Yattou El Fadili |Renewable energy| Best Researcher Award

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Ms. Yattou El Fadili |Renewable energy| Best Researcher Award

Sidi Mohamed Ben Abdellah University, Morocco

Ms. Yattou El Fadili is a distinguished academic and researcher at Sidi Mohamed Ben Abdellah University. Renowned for her contributions to [specific field or specialization], she has played a pivotal role in advancing knowledge and fostering academic excellence. Her work emphasizes [key area of expertise or research interest], and she is committed to both innovation and the dissemination of knowledge within the academic community. Ms. El Fadili continues to inspire students and peers through her dedication to education and research.

Summary:

Ms. Yattou El Fadili is a Doctoral student at the Faculty of Sciences Dhar El Mahraz, Sidi Mohamed Ben Abdellah University in Fez, Morocco. Her research interests are centered on renewable energy, wind turbine control, robust stability, and advanced control systems. Specifically, she has focused on areas such as singular systems, wireless power transmission, rectenna systems, Lyapunov stability theory, and uncertain systems. Her contributions to the field, especially in state-feedback control and controller design, demonstrate her expertise and dedication to solving complex engineering problems.

 

Professional Profiles:

 Google Scholar

Orcid

🎓 Education :

Yattou El Fadili earned her B.Sc. in Physics with an Electronic Option in 2019 and completed her M.Sc. in Microelectronics, Signals, and Systems in 2021, both from the Faculty of Sciences Dhar El Mahraz, Sidi Mohamed Ben Abdellah University of Fez, Morocco. She is currently pursuing a Ph.D. in the field of Computer Science, Signal, Automation, and Cognitivism at the same institution, focusing on the modeling and control of wind turbine energy conversion systems.

🏢 Experience:

Yattou El Fadili is a Doctoral Student at the Computer Science, Signal, Automation, and Cognitivism Laboratory at the Faculty of Sciences, Dhar El Mahraz, Sidi Mohamed Ben Abdellah University, Fez, Morocco. Her research activities are centered on renewable energy, wind turbine control, and the application of advanced controller design methods, such as Lyapunov stability theory and robust stability for uncertain systems.

🛠️Skills:

Renewable Energy Systems (especially Wind Turbines),Wind Turbine Control,Robust Stability and Singular Systems,Wireless Power Transmission and Rectenna Systems,Lyapunov Stability Theory,Controller Design and State-Feedback Control,Uncertain Systems and Singular Systems

 

Research Focus :

Her research focuses on modeling and controlling wind turbine energy conversion systems, aiming to improve energy efficiency and stability through advanced mathematical techniques and intelligent control strategies. She also explores how to integrate cutting-edge technologies, such as genetic algorithms, with traditional sliding mode control and fractional calculus, to enhance the performance of renewable energy systems.

 

🔬Awards:

Presentation of the paper “Intelligent controller using genetic algorithm applied on wind energy conversion systems” at the International Conference on Intelligent Computing in Data Sciences (ICDS) in Marrakech, Morocco, October 2024.,Presentation of “An Advanced Control Law Combining Sliding Mode and Fractional Calculus for Wind Energy Conversion Systems” at the International Conference on Digital Technologies and Applications (ICDTA) in Benguerir, Morocco, August 2024.,Presentation of the paper “A novel combination of Sliding Mode, Fractional Calculus, and Genetic Algorithm to improve the performance of a controller in a wind power application” at the International Conference on Circuit, Systems, and Communication (ICCSC) in Fez, Morocco, June 2024.,Presentation of “Robust $H_{\infty}$ performance of uncertain systems based on Lyapunov functions using nonmonotonic terms” at the 10th International Conference on Systems and Control (ICSC) in Marseille, France.

 

Conclusion:

Ms. Yattou El Fadili has demonstrated outstanding potential as a researcher in the fields of renewable energy and control systems. Her ability to blend theoretical frameworks with practical applications, particularly in the areas of wind turbine control and robust stability, sets her apart as a promising candidate for the Best Researcher Award. However, to fully optimize her recognition and impact, it would be beneficial for her to focus on increasing her publication output and expanding her professional network.

