Santhosh S | Sustainable Architecture | Research Excellence Award

Published on by Architecture Engineers

Dr. Santhosh S | Sustainable Architecture | Research Excellence Award

Assistant Professor | Adhiparasakthi College of Engineering | India

Dr. S. Santhosh is an Assistant Professor in Civil Engineering at Adhiparasakthi College of Engineering, specializing in structural engineering, sustainable construction materials, geotechnical engineering, transportation systems, and environmental infrastructure. With extensive academic and administrative experience, he has served in roles including Head of Department, coordinator for academic quality initiatives, conference organizer, and member of university level question setting committees, contributing significantly to institutional development and student advancement. His research focuses on advanced concrete technologies, sustainable materials, lightweight and geopolymer concrete, AI-driven modelling, and smart infrastructure solutions, supported by publications in Scopus- and SCI indexed journals and presentations at prominent conferences. He has authored multiple technical books, guided numerous undergraduate scholars, and secured several Indian and international design patents related to construction devices, safety systems, and engineering innovations. He holds professional memberships in recognized engineering bodies and certifications in advanced civil engineering software and computing tools, complemented by recognition through teaching and research awards. His research impact includes 2 citations, 5 publications, and an h-index of 1.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

1. Santhosh S., Jagan P., Priyanga J., Analysis of mechanical properties on 3E-materials with blend concrete. Int. J. Civil Eng. Technol., 2018.

2. Santhosh S., Arivalagan S., Investigation of M-Sand concrete mix with mineral admixtures as partial replacement of cement. Int. J. Civil Eng. Technol., 2018.

3. Santhosh S., Raghunathapandian P., Thanaraj M.S., Jebastina N., Triple waste aggregates integration for sustainable self-compacting geopolymer concrete: A hybrid synergy. Waste Biomass Valorization, 2025, Accepted.

4. Santhosh S., Srivastava R., Subbiah M., Maddila L.C., Malla C., Begum M.B., Nanoelectronic sensors for real-time health and environmental monitoring. IEEE Int. Conf. Intelligent Technologies (CONIT), 2025.

5. Santhosh S., Arivalagan S., Utilization of oil palm shell in lightweight reinforced concrete. Eur. Chem. Bull., 2023.

Dr. S. Santhosh’s work advances sustainable construction through innovative materials, AI-driven modelling, and environmentally responsible engineering solutions, supporting the transition toward greener infrastructure. His contributions strengthen industry practices, enhance structural performance, and promote scalable, low-carbon technologies for future-ready civil engineering.

Monika Szopińska-Mularz | Sustainable Architecture | Research Excellence Award

Published on by Architecture Engineers

Dr. Monika Szopińska-Mularz | Sustainable Architecture | Research Excellence Award

Assistant Professor | Rzeszow University of Technology | Poland

Monika Szopińska-Mularz is a lecturer in architecture at Rzeszów University of Technology and a Chartered Architect whose expertise centers on adaptive reuse, sustainable urban regeneration, and controlled environment agriculture. With academic and professional experience spanning architectural practice, design studio leadership, research supervision, and project coordination, she has contributed to diverse architectural projects in healthcare, housing, office design, and the revitalization of urban structures. Her research advances innovative strategies for repurposing modern movement car-parking structures into productive urban assets, reflected in her numerous publications in international journals and a monograph on adaptive reuse for urban food provision. She serves as the principal investigator of an international research consortium developing decision-support tools for urban food-production infrastructures and actively participates in professional and academic committees. Her scholarship integrates research-for-design and research-by-design methodologies, supported by extensive case studies, interviews, and design scenario development. She is a member of the Polish Architects’ Association, the Cluster for Sustainable Cities, and the UK Urban AgriTech collective, and she has contributed to editorial and review activities through her involvement in academic conferences and collaborative publications. Her work has been recognized through distinctions such as the Polityka Science Award finalist honor and international design competition recognition, underscoring her impact on sustainable architectural innovation. Her research impact includes 25 citations, 14 publications, and an h-index of 3.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

1. Szopińska-Mularz M., Prokop A., Wikiera M., Bukowy W., Forsman F., Adaptive reuse of urban structures as a driver of sustainable development goals: a systematic literature review. Sustainability, 2025.

