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

Yong-Duck Chung | Climate-Responsive Architecture | Research Excellence Award

Published on by Architecture Engineers

Dr. Yong-Duck Chung | Climate-Responsive Architecture | Research Excellence Award

Principal Researcher | Electronics and Telecommunications Research Institute | South Korea

Dr. Yong-Duck Chung is a leading researcher in advanced materials science, with significant contributions to topological insulators, thin-film photovoltaics, and optoelectronic device engineering. His work focuses on the design, fabrication, and characterization of chalcogenide thin films, nano-structured materials, and surface/interface electronic structures using advanced techniques such as synchrotron radiation. He has played a pivotal role in developing high-efficiency CIGS solar cells, high-speed optical communication devices, and next-generation photonic systems. With a strong emphasis on functional thin films and quantum materials, his research bridges fundamental physics and practical device applications. He has authored 144 scientific publications with 1862 citations and an h-index of 25, reflecting sustained impact and scholarly influence. His contributions are further evidenced by numerous international patents in photovoltaic and optical technologies, advancing innovation in energy conversion and semiconductor device engineering.

Citation Metrics (Scopus)

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1,862
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144
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25
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Featured Publications

Madhiarasan Manoharan | Energy-Efficient Architecture | Best Researcher Award

Published on by Architecture Engineers

Dr. Madhiarasan Manoharan | Energy-Efficient Architecture | Best Researcher Award

Postdoctoral Fellow | Aarhus University | Denmark

Dr. Manoharan Madhiarasan is a Postdoctoral Fellow at the Department of Business Development and Technology, Aarhus School of Business and Social Sciences, Aarhus University, recognized for his expertise in renewable energy systems, artificial intelligence, machine learning, deep learning, forecasting, and optimization. He has previously served in research and academic roles across leading institutions, including IIT Roorkee, Transilvania University of Brașov, and the French Institute of Pondicherry, along with experience as Assistant Professor, Research and Development Coordinator, and project mentor in engineering and technology programs. His research spans solar and wind energy forecasting, photovoltaic system modelling, metaheuristic optimization, neural network design, IoT-based energy systems, and intelligent hybrid models, resulting in extensive international journal publications, book chapters, patents, and conference contributions. He has led national workshops, served as convener and coordinator for faculty development programs, and delivered keynote addresses at global summits on renewable energy and intelligent systems. Dr. Madhiarasan holds several prestigious recognitions, including competitive research fellowships and a Best Researcher Award, and he is an IEEE Senior Member with memberships across numerous professional bodies. He contributes widely to the scholarly community as Associate Editor, Guest Editor, and Editorial Board Member for multiple international journals, and as a reviewer for high-impact publishers such as Springer, Elsevier, IEEE, Wiley, MDPI, and Frontiers. His record reflects sustained leadership, interdisciplinary scholarship, and significant contributions to advanced energy technologies and computational intelligence. His research impact includes 466 citations, 31 publications, and an h-index of 9.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

1. M. Madhiarasan, G. Fotis, M. Presser, M.J. Beliatis, Mountain Gazelle Optimiser-based single, double, and triple diode models associated solar cells and panels parameters extraction. Discover Sustainability, 2025, 6, 903.

2. M. Madhiarasan, S.N. Deepa, N.Y. Jayalakshmi, Hyperparameter optimization of a deep radial basis neural learning approach for wind speed forecasting. Int. J. Syst. Assur. Eng. Manag., 2025, Accepted.

3. M. Madhiarasan, Bayesian optimisation algorithm based optimised deep bidirectional long short term memory for global horizontal irradiance prediction in long-term horizon. Front. Energy Res., 2025, 13, 1499751.

4. M. Madhiarasan, S.N. Deepa, Comparative analysis on hidden neurons estimation in multilayer perceptron neural networks for wind speed forecasting. Artif. Intell. Rev., 2016, 1–23.

5. M. Madhiarasan, M. Louzazni, Analysis of artificial neural network: architecture, types, and forecasting applications. J. Electr. Comput. Eng., 2022, 5416722.

Dr. Madhiarasan’s work advances intelligent renewable energy systems by integrating AI-driven forecasting, optimization, and smart energy technologies that enhance the reliability and efficiency of global power infrastructures. His research supports sustainable energy transitions, strengthens industry innovation, and provides data-driven solutions for emerging challenges in solar and wind energy applications. He envisions a future where intelligent computational models power cleaner, smarter, and more resilient energy ecosystems worldwide.

Yazhou Zhao | Energy-Efficient Architecture | Young Scientist Award

Published on by Architecture Engineers

Assist. Prof. Dr. Yazhou Zhao | Energy-Efficient Architecture | Young Scientist Award

Experimental Scientist at  Zhejiang University, China

Dr. Yazhou Zhao is an Assistant Research Professor at the College of Energy Engineering, Zhejiang University, and Senior Experimental Scientist at the Key Laboratory of Refrigeration & Cryogenic Technology of Zhejiang Province. A core member of the AI-for-Energy Research Group, he leads projects at the intersection of renewable energy, artificial intelligence, and thermodynamic systems. He has developed the GKS physics simulator for generative-AI-assisted teaching and has contributed to numerous national and international energy projects, including collaborations with the Chinese Academy of Sciences, the Chinese Academy of Engineering, and government–industry programs in geothermal and heat pump technologies. With over 30 peer-reviewed journal publications, multiple patents, and recognition such as the Qianjiang Energy Science & Technology Award, his work focuses on intelligent control of energy systems, geothermal technologies, and digital-twin-based optimization. Dr. Zhao’s contributions align with global low-carbon and net-zero energy goals, positioning him as a leader in energy-efficient architecture and sustainable technologies.