 Publications:

  • Publication: Optimal controller design for wind turbine using sliding sector and genetic algorithms
    Authors: Y El Fadili, Y Berrada, I Boumhidi
    Journal: E3S Web of Conferences 469, 00006
    Year: 2023
    Citations: 6

 

  • Publication: Novel control strategy for the global model of wind turbine
    Authors: Y El Fadili, B Youssef, B Ismail
    Journal: International Journal of Electrical and Computer Engineering (IJECE) 14 (1)
    Year: 2024
    Citations: 5

 

  • Publication: Robust performance of uncertain system based on Lyapunov functions using non–monotonic terms
    Authors: Y El Fadili, A Hmamed, B Boukili, I Boumhidi
    Conference: 2022 10th International Conference on Systems and Control (ICSC), 256-262
    Year: 2022
    Citations: 5

 

  • Publication: Improved sliding mode control law for wind power systems
    Authors: Y El Fadili, Y Berrada, I Boumhidi
    Journal: International Journal of Dynamics and Control, 1-12
    Year: 2024
    Citations: 4

 

  • Publication: A novel combination of Sliding Mode, Fractional Calculus, and Genetic Algorithm to improve the performance of a controller in a wind power application
    Authors: Y El Fadili, B Youssef, B Ismail
    Conference: 2024 International Conference on Circuit, Systems and Communication (ICCSC), 1-6
    Year: 2024
    Citations: 3

 

  • Publication: An Advanced Control Law Combining Sliding Mode and Fractional Calculus for Wind Energy Conversion Systems
    Authors: Y El Fadili, Y Berrada, I Boumhidi
    Conference: International Conference on Digital Technologies and Applications, 444-453
    Year: 2024
    Citations: 3

 

  • Publication: Robust State‐Feedback Controller of Uncertain Systems Based on Non‐Monotonic Approach
    Authors: Y El Fadili, B Boukili, M N’Diaye, I Boumhidi
    Journal: International Journal of Adaptive Control and Signal Processing
    Year: 2024
    Citations: 2

 

  • Publication: New design of an intelligent electromagnetic torque controller based on neural network and fractional calculus: variable-speed wind energy systems application
    Authors: ELF Yattou, B Ismail
    Journal: e-Prime – Advances in Electrical Engineering, Electronics and Energy
    Year: 2024

 

  • Publication: e-Prime-Advances in Electrical Engineering, Electronics and Energy
    Authors: Y El Fadili, I Boumhidi
    Year: 2024

 

Harish Pulluri | Power |Excellence in Research

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Dr.Harish Pulluri | Power | Excellence in Research

Dr. Harish Pulluri, Anurag University,India.

Dr. Harish Pulluri is a prominent faculty member at Anurag University in India, specializing in [insert specific field or area of expertise]. With a robust academic background and a commitment to research, he has made significant contributions to [mention notable projects or publications]. Dr. Pulluri is passionate about enhancing student learning experiences and actively promotes innovative teaching methods within his courses. His dedication to education and research continues to inspire both students and colleagues alike.

Summary:

Dr. Harish Pulluri is a prominent faculty member at Anurag University, recognized for his contributions to [specific field or area of expertise]. With a robust academic background and a passion for research, he has made significant strides through various projects and publications. His commitment to enhancing student learning experiences and promoting innovative teaching methods underscores his dedication to education.

Professional Profiles:

Google Scholar

🎓 Education :

Dr. Pulluri earned his Ph.D. from the National Institute of Technology Hamirpur, specializing in optimal power flow methods. He also holds a Master of Technology in Electrical Power Systems from JBIET and a Bachelor of Technology in Electrical and Electronics Engineering from VCE, all completed with first-class distinctions.

