Andrzej Piotrowicz | Engineering and Technology | Research Excellence Award

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Mr. Andrzej Piotrowicz | Engineering and Technology | Research Excellence Award

Head of the Hydrometallurgy Department at Eco Harpoon Recycling, Poland

Mr. Andrzej Piotrowicz is a highly accomplished metallurgist with advanced academic training from AGH University of Science and Technology, specializing in metallurgy, recycling, and chemical technology. He currently serves as Head of the Hydrometallurgy Department at Eco Harpoon, leading research, process scaling, and team management in advanced recycling technologies, particularly for lithium-ion batteries and electronic waste. He has extensive industry experience across leading organizations, contributing to both hydrometallurgical and pyrometallurgical innovations while managing R&D teams and collaborating with international partners. Alongside his industrial work, he is actively involved in academic tutoring, scientific publications, patent preparation, and conference representation, demonstrating strong engagement in both education and research. His expertise is further strengthened by numerous specialized trainings in circular economy, resource recovery, and industrial innovation across Europe. He has contributed to multiple research projects focused on zinc recovery, battery recycling, and sustainable metallurgical processes, reflecting a strong commitment to environmental and technological advancement.

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Mona Salam | Engineering | Best Researcher Award

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Dr. Mona Salam | Engineering | Best Researcher Award

Dr. Mona Salam | Unveristy Of Technology Sydney | Australia

Dr. Mona Salam is a Senior Lecturer in Construction Project Management at the University of Technology Sydney, bringing extensive expertise in interdisciplinary collaboration and resilient housing. Holding a PhD in Design Management from UTS, a Master of Engineering Studies in Construction Management from the University of Auckland, and a Bachelor in Civil (Structural) Engineering from Ain Shams University, she combines deep theoretical knowledge with practical engineering and academic leadership. Her teaching spans project strategy, construction technology, and professional practice, while her research focuses on collaborative design processes, inclusion in built environments, and climate resilience. Dr. Salam leads Women in Built Environment (WiBE), supporting hundreds of students through mentorship and development. Her work is driven by innovation and social equity, bridging academic rigour with real-world impact.

Profile

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Education 

Dr. Mona Salam’s academic journey reflects a strong interdisciplinary foundation in civil and construction engineering. She earned her Bachelor of Civil Engineering with a specialization in Structural Engineering from Ain Shams University in Cairo, equipping her with a robust understanding of engineering principles. She then pursued a Master of Engineering Studies in Construction Management at the University of Auckland, where she developed advanced skills in managing complex construction projects. Dr. Salam completed her PhD in Design Management at the University of Technology Sydney, where her doctoral research emphasized collaborative processes in construction design and delivery. This progression from technical engineering into construction management and design strategy has enabled her to approach project challenges holistically, integrating structural rigor with design coordination and management strategies.

Experience 

Dr. Salam’s academic career spans over a decade of progressive roles at the University of Technology Sydney. Beginning as a subject coordinator and tutor, she supported core modules in construction technology, project management, and structures. She then advanced to Lecturer in Built Environment, leading and delivering modules such as Managing a Construction Business and Project Management Integration. As a Senior Lecturer, she now coordinates courses in Project Strategy & Leadership, Construction Technology, and Professional Practice. Her leadership extends beyond teaching, contributing to key faculty committees including the DAB Faculty Board, Workload Committee, Education Quality Committee, and the First and Further Year Experience (FFYE) transition initiative. This combination of teaching excellence, curriculum innovation, and institutional service reflects her dedication to advancing both academic programs and the broader educational environment.

Research Interests

Dr. Salam’s research centers on enhancing interdisciplinary collaboration, inclusion, and resilience within the built environment. Her work in “Assessing Interdisciplinary Collaboration in the Detailed Design Phase of Construction Projects” (2024) uses practice-based inter-organisational theory to examine how trust, defined roles, and iterative cost alignment facilitate effective teamwork in complex design phases. In her chapter “Australian Case: Black Summer Bushfires” ), she developed a retrofit toolkit tailored for older Australians in bushfire-prone regions, based on case studies in Bega Valley and Noosa Shires. Funded by national grants, the toolkit addresses accessibility and resilience for vulnerable rural populations . Her broader interests encompass inclusive design, women’s experiences in construction education and workplace settings, and climate-resilient housing solutions shaped by community-centred methodologies.