Professional Profile

Scopus

Education

Dr. Yazhou Zhao has pursued a multidisciplinary academic path across engineering and computational sciences. He earned his Ph.D. from the University of the Chinese Academy of Sciences, specializing in Geological Engineering under the supervision of Academician Wang Jiyang and Professor Pang Zhonghe. His doctoral research focused on medium-depth ground-source heat pump systems and coupled thermal-reservoir simulations. Earlier, he completed his Master’s degree in Fluid Mechanics and Aerodynamics at the Institute of Applied Physics and Computational Mathematics, Beijing, conducting advanced research on aero-engine turbomachinery aerodynamics and Lagrangian mesh-free methods. His undergraduate studies were at Wuhan University of Science & Technology. where he earned a Bachelor’s degree in Built Environment & Equipment Engineering. This broad academic foundation across thermodynamics, numerical methods, and renewable energy systems underpins his innovative research in energy engineering and artificial intelligence for sustainable technologies.

Experience

Dr. Yazhou Zhao currently serves as an Experimental Scientist at Zhejiang University, where he advances research in intelligent energy systems and AI-driven simulations. Previously, he was a Postdoctoral Fellow at Zhejiang University, focusing on machine learning applications for building energy systems and multi-physics numerical simulations. His professional journey includes leadership as Principal Investigator on several major renewable energy projects funded by national and provincial programs, including geothermal system optimization and solar-assisted heating technologies. He has collaborated on international projects with partners in Finland and the Netherlands, addressing global challenges in carbon reduction and sustainable architecture. Beyond academia, he has contributed to government consulting projects on geothermal industry strategy and industrial energy-efficiency solutions. With his extensive project management, innovation in AI-assisted digital twins, and applied energy engineering expertise, Dr. Zhao has consistently translated theoretical advancements into practical applications across multiple sectors.

Research Focus

Dr. Yazhou Zhao’s  research bridges thermodynamics, artificial intelligence, and renewable energy engineering. His primary focus is on the intelligent control of building energy systems, with an emphasis on time-varying and nonlinear HVAC systems. He has pioneered AI-driven approaches for fault detection, health monitoring, and decision-making in energy-efficient architecture. A major part of his work involves geothermal and ground-source heat pump technologies, where he has developed novel simulation models and strategies to optimize performance under diverse climatic conditions, particularly in hot-summer/cold-winter zones. His research also advances large-scale computational fluid dynamics (CFD), leveraging machine learning to improve turbulence modeling and thermodynamic simulations across multi-phase and multi-scale systems. Furthermore, Dr. Zhao has contributed to digital twin platforms, integrating physical models, AI, and experimental data for smart operation of complex energy infrastructures. His research is strategically aligned with global carbon neutrality initiatives, offering innovative pathways to sustainable energy transformation.

Awards and Honors 

Dr. Yazhou Zhao ’s contributions have been recognized with multiple awards across academic, research, and coaching achievements. He received the Second Prize of the Qianjiang Energy Science & Technology Award for his groundbreaking project on IoT-based control of smart ground-source heat pump systems. During his early academic career, he won top prizes in national mathematics and modeling competitions, including First Prize in the National Undergraduate Mathematics Competition and honors at the COMAP Mathematical Contest in Modeling. Beyond his research, he has served as a coach, guiding teams to success in global competitions such as the S. T. Yau Science and Physics Awards and the HiMCM contest, securing multiple first prizes. His awards reflect both technical excellence and mentorship, underscoring his leadership in advancing the next generation of researchers while driving forward the field of renewable energy and energy-efficient systems.

Publication Top Notes

Title: An efficient hybrid model for thermal analysis of deep borehole heat exchangers
Authors: Zhao Y., Pang Z., Huang Y., Ma Z. 
Summary: Proposes a hybrid model integrating analytical and numerical methods to improve efficiency in modeling deep borehole exchangers.

Title: A fast simulation approach to the thermal recovery characteristics of deep borehole heat exchanger after heat extraction
Authors: Zhao Y., Ma Z., Pang Z. 
Summary: Introduces a rapid simulation method to evaluate thermal recovery of boreholes, enhancing geothermal system design.

Title: Heat transfer modeling on high-temperature charging and discharging of deep borehole heat exchanger with transient strong heat flux
Authors: Zhao Y., Qin X., Shi X. 
Summary: Develops transient models for high-intensity borehole heat storage, addressing system performance at elevated conditions.

Title: Performance evaluation of solar and condensing heat recovery systems for air reheating and humidification in industrial buildings
Authors: Wu F., Huang X., Zhang L., Gao J., Sun Y., Zhao Y., Zhang X. 
Summary: Evaluates hybrid solar and condensing heat recovery systems, showing improved efficiency in industrial HVAC applications.

Title: Study on the thermal imbalance characteristics and optimal operation strategy of ground source heat pump system in hot summer and cold winter areas
Authors: Zhao Y., Gao J., Wu F., Sun Y., Liu A., Yu Z., Zhang X. 
Summary: Investigates thermal imbalance issues in ground-source systems, offering optimized operation strategies for challenging climates.

Conclusion

Dr. Yazhou Zhao demonstrates a strong blend of academic rigor, technological innovation, and leadership in renewable energy and intelligent building systems. His consistent research contributions, particularly in geothermal energy and advanced heat pump systems, are aligned with pressing global challenges such as carbon neutrality and energy efficiency. With further emphasis on international collaboration and broader dissemination of his work, he stands out as a highly suitable candidate for the Best Researcher Award.