🏢 Experience:

Currently an Associate Professor in the Electrical & Electronics Engineering Department at Anurag University, Dr. Pulluri has accumulated significant teaching and research experience across various institutions, including Geethanjali College of Engineering & Technology and the National Institute of Technology Hamirpur. His roles have spanned from teaching assistant and research associate to his current position, where he is involved in mentoring students and guiding research projects.

🛠️Skills:

Dr. Harish Pulluri possesses extensive expertise in Electrical Power Systems, Power System Optimization, Metaheuristic Techniques, and Computer Aided Power System Analysis. Proficient in utilizing optimization toolboxes in MATLAB, he is well-versed in renewable energy sources and their applications.

Research Focus :

Dr. Pulluri’s research primarily centers around optimal power flow using metaheuristic approaches, with a keen interest in the optimization of electrical power systems. He has published numerous papers in international journals, focusing on topics such as multi-objective hydrothermal scheduling and economic dispatch with valve point loading. His work often explores innovative algorithms and their applications in enhancing power system performance and efficiency.

🔬Awards:

Throughout his career, Dr. Pulluri has received various recognitions, including serving as a coordinator for several technical events and short-term courses. He has delivered expert talks on energy harvesting technologies and research methodologies, contributing to the academic community and fostering innovation within the field of electrical engineering.

 

Conclusion:

Dr. Pulluri is a strong candidate for the Best Researcher Award, given his expertise, impactful contributions, and commitment to innovative teaching. While there are opportunities for him to broaden his research visibility and engagement, his influence as an educator and researcher is commendable. His dedication continues to inspire both students and colleagues, positioning him as a leader in his field.

Publications :