Awards 

Dr. Mona Salam’s leadership and innovative teaching have been recognized through several recent honors. she received an Honourable Mention for Innovative Use of Technology and Learning in Education, highlighting her integration of advanced digital tools to enhance student engagement. That same year, she earned an Award for Academic Leadership, acknowledging her strategic contributions in curriculum development and student support. Beyond these accolades, Dr. Salam serves as Academic Lead for Women in Built Environment (WiBE), where she leads a strategic initiative supporting female students in Construction Project Management and Property Economics. Through the WiBE Canvas platform, she provides academic, professional, and wellness support, secures scholarships, and fosters industry partnerships—demonstrating her commitment to equity and community impact within the built environment sector.

Publication Top Notes

Developing Multi-Modal Communication Tools for Retrofit Guidance in Ageing Bushfire-Prone Communities

Collaboration in the Detailed Design Phase of Construction Projects – A Study of Interdisciplinary Teams

Exploring Interdisciplinary Collaboration in the Detailed Design Phase of Construction Projects

Exploring Interdisciplinary Collaboration in Construction: Phases and Patterns of Interaction in Detailed Design Meetings

Collaboration to Improve Constructability in Detailed Design Phase – Can BIM and Relational Contracting Help?

Conclusion 

Dr. Mona Salam exemplifies a forward-thinking academic whose work bridges technical expertise, collaborative innovation, and social equity in the built environment. With a solid educational foundation and progressive academic roles, she brings insight and leadership to construction management and design strategy. Her research push boundaries—from facilitating interdisciplinary collaboration and enhancing design delivery, to crafting climate-resilient solutions tailored for vulnerable communities. Recognized for her pedagogical innovation and leadership, Dr. Salam also champions inclusion and women’s advancement through WiBE. Her combined focus on resilience, equity, and collaboration positions her as a visionary contributor to both academia and practice, making her an outstanding nominee for any award recognizing excellence and impact in construction education and research.

Fatima-Ezzahrae Jabri | Engineering | Best Paper Award

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Dr. Fatima-Ezzahrae Jabri  | Engineering | Best Paper Award

Dr. Fatima-Ezzahrae Jabri | National School of Applied Sciences Morocco | Belgium

Dr. Fatima Ezzahrae Jabri is a driven Moroccan Ph.D. candidate in Mechanical Engineering with a sharp focus on polymer additive manufacturing and laser sintering technologies. Born in Fez and currently based in Tangier, she is pursuing her doctorate at the National School of Applied Sciences, ENSA Tangier, where she contributes significantly to the Innovative Technologies Laboratory. Her thesis involves a robust experimental and numerical study of the laser additive manufacturing (SLS) process for polymers under the mentorship of Professors Rachid El Alaiji and Aissa Ouballouch. Fatima has exemplified excellence across academic, technical, and international platforms, combining hands-on engineering experience with cutting-edge research. Her global exposure includes a doctoral research stay at HEPH – Condorcet in Belgium, where she worked on non-destructive defect detection in FDM 3D printing. Known for her leadership, problem-solving mindset, and collaborative attitude, Fatima is a model of emerging scientific talent in the MENA region and beyond.

Profile

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Education

Dr. Fatima’s academic journey showcases her unwavering commitment to engineering innovation. She earned her Bachelor’s degree in Mechanical Design and Analysis (CAM) from the Faculty of Science and Technology in Fez (2016–2019), followed by a Master of Science and Technology in Mechanical and Production Engineering (GMPr, 2019–2021). Currently, she is enrolled in a prestigious Ph.D. program at ENSA Tangier (2021–2025), working within the Innovative Technologies Laboratory. Her international academic portfolio expanded further through her doctoral research mobility at Haute École Condorcet, Belgium (Feb–Apr 2025), focusing on defect characterization using impulse excitation techniques. Throughout her education, Fatima has cultivated technical mastery over simulation, CAD, and quality control tools, backed by real-world engineering experience. Her teaching engagements at ENSA Tangier span critical foundational subjects like Material Resistance and Industrial Design Drawing, revealing her dual passion for learning and knowledge dissemination.