2. Szopińska-Mularz M., Lehmann S., Urban farming in inner-city multi-storey car-parking structures: adaptive reuse potential. Future Cities Environ., 2019.

3. Szopińska-Mularz M., Lehmann S., Balancing increased urban density with green spaces: the marketing of new housing estates in Poland. Buildings, 2023.

4. Szopińska-Mularz M., Adaptive reuse of modern movement car parking structures for controlled environment agriculture: results from an interview study for the innovative design process in cities. City Cult. Soc., 2022.

5. Szopińska-Mularz M., Adaptive Reuse for Urban Food Provision. Cities and Nature, Springer International Publishing, 2022.

Her work advances scientific understanding of adaptive reuse by integrating architectural innovation with sustainable urban food systems, offering evidence-based frameworks that strengthen urban resilience. Through research-driven design methodologies, she provides pathways for cities to repurpose underused infrastructures into productive assets that enhance environmental, social, and economic sustainability.

Mahyar Fazli | Green Building and LEED Design | Best Innovation Award

Published on by Architecture Engineers

Dr. Mahyar Fazli | Green Building and LEED Design | Best Innovation Award

Research Assistant | Sharif University of Technology | Iran

Mahyar Fazli is a Research Assistant in the Department of Aerospace Engineering at Sharif University of Technology, specializing in thermoacoustics, renewable energy systems, waste heat recovery, pulsating heat pipes, and advanced thermal management technologies. His professional experience includes leading simulation, analysis, and design efforts on thermoacoustic refrigeration and power-generation systems, contributing to the development of high-efficiency thermal devices, and advancing research on pulsating heat pipes, nanofluid-based solar receivers, and Organic Rankine Cycle applications. He has authored multiple high-impact publications in reputable journals, including comprehensive reviews, experimental investigations, and optimization studies that address thermoacoustic performance, exergy analysis, and innovative cooling strategies. His contributions include conceptual design of thermoacoustic integration in sustainable architecture, advancements in pulsating heat pipe geometries, and methodologies for enhancing heat-driven refrigeration systems. In addition to his research output, he has an extensive record of peer-review service for major international journals across renewable energy, thermal engineering, artificial intelligence, and fluid dynamics, reflecting his recognition as an emerging expert in the field. He actively engages in scholarly communities through editorial and review activities, professional memberships, and interdisciplinary collaborations, demonstrating a strong commitment to advancing sustainable energy technologies and improving thermal system efficiency. His research impact includes 517 citations, 8 publications, an h-index of 7.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

1. Ansari M., Basiri M., Fazli M., Mazaheri K., Hosseinzadeh S., Matini M.R., Innovative integration of thermoacoustic technology in architectural design for sustainable cooling: A conceptual design. Energy, 2025, 139102.

2. Mahmoudi A., Fazli M., Morad M.R., A recent review of waste heat recovery by Organic Rankine Cycle. Appl. Therm. Eng., 2018, 143, 660–675.

3. Mehrjardi S.A.A., Khademi A., Fazli M., Optimization of a thermal energy storage system enhanced with fins using generative adversarial networks method. Therm. Sci. Eng. Prog., 2024, 49, 102471.

4. Mahmoudi A., Fazli M., Morad M.R., Gholamalizadeh E., Thermo-hydraulic performance enhancement of nanofluid-based linear solar receiver tubes with forward perforated ring steps and triangular cross section: A numerical investigation. Appl. Therm. Eng., 2020, 169, 114909.

5. Fazli M., Mehrjardi S.A.A., Mahmoudi A., Khademi A., Amini M., Advancements in pulsating heat pipes: Exploring channel geometry and characteristics for enhanced thermal performance. Int. J. Thermofluids, 2024, 22, 100644.

Mahyar Fazli’s work advances next-generation thermal and energy systems by developing high-efficiency thermoacoustic, heat-transfer, and waste-heat-recovery technologies that address global sustainability challenges. His research contributes to cleaner energy futures by improving cooling systems. Through innovative modeling, design, and interdisciplinary collaboration, he drives scientific progress toward more efficient and environmentally responsible energy systems worldwide.