  • Pulluri, H., Naresh, R., & Sharma, V. (2017). An enhanced self-adaptive differential evolution based solution methodology for multiobjective optimal power flow. Applied Soft Computing, 54, 229-245.
  • Pulluri, H., Naresh, R., & Sharma, V. (2018). A solution network based on stud krill herd algorithm for optimal power flow problems. Soft Computing, 22, 159-176.
  • Basetti, V., Rangarajan, S. S., Shiva, C. K., Pulluri, H., Kumar, R., & Collins, R. E. (2021). Economic emission load dispatch problem with valve-point loading using a novel quasi-oppositional-based political optimizer. Electronics, 10(21), 2596.
  • Rao, U. M., Pulluri, H., & Kumar, N. G. (2018). Performance analysis of transformer oil/paper insulation with ester and mixed dielectric fluids. IEEE Transactions on Dielectrics and Electrical Insulation, 25(5), 1853-1862.
  • Pulluri, H., Naresh, R., & Sharma, V. (2017). Application of stud krill herd algorithm for solution of optimal power flow problems. International Transactions on Electrical Energy Systems, 27(6), e2316.
  • Vedik, B., Shiva, C. K., & Harish, P. (2020). Reverse harmonic load flow analysis using an evolutionary technique. SN Applied Sciences, 2(9), 1584.
  • Pulluri, H., Vyshnavi, M., Shraddha, P., Sai Priya, B., Sri Hari, T., & Preeti. (2020). Genetic algorithm with multi-parent crossover solution for economic dispatch with valve point loading effects. Innovations in Electrical and Electronics Engineering: Proceedings of the …
  • Pulluri, H., Goutham Kumar, N., Rao, U. Mohan, Preeti, & Kumar, M. G. (2019). Krill Herd Algorithm for solution of economic dispatch with valve-point loading effect. Applications of Computing, Automation and Wireless Systems in Electrical …
  • Sharma, V., Naresh, R., & Pulluri, H. (2016). Automatic generation control of multi-source interconnected power system including DFIG wind turbine. 2016 IEEE 1st International Conference on Power Electronics, Intelligent …
  • Vedik, B., Shiva, C. K., & Harish, P. (2020). Reverse harmonic load flow analysis using an evolutionary technique. SN Applied Sciences, 21584.
  • Pulluri, H., Naresh, R., & Sharma, V. (2016). A new colliding bodies optimization for solving optimal power flow problem in power system. 2016 IEEE 6th International Conference on Power Systems (ICPS), 1-6.
  • Srihari, T., Boppa, M., Anil Kumar, S., & Pulluri, H. (2020). The application of genetic algorithm with multi-parent crossover to optimal power flow problem. Innovations in Electrical and Electronics Engineering: Proceedings of the …
  • Dahiya, P., Dogra, S., Sharma, V., Pulluri, H., Gouthamkumar, N., & Rao, U. Mohan. (2019). Performance Analysis of Classical Controllers Tuned Using Heuristic Approaches for Frequency Regulation. Applications of Computing, Automation and Wireless Systems in Electrical …
  • Kalyan, C. H. N. S., Anusree, K., Goud, B. S., Pulluri, H., Gopi, P., & Sekhar, B. (2022). Falcon optimization algorithm based regulator for the study of automatic load frequency control. 2022 3rd International Conference on Communication, Computing and Industry 4 …
  • Mahender, K., Vyshnavi, M., Patange, S., & Pulluri, H. (2020). Solution of optimal power flow problem using colliding bodies optimization. AIP Conference Proceedings, 2269(1).
  • Sharma, V., Naresh, R., & Pulluri, H. (2015). Automatic generation control using disrupted gravitational search algorithm based proportional integral derivative controller. 2015 2nd International Conference on Recent Advances in Engineering …
  • Pulluri, H., Preeti, B., Vedik, B., & Kumar, T. A. (2022). A New Genetic Algorithm Variant Designed for Dynamic Economic Dispatch. Proceedings of 3rd International Conference on Machine Learning, Advances in …
  • Pulluri, H., Naresh, R., & Sharma, V. (2015). Solving non-convex and non-linear optimal power flow problems using colliding bodies optimization. 2015 2nd International Conference on Recent Advances in Engineering …
  • Pulluri, H., Basetti, V., Goud, B. Srikanth, & Kalyan, C. H. N. S. (2024). Exploring Evolutionary Algorithms for Optimal Power Flow: A Comprehensive Review and Analysis. Electricity, 5(4), 712-733.
  • Pulluri, H., Preeti, P., Kumar, T. A., Vedik, B., & Mahender, K. (2024). Heuristic algorithm based solution to dynamic economic dispatch problem. AIP Conference Proceedings, 2900(1).

WDAH TARIG AHMED SALIH | Environmental | Best Researcher Award

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Dr.WDAH TARIG AHMED SALIH | Environmental | Best Researcher Award

WDAH TARIG AHMED SALIH ,TUYT, China

Wdah Tarig Ahmed Salih is a highly qualified environmental engineer with extensive research and professional experience in civil engineering, focusing on environmental pollution, remediation, and geotechnical engineering. Dr. Salih has a strong academic background, including a Ph.D. in Civil Engineering from Taiyuan University of Technology, where he conducted significant research on the “Mechanism and simulation of heavy metal migration in contaminated soil stabilized by novel red mud-loess.” His expertise encompasses water treatment, soil remediation, environmental conservation, bioremediation, soil chemistry, and geoenvironmental engineering.

Summary:

Dr. WDAH Tarig Ahmed Salih is a distinguished researcher with a strong academic background and extensive practical experience in civil engineering. He earned his Ph.D. from Taiyuan University of Technology, focusing on innovative methods for soil remediation and environmental conservation. His work has been instrumental in advancing the field of environmental and underground engineering, particularly in water treatment, soil chemistry, and bioremediation.

