DEPARTMENT.FACULTY
Dr. Ajiv Alam Khan
- DEPARTMENT_STAFF.QUALIFICATION
Ph.D., B. Tech, M. Tech ( Thermal Sc)
- DEPARTMENT_STAFF.DESIGNATION
Assistant Professor
- DEPARTMENT_STAFF.THRUST_AREA
Thermo Fluid, CFD, PV/T system with nano-Fluid, nanomaterials, NEPCM, CFD, Solar Energy. Thermal Energy Management
- DEPARTMENT_STAFF.ADDRESS
Community College, AMU Aligarh
- DEPARTMENT_STAFF.MOBILE
8410249658
- DEPARTMENT_STAFF.EMAIL
azim7alam@gmail.com
- DEPARTMENT_STAFF.TIME_TABLE
Dr.
Ajiv Alam Khan is a distinguished scholar in the field of sustainable energy
and thermal systems, with a rich academic journey marked by numerous
achievements. He
has been recognized for his outstanding academic performance, including
the receipt of a Senior Research Fellowship (SRF) by CSIR Delhi during his
Ph.D. studies in 2018 and multiple qualifications in the highly
competitive Graduate Aptitude Test in Engineering (GATE), achieving his
best rank at AIR-2332 in 2016. Additionally, he demonstrated his athletic
talents by securing the 3rd position in the Long Jump during the
Inter-Hall Long Jump Competition. Dr. Khan's teaching and research experience, spanning
over four years, includes roles as a Guest Teacher, Assistant Professor, and Guest
Lecturer at various prestigious institutions. He has taught a range of theory courses
and actively supervised numerous dissertation and undergraduate projects, contributing
significantly to research and the development of future engineers and scientists.
Dr.
Khan's educational journey is marked by impressive qualifications, including a Ph.D.
in Nanofluid and PVT (Solar Energy), an M.Tech. in Mechanical Engineering, and
a B.Tech. in Mechanical Engineering. His academic pursuits culminated in a deep dive
into research, resulting in publications in reputable journals and conference proceedings.
His work notably explores innovative approaches to enhance the efficiency
of photovoltaic-thermal (PV/T) systems and the development of phase change
materials (PCMs).
Beyond his academic endeavors, Dr. Khan has actively engaged in professional development through faculty development programs, webinars, seminars, and moderation roles, demonstrating his commitment to staying abreast of emerging trends and sharing knowledge within the academic community. Dr. Khan's dedication to advancing sustainable energy solutions, his significant contributions to research and education, and his numerous accomplishments in academia make him a standout scholar in his field, with the potential to drive meaningful advancements in sustainable energy and thermal systems, ultimately contributing to a more sustainable future.
Department of
Mechanical Engineering, ZHCET , 2015. AA Khan qualified GATE multiple time with best GATE Score 698 in 2016.After completing his M.Tech. He got admission in Ph.D. in the session 2016-17. In July 2018 he also awarded by CSIR-Senior Research Fellowship for his research work.
- Ajiv Alam Khan [HTML] from sciencedirect.com Get Full Text via MAL AMU Insight into the investigation of Fe3O4/SiO2 nanoparticles suspended aqueous nanofluids in hybrid photovoltaic/thermal system This experimental study aims to evaluate the energetic performance of a photovoltaic-thermal system with a serpentine tube collector. A photovoltaic-thermal unit with a serpentine tube collector is used to compare the unit's performance metrics to those of a PV panel without cooling. The considered heat transfer fluid is the hybrid nanofluid prepared using water and Fe3O4/SiO2 nanoparticles. Using irradiance data from an average day in Aligarh, India, the experiment is conducted in indoor environment in a solar simulator under regulated operating circumstances. Effects of mono and hybrid nanofluids are examined at 3% wt. concentration for varying flow rates (20, 30, 40 LPM). The experimentation analysis showed that the maximum drop in PV temperature at 20 LPM is 25?°C, 24?°C, and then 16?°C for Fe3O4/water, SiO2/water, and Fe3O4/SiO2 nanofluids-based PVT systems, respectively with a highest …