Dr. Nabiha NAILI | Renewable energies | Excellence in Research
Dr. Nabiha Naili 🇹🇳, born on 20 Jan 1974, is an Assistant Professor at the Research and Technology Center of Energy (CRTEn), Tunisia 🔬. With expertise in thermal systems and renewable energy 🌞, she contributes to sustainable solutions in heating/cooling applications. Her prolific research on ground source heat pumps and solar energy 🌍 has earned recognition both locally and internationally 🌐. She actively mentors young researchers and engineers 🧑🎓, participates in scientific committees 📋, and serves as a reviewer for top-tier journals 📚. Dr. Naili is known for combining simulation with experimental validation 🔧🧪, aiming to promote clean energy and climate-resilient technologies. She balances academic excellence with strong scientific leadership and international collaboration 🤝. Fluent in science and solutions, she is a pillar of innovation at CRTEn 🏛️
Profile
Education 🎓
Dr. Naili’s academic journey began with a Master in Physics in 1999 🧲, followed by an Advanced Studies Diploma in 2001 📘. Her deep dive into renewable energy and thermodynamics culminated in a Ph.D. in 2015 🎓. Her doctoral research integrated experimental methods with simulation modeling, focusing on ground source heat pump systems in Tunisia 🌍. This educational foundation empowered her to lead pioneering work in solar-assisted geothermal systems and energy-efficient technologies ☀️🌡️. She blends classical physics knowledge with applied engineering solutions 🛠️. Throughout her academic career, she has been committed to continuous learning and applying theoretical concepts to real-world energy challenges 🔬. Her education has laid the groundwork for her exceptional research and teaching activities within the fields of sustainable energy and thermal systems ♻️📖.
Experience 👨🏫
Since 2002, Dr. Naili has taught physics at various academic levels, eventually becoming an Assistant Professor at CRTEn 🎓. Her experience spans over two decades, involving classroom instruction, laboratory supervision, and student mentoring . She has guided 7 technician projects, 3 engineer theses, 2 master’s, and 2 Ph.D. dissertations 📘. She has reviewed papers for prestigious journals like Applied Energy and Renewable Energy 📚. A member of CRTEn’s scientific council, she also contributes to international conference committees 🌐. Her work integrates simulation tools like TRNSYS with experimental installations, enhancing national energy efficiency programs 💡. She actively participates in R&D projects involving heat exchangers, geothermal systems, and hybrid solar applications 🔧🌞. Her blend of academic insight and applied engineering makes her a key player in Tunisia’s energy innovation ecosystem 🔋.
Awards & Recognitions 🏅
While formal awards are not explicitly listed, Dr. Naili’s career is adorned with prestigious roles and peer recognition 🌟. She has been an invited speaker at ANSOLE Days 2017 🎤, reflecting her regional leadership in geothermal and solar energy. She is an elected member of CRTEn’s Scientific Council 🏛️ and has served as a Technical Program Committee member at key conferences like ICSESS 2018 and IREC 🌍. Her role as a reviewer for high-impact journals like Energy Conversion and Management and Applied Thermal Engineering is a testament to her research quality 📖. Her research articles are frequently cited, and her work has contributed to national development in renewable energy ⚡. She is celebrated for promoting clean technology and education across Tunisia and beyond 🏅.
Research Interests 🔬
Dr. Naili’s research centers on renewable energy systems, especially solar-assisted ground source heat pumps and hybrid solar technologies 🌞❄️. She has conducted experimental and simulation-based analyses on geothermal heat exchangers, passive solar heating, and building energy efficiency in North African climates 🏠🌍. Her focus lies in optimizing thermal systems for domestic and industrial applications through tools like TRNSYS and CFD modeling 🧪🧠. Her published work spans Geothermics, Applied Thermal Engineering, and Energy Conversion and Management 📚. She emphasizes economic viability, energy conservation, and exergy analysis in her projects 💸🔧. Collaborating with engineers and policymakers, she aims to integrate clean energy into Tunisia’s infrastructure sustainably ♻️. Her innovation-driven approach aligns research with climate goals, making her a key contributor to environmental resilience and green development 🌱🔬.