 

Professional Profiles:

Orcid

Education :

Ph.D. in Civil Engineering, Environmental and Underground Engineering,Taiyuan University of Technology, Taiyuan, China | Sept 2020 – Jul 2024,Focused on “Mechanism and simulation of heavy metal migration in contaminated soil stabilized by novel red mud-loess.”,Expertise: Water treatment, soil remediation, environmental conservation, bioremediation, soil chemistry, and geoenvironmental engineering.,Master’s Degree in Civil Engineering,Taiyuan University of Technology, Taiyuan, China | Sept 2017 – Jul 2020,Thesis: “Study on the Characteristic of Strength-Resistivity and Micro-Mechanism of Fly Ash-Desulphurization Gypsum Soil Modified by Red Mud.”,Bachelor (Honors) in Engineering Geology,Red Sea University, Port Sudan, Sudan | Sept 2005 – Feb 2011,Specialized in structural engineering, survey, traffic, geotechnical, and engineering project management.

Experience:

Environmental Pollution and Remediation: Addressed complex environmental issues with innovative solutions in soil remediation and bioremediation.,Water Treatment and Soil Chemistry: Developed advanced methods for water treatment and soil chemistry.,Leadership and Innovation: Led significant projects and made notable contributions to the laboratory.,Research Impact: Produced frequently cited research that advanced civil engineering practices.

Skills:

Environmental pollution and remediation,Water treatment and soil chemistry,Geotechnical and underground engineering,Geological mapping and geotechnical investigation,Project management and quality control

Awards & Honors:

  • Certificate awarded from the TYUT-SNU Joint.

Conclusion:

Based on Dr. Salih’s extensive research background, professional achievements, and significant contributions to environmental and civil engineering, he appears to be a strong candidate for the Best Researcher Award. His innovative approaches and impactful research underscore his suitability for this recognition.

Publications :

  • Salih, W., Wang, Y., Dong, X., & Wen, H. (2020). “Study on stress-strain-resistivity and microscopic mechanism of red mud waste modified by desulphurization gypsum-fly ash under drying-wetting cycles.” Construction and Building Materials, 249, 118772. DOI

 

  • Salih, W., Xiao, Z., & Dong, X. (2024). “Research Enhancing Acidic Mine Wastewater Purification: Innovations in Red Mud–Loess.” Materials, 17(9), 2050. DOI

 

  • Salih, W., Xiao, Z., & Dong, X. (2024). “Research Investigates and Simulation Behavior of the Failure Characteristics of Red Mud–Loess Type Permeable Reactive Barriers PRB in Fixed‐Bed Column Experiments.” Advances in Civil Engineering, 2024(1), 6131115. DOI

 

  • Salih, W., & Dong, X. “Numerical Simulation of Multi-ions Diffusion Processes in clay soil Barriers.” Accepted in Discover Applied Sciences.

Daniele Landi | Sustainability| Best Researcher Award

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Assoc Prof Dr. Daniele Landi | Sustainability| Best Researcher Award

Assoc Prof Dr. Daniele Landi ,Università degli studi di Bergamo,Italy

Dr. Daniele Landi is an esteemed Associate Professor at the Università degli Studi di Bergamo, Italy. With a strong academic and research background, Dr. Landi has made significant contributions to his field. His research interests encompass various aspects of engineering, and he has authored numerous publications in reputable journals. Dr. Landi is known for his dedication to teaching and mentoring students, fostering an environment of academic excellence and innovation. His work has garnered recognition both nationally and internationally, making him a prominent figure in his area of expertise.

 

Professional Profiles:

Scopus

Education :

PhD in Mechanical Engineering (2013), Università Politecnica delle Marche, Italy. Dissertation: “Methods and Tools for Integrated Virtual Prototype: Study and Development of Battery Packs for Automotive Applications.”,Bachelor of Mechanical Engineering (2009), Università Politecnica delle Marche, Italy. Thesis: “Prototipazione Virtuale per la Simulazione Fluidodinamica di Vetrine Refrigerate.”

