators suggest that his publications have been referenced across a broad range of studies involving thermodynamics, energy engineering, sustainability assessment, and related scientific disciplines. Citation-based metrics further indicate continued relevance and visibility within the international research community.[1]

Award Suitability

The Research Excellence Award recognizes sustained academic achievement, impactful scholarship, and contributions that advance knowledge within a specialized field. Based on documented publication productivity, citation performance, and engagement with thermodynamics research, Zafer Utlu demonstrates characteristics commonly associated with academic distinction. His contributions align with the objectives of recognizing scientific advancement, research leadership, and scholarly influence within engineering and applied sciences.[1][2]

Conclusion

Zafer Utlu’s academic profile illustrates a sustained commitment to thermodynamics and energy-related research. Through publication activity, citation impact, and continued engagement with engineering challenges, his work contributes to scientific understanding and practical applications associated with sustainable energy utilization. The Research Excellence Award serves as recognition of scholarly achievement and research contributions within the broader engineering community.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Zafer Utlu, Author ID 56037531000. Scopus.https://www.scopus.com/authid/detail.uri?authorId=56037531000
  2. ORCID. (n.d.). ORCID record for Zafer Utlu.https://orcid.org/0000-0003-1981-9107

  3. Söğüt, M. Z., & Utlu, Z. (2026). Thermodynamic and electrochemical modeling of alternative battery materials for electric vehicle energy storage systems. World Electric Vehicle Journal, 17(4), 207.

    https://doi.org/10.3390/wevj17040207

  4. Architecture Engineers Awards. (n.d.). Award information and recognition program.https://architectureengineers.com

Hasim Altan | Sustainable Architecture | Editorial Board Member

Published on by Architecture Engineers

Editorial Board Member

Hasim Altan
United Arab Emirates University
Hasim Altan
Affiliation United Arab Emirates University
Country United Arab Emirates
Scopus ID 24757803500
Documents 133
Citations 1,491
h-index 23
Subject Area Building Performance Simulation
Event Architecture Engineers Awards
ORCID 0000-0002-9534-1961

Hasim Altan is an academic researcher affiliated with the United Arab Emirates University whose scholarly activities have contributed to the advancement of sustainable architecture, building performance simulation, environmental design, and energy-efficient construction practices. His publication profile demonstrates sustained engagement with interdisciplinary research addressing sustainable urban development, climate-responsive architectural systems, and innovative engineering applications in the built environment.[1] The academic recognition associated with the Architecture Engineers Awards reflects professional contributions to research, teaching, and scholarly dissemination within architecture and engineering disciplines.[2]

Abstract

This academic article presents a structured overview of the scholarly profile and professional recognition of Hasim Altan in the field of architecture and building performance simulation. The article examines institutional affiliations, publication productivity, citation indicators, interdisciplinary research themes, and contributions to sustainable architectural engineering. Particular attention is given to research activities related to environmental sustainability, building energy efficiency, simulation methodologies, and architectural innovation within global academic contexts.[1] The article also evaluates the relevance of these achievements within the framework of the Architecture Engineers Awards and broader academic recognition systems.[3]

Keywords

Building Performance Simulation; Sustainable Architecture; Environmental Design; Energy Efficiency; Architectural Engineering; Climate-Responsive Buildings; Urban Sustainability; Green Construction; Academic Research; Built Environment.

Introduction

The increasing importance of sustainability in the built environment has intensified global research activities related to energy-efficient design, environmental simulation, and resilient architectural systems. Researchers working within architecture and engineering disciplines contribute significantly to the development of innovative methods capable of improving building performance and reducing environmental impact.[4] Within this context, Hasim Altan has established an academic profile characterized by interdisciplinary scholarship connecting architecture, sustainability, simulation technologies, and environmental engineering.[1]

Academic recognition through editorial responsibilities and award-oriented platforms reflects both scholarly productivity and professional engagement. Editorial board memberships frequently indicate expertise in peer review, scientific evaluation, and disciplinary leadership within international research communities.

Research Profile

Hasim Altan is associated with United Arab Emirates University and maintains an established publication record indexed through Scopus and ORCID research systems.[1] The research profile includes publications spanning architecture, building science, energy modeling, environmental sustainability, and engineering applications relevant to climate-responsive urban development.

The available citation metrics demonstrate measurable scholarly influence within architecture and engineering research networks. Citation indicators, including the h-index and total citation count, are frequently used to assess the dissemination and academic reception of published research outputs.[2]

  • Primary specialization in building performance simulation and sustainable architecture.
  • Research contributions related to environmental sustainability and energy-efficient building systems.
  • Interdisciplinary collaboration involving architecture, engineering, and environmental sciences.
  • Active scholarly dissemination through indexed journals and international academic platforms.

Research Contributions

The research activities associated with Hasim Altan emphasize analytical approaches to building sustainability and environmental optimization. Building performance simulation techniques are increasingly applied to assess thermal behavior, energy consumption, indoor environmental quality, and sustainable operational performance in contemporary architectural practice.[3]

Contributions within this field frequently involve simulation-driven methodologies for evaluating architectural efficiency under diverse climatic conditions. Such methodologies support informed decision-making processes for architects, planners, and engineers involved in sustainable urban development projects.[4]

  • Research on energy-efficient architectural systems and environmental design strategies.
  • Development of simulation-based approaches for evaluating building sustainability.
  • Investigation of climate-responsive architectural solutions in urban environments.
  • Academic engagement with sustainable construction technologies and green building frameworks.