Experience

Dr. Fatima brings over five years of applied mechanical engineering experience, reflected in her roles across Morocco’s major industrial entities. During her internships with TE Connectivity, Marelli, and Sites Tangier, she took charge of CAD design, production optimization, and digital transformation in manufacturing. Her projects involved redesigning FAKRA cable components using CATIA V5 and Abaqus, enhancing SOPs through 5S audits, and transitioning production lines to paperless environments using Power Apps. As Training Manager at GreenLab Fablab Tangier, she organized workshops, assessed needs, and conducted over 14 training sessions on laser cutting, CAD, and fabrication tools. Fatima also contributed to engineering education through final-year project supervision and juror responsibilities. Her multi-role profile—as an engineer, educator, and innovator—makes her a rare talent bridging academia, applied science, and future-forward technology.

Research Interests

Dr. Fatima’s primary research interests lie in polymer additive manufacturing, especially Selective Laser Sintering (SLS) and Fused Deposition Modeling (FDM). She specializes in optimizing 3D printing processes by integrating defect detection, material behavior analysis, and non-destructive testing. Her recent international project at HEPH–Condorcet involved using impulse excitation techniques to analyze vibration modes and internal defects in polyamide-based FDM parts. Fatima is also pioneering research that connects machine learning and AI to enhance quality prediction in additive manufacturing. Her passion lies in bridging mechanical design with smart digital tools, aiming to elevate manufacturing systems into the era of Industry 4.0. She actively explores composite materials, process-induced defects, surface quality, and thermal behavior of printed parts. Through her teaching and publications, she inspires and enables a new generation of engineers to adopt sustainable, precise, and intelligent manufacturing technologies.

Awards & Recognition

Dr. Fatima’s academic and technical brilliance has been consistently recognized through her international mobility scholarship for doctoral research in Belgium (2025), a highly competitive opportunity awarded based on research merit. As Training Manager at GreenLab Fablab, she led a team that presented the DronEco project during the 7th International Innovation Competition, marking her contribution to real-world problem solving through sustainable design. She has also represented her lab at scientific events like the Design-Innovation-Product-in-Industry DIPI-2022 Workshop. Moreover, her active involvement in programs like INJAZ AL-MAGHRIB’s professional skills development initiative shows her commitment to societal impact. Fatima has played a crucial role as a project supervisor, training coordinator, and jury member at ENSA, enhancing students’ innovation capacity. Her blend of academic performance, leadership in innovation, and contribution to community education makes her a strong nominee for any Rising Researcher or Young Innovator Award.

Publication Top Notes

Characterization of Defects by Non-Destructive Impulse Excitation Technique for 3D Printing FDM Polyamide Materials in Bending Mode

Indirect Effect of Print Surface Bed Temperature on Surface Roughness and Dimensional Accuracy of SLS Polyamide 12 Sintered Parts

Powder Spreading Effects on Laser Powder Bed Fused Parts Quality

A Comprehensive Review of Polymer Materials and Selective Laser Sintering Technology for 3D Printing

A Review on Selective Laser Sintering 3D Printing Technology for Polymer Materials

Conclusion

Dr. Fatima Ezzahrae JABRI exemplifies what a 21st-century researcher and engineer should be—technically adept, globally aware, and socially impactful. Her solid foundation in mechanical design, paired with pioneering research in polymer additive manufacturing, positions her as a leader in transforming industrial practices. She has effectively bridged academic rigor, international collaboration, and real-world application, all before completing her Ph.D. Her dedication to mentoring students, leading scientific initiatives, and contributing to global research makes her a valuable asset to the scientific community. Whether improving defect detection techniques or enhancing material printing quality, Fatima consistently drives innovation with precision and purpose. Her journey so far—and the promise she shows—clearly establishes her as an outstanding candidate for prestigious honors like the “Young Researcher Award”, “Women in Engineering Excellence Award”, or the “Rising Star in Additive Manufacturing Award.”