 Experience:

Associate Professor (since January 2021), Design Methods for Industrial Engineering, Department of Management, Information, and Production Engineering, Università degli Studi di Bergamo, Italy.,Technical Officer (January 2020 – December 2021), Ministero dei Trasporti e della Mobilità Sostenibile, Italy.,Research Fellow (January 2014 – December 2019), Department of Industrial Engineering and Mathematical Sciences, Università Politecnica delle Marche, Italy.

Skills:

  • Product Life Cycle Analysis
  • Design for X (assembly, disassembly, environment, end of life, etc.)
  • Ecodesign, Life Cycle Assessment (LCA), Life Cycle Costing (LCC), Social Life Cycle (SLCA)
  • Sustainable Manufacturing
  • Additive Manufacturing Technologies
  • Virtual Simulation (FEM, CFD, Multiphysics)
  • Teaching and Curriculum Development

Research Focus:

  • Developing methods and tools for product life cycle management
  • Sustainable manufacturing processes
  • Environmental impact assessment using LCA, LCC, and SLCA techniques
  • Advanced simulation techniques including FEM, CFD, and multiphysics
  • Additive manufacturing technologies for metals, polymers, and composites

Awards and Honors:

  • Recognized expert in design methods for industrial engineering
  • Active contributor to leading international conferences in mechanical engineering

Research Projects:

SUPRA: Single Use Reinforced PPE, funded by the Italian Ministry of Ecological Transition,Collaboration with ABB for automated LCA analysis,,CIRCE: Circular Economy Model for Carbon Fibre Prepregs, co-financed by the European Community,REFIBRE-LIFE: Recycling Textile Fibres from End-of-Life Tyres, co-financed by the European Community,G.EN.ESI: Integrated Software Platform for Green Engineering Design, co-financed by the European Community’s 7th Framework Programme,GREEN-BURNER and HYBRID projects on eco-sustainable design and energy optimization,EROD: Energy Reduction Oriented Design, as part of Italy’s Industria 2015 program for energy efficiency

Publications :

Favi, C., Landi, D., Garziera, R., and Rossi, M. (2024). “Fostering Design for Sustainability through the Adoption of Computer-Aided Engineering Tools in the Development of Energy-Related Products.” Sustainability (Switzerland), 16(9), 3516.

Savoldelli, A., Landi, D., and Rizzi, C. (2024). “Exploring the Environmental Impact of Telemedicine: A Life Cycle Assessment.” Studies in Health Technology and Informatics, 313, pp. 81–86.

Savoldelli, A., Landi, D., and Rizzi, C. (2024). “Exploring Quantitative Methodologies for Assessing the Environmental, Social, and Economic Impacts of Telemedicine: A Literature Review.” Sustainability (Switzerland), 16(6), 2438.

Spreafico, C., Landi, D., and Russo, D. (2024). “On the Intersection between Prospective LCA and Patent Analysis: A Theoretical Discussion.” Procedia CIRP, 122, pp. 211–216.

Spreafico, C., Landi, D., and Russo, D. (2024). “Prospective Life Cycle Assessment Based on Patent Analysis to Support Eco-design.” Lecture Notes in Mechanical Engineering, pp. 331–338.

Savoldelli, A., Landi, D., and Rizzi, C. (2024). “Environmental Sustainability of a Televisit Process: Definition of Parameters and Preliminary Results.” Lecture Notes in Mechanical Engineering, pp. 250–258.

Spreafico, C., Landi, D., and Russo, D. (2023). “A New Method of Patent Analysis to Support Prospective Life Cycle Assessment of Eco-design Solutions.” Sustainable Production and Consumption, 38, pp. 241–251.

Savoldelli, A., Landi, D., and Rizzi, C. (2023). “Sustainability in Healthcare: Methods and Tools for the Assessment.” Studies in Health Technology and Informatics, 301, pp. 186–191.

Landi, D., Marconi, M., Bocci, E., Gianvincenzi, M., and Spreafico, C. (2023). “Reuse of End-of-Life Personal Protective Equipment in Hot Asphalt Mixtures: An Environmental Evaluation.” Procedia CIRP, 116, pp. 420–425.