Publications

The publication portfolio associated with Hasim Altan includes scholarly articles and collaborative research outputs addressing architecture, sustainability, environmental engineering, and building simulation technologies.[1] Indexed publications contribute to international academic discourse concerning sustainable built environments and energy-conscious architectural systems.

  1. Research studies related to sustainable building performance assessment methodologies.
  2. Scholarly analyses examining environmental impacts of architectural systems.
  3. Publications addressing simulation technologies in sustainable urban planning.
  4. Collaborative interdisciplinary investigations involving engineering and environmental sustainability.

Research Impact

Research impact within architecture and engineering disciplines is frequently evaluated through publication productivity, citation analysis, interdisciplinary collaboration, and contributions to sustainable development initiatives. The documented citation metrics associated with Hasim Altan indicate sustained academic visibility within scholarly communication systems.[1]

Research outputs addressing building performance simulation and environmental sustainability possess practical relevance for policymakers, architects, urban planners, and engineering professionals. Simulation-informed approaches contribute to improving building efficiency, reducing environmental impact, and advancing evidence-based design methodologies within contemporary architectural practice.

Award Suitability

The Architecture Engineers Awards recognize professional and academic contributions that demonstrate innovation, research excellence, and interdisciplinary engagement within architecture and engineering domains.[3] Based on the documented publication activity, citation performance, and specialization in sustainable architectural systems, Hasim Altan’s academic profile aligns with several evaluation themes commonly associated with scholarly recognition initiatives.

  • Established publication record indexed within international academic databases.
  • Demonstrated scholarly influence through citations and interdisciplinary collaborations.
  • Contributions to sustainable architecture and building simulation methodologies.
  • Professional engagement relevant to editorial and academic leadership responsibilities.

Conclusion

Hasim Altan represents an academic researcher whose contributions to building performance simulation, sustainable architecture, and environmental design are reflected through indexed publications, citation indicators, and interdisciplinary scholarship. The academic profile demonstrates continuing engagement with sustainable development themes relevant to contemporary architecture and engineering research.[1] Participation in editorial and professional recognition platforms further highlights the role of scholarly leadership within international research communities.

References

  1. Elsevier. (n.d.). Scopus author details: Hasim Altan, Author ID 24757803500. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=24757803500
  2. Architecture Engineers Awards. (n.d.). Architecture Engineers Awards official website. https://architectureengineers.com
  3. ORCID. (n.d.). ORCID profile of Hasim Altan.
    https://orcid.org/0000-0002-9534-1961
  4. Afash, H., Ozarisoy, B., & Altan, H. (2025). Biofuel production using tire waste in fast pyrolysis: A life cycle assessment study. Sustainable Environment, 11(1), Article 2510728.
    https://doi.org/10.1080/27658511.2025.2510728

Dongmin Kim | E-Mobility | Best Researcher Award

Published on by Architecture Engineers

Dr. Dongmin Kim | E-Mobility | Best Researcher Award

Post-doctoral researcher | Korea Advanced Institute of Science and Technology | South Korea

Dr. Dongmin Kim is a Post-doctoral Researcher at the Mechanical Engineering Research Institute, Korea Advanced Institute of Science and Technology (KAIST), specializing in electric vehicles, energy consumption modeling, and intelligent transportation systems. He earned his Ph.D. and M.S. from the Cho Chun Shik Graduate School of Mobility at KAIST, focusing on electric vehicle battery internal resistance degradation and driving energy efficiency, and holds a B.S. in Electrical and Electronics Engineering from Chung-Ang University. Dr. Kim has led and contributed to multiple projects on battery-in-the-loop systems, cooperative-intelligent transport systems, and real-world data-driven modeling of electric vehicle efficiency. His research outputs include high-impact publications in leading journals such as Applied Energy, eTransportation, and IEEE Transactions on Intelligent Transportation Systems, alongside numerous conference papers and domestic journal contributions. He has also advanced the field through patents on battery management and charging systems and invited presentations at international academic and industrial forums. Recognized for excellence, he has received awards such as the Best Paper Award from the Korean Institute of Intelligent Transport Systems, the KITS President’s Award, and the Grand Award in the Start-up Idea Competition at KAIST. Additionally, he has completed professional certifications in battery systems, eco-friendly vehicle technologies, and AI-based energy solutions, and has actively contributed as a member of Korea’s intelligent transportation research community. Dr. Kim’s distinguished record of innovation, research leadership, and academic excellence positions him as a transformative contributor to the advancement of sustainable mobility and intelligent transportation systems, with a current record of 2 citations across 4 publications and an h-index of 1.

Profiles: Scopus | ORCID | Google Scholar

Featured Publication

1. Kim D., Lee H., Lee J., Unsupervised learning approach for risky driving behavior identification on expressways in C-ITS environments. IEEE Trans. Intell. Transp. Syst., 2025, 10.1109/TITS.2025.3538929.

2. Kim D., Yun G., Jang K., Woo S., Auxiliary energy consumption of electric vehicles: Modeling and prediction using real-world vehicle data. Appl. Energy, 2025, 10.1016/j.apenergy.2025.126766.

3. Kim D., Jang K., Component-level analysis for developing an energy consumption model for battery electric vehicles (BEVs) in operation. eTransportation, 2025, 10.1016/j.etran.2025.100472.