Landi, D., Spreafico, C., and Russo, D. (2023). “LCA of Titanium Powder: Empirical Evidence vs Data from Patents, Possible Future Applications.” Procedia CIRP, 116, pp. 318–323.

Doria Marciuš | Hydrogen technology Award |Best Researcher Award

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Ms .Doria Marciuš | Hydrogen technology Award |Best Researcher Award

Ms .Doria Marciuš ,Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb,Croatia

The University of Zagreb, Faculty of Mechanical Engineering and Naval Architecture (FSB) is a renowned institution in Croatia, offering high-quality education and research in mechanical engineering and naval architecture. Established in 1919, FSB has a long tradition of excellence and innovation in the fields of engineering. With a strong emphasis on practical skills and interdisciplinary collaboration, FSB prepares students for careers in various industries, including automotive, aerospace, marine, and energy sectors. The faculty is known for its cutting-edge research and close cooperation with industry partners, contributing to advancements in technology and sustainable development.

 

Professional Profiles:

Scopus

Education and Training:

Ph.D. in Energy Engineering (current),Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb,Address: Ivana Lučića 5, 10000 Zagreb, Croatia
Website: www.fsb.unizg.hr,M.Sc. in Energy Engineering
Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb
Address: Ivana Lučića 5, 10000 Zagreb, Croatia,Website: www.fsb.unizg.hr,B.Sc. in Energy Engineering
Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb
Address: Ivana Lučića 5, 10000 Zagreb, Croatia,Website: www.fsb.unizg.hr,Erasmus+ Student Exchange
Strathclyde University, Glasgow, United Kingdom
Address: 16 Richmond Street, G1 1QE, Glasgow, United Kingdom,Website: www.strath.ac.uk

Work Experience:

Project Assistant,Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb
Project: Securing electrical energy in the case of climate extremes and natural disasters (H2ElEn),Junior Associate,Engineering Laboratory, Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb,Focus: Renewable hydrogen production, hydrogen compression,Associate on Environmental Protection Projects Society for Designing Sustainable Development (DOOR)
Field work: Promotion of sustainable energy development in rural areas, energy efficiency installations,Energy Engineer,INOVAPRO
Responsibilities: Designing energy and HVAC installation projects, renewable energy sources integration,HVAC Engineer,OPUS OPTIMUS
Projects: Design and calculations of HVAC installations for the German market, 3D modeling

Technical Skills:

  • Programming: Python, Java, C++, C#
  • Frameworks & CMS: Django, Flask, Codeignitor, MVC
  • Web Development: HTML, CSS, Bootstrap, JavaScript, jQuery, PhP
  • Databases: SQL, MySQL, SQLite
  • Software: Spyder, Jupyter, MATLAB, Sublime Text, PyCharm, Visual Studio, Anaconda, Dreamweaver, Eclipse, NetBeans
  • Protocols: IEEE 802.11, HTTP, CoAP, MQTT, TCP/IP
  • Operating Systems: Ubuntu, Raspbian, Windows

Language Skills:

  • Croatian: Native
  • English: C1
  • German: A2

Skills:

  • Revit, AutoCAD, and Solidworks
  • MATLAB and Simu

Publication Top Notes :

Undergraduate Thesis – 2019 Title: Thermal Management of Hydrogen Refueling Station Housing on an Annual Basis Institution: University of Zagreb, Faculty of Mechanical Engineering and Naval Architecture

Graduate Thesis – 2019 Title: Solar Hydrogen Production via Alkaline Water Electrolysis Authors: A. Kovač, D. Marciuš, L. Budin Journal: International Journal of Hydrogen Energy, Volume 44, Issue 20, Pages 9841-9848

Research Paper – 2021 Title: Thermal Management of Hydrogen Refueling Station Housing on an Annual Level Authors: A. Kovač, D. Marciuš, M. Paranos Journal: International Journal of Hydrogen Energy, Volume 46, Issue 57, Pages 29400-29410

Research Review – 2021 Title: Hydrogen in Energy Transition: A Review Authors: A. Kovač, M. Paranos, D. Marciuš Journal: International Journal of Hydrogen Energy, Volume 46, Issue 16, Pages 10016-10035

Research Paper – 2022 Title: Electrochemical Hydrogen Compressor: Recent Progress and Challenges Authors: D. Marciuš, A. Kovač, M. Firak Journal: International Journal of Hydrogen Energy, Volume 47, Issue 57, Pages 24179-24193

Research Project – 2022 Title: Introduction of Hydrogen in the Kosovo Transportation Sector

Thomas Kraft | Thermal solar field Award | Excellence in Innovation

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 Mr.Thomas Kraft | Thermal solar field Award | Excellence in Innovation

  Mr. Thomas Kraft,Fraunhofer- Institut for Solar Energy Systems ISE, Germany

Thomas Kraft is a leading researcher in the field of solar energy at the Fraunhofer Institute for Solar Energy Systems (ISE) in Germany. With extensive expertise in photovoltaics and solar thermal technologies, he has been instrumental in advancing renewable energy solutions for sustainable development.

Professional Profiles:

Orcid

Berufserfahrung 🏢:

Seit 02/2022 – Fraunhofer Institut für Solare Energiesysteme ISE – Doktorand

  • hermische Optimierung von Solarthermiekraftwerken,Nutzung von KI zur Optimierung von Betrieb und Wartung,Modellierung und Simulation thermischer Solarkraftwerke

08/2019 – 01/2022 – badenovaWÄRMEPLUS – Vertriebs- und Projektingenieur

  • Akquise von Anlagen zur Strom- bzw. Wärmebereitstellung
  • Kalkulation von Modernisierungsmaßnahmen
  • Analyse und Weitergabe der CO2-Kosten nach BEHG

04/2018 – 07/2019 – HAMBURG WASSER/HAMBURG ENERGIE – Technischer Trainee

  • Hydraulische Planung und Modellierung von Wärmenetzen
  • Entwicklung einer Ladestrategie von thermischen Speichern

04/2017 – 03/2018 – HAMBURG ENERGIE – Werkstudent

  • Analyse des PV-Portfolios
  • Betriebsführung von Energieerzeugungsanlagen

Hochschulstudium 🎓:

10/2015 – 05/2018 – Technische Universität Hamburg Harburg – M. Sc. Energie- und Umwelttechnik

  • Abschlussnote: 1,4
  • Thema der Abschlussarbeit: Bewertung und Optimierung einer Energiezentrale zur Wärmebedarfsdeckung einer Wohnanlage (Note: 1,3)

10/2011 – 09/2015 – Technische Universität Hamburg Harburg – B. Sc. Energie- und Umwelttechnik

  • Abschlussnote: 1,7
  • Thema der Abschlussarbeit: Modellierung einer Anlage zur kombinierten Trocknung, Torrefizierung und Pelletierung von Biomasse (Note: 1,3)

Praktika/Nebentätigkeiten 💼:

Starting der TUHH – Studentische Hilfskraft

  • Leiten von Tutorien zum besseren Studieneinstieg
  • Organisation von Führungen und Veranstaltungen

Institut für Energietechnik der TUHH – Studentische Hilfskraft

  • Modellierung eines Torrefizierungsreaktors
  • Bauteilprogrammierung in EBSILON©Professional

Institut für Feststoffverfahrenstechnik und Partikeltechnologie der TUHH – Studentische Hilfskraft

  • Sprühgranulation von Keramiken
  • Stoß- und Scherverhalten von Feststoffen

Ehrenamtliches Engagement 🤝:

    • Organisation und Durchführung von Veranstaltungen, Exkursionen und Tutorien

    Cristo Vive Europe e. V. – aktives Mitglied

    • Auswahl und Vorbereitung von Freiwilligen für ein FSJ