A
Alireza Mahdavi Nejad
Researcher at Wentworth Institute of Technology
Publications - 24
Citations - 307
Alireza Mahdavi Nejad is an academic researcher from Wentworth Institute of Technology. The author has contributed to research in topics: Phase-change material & Heat transfer. The author has an hindex of 4, co-authored 19 publications receiving 108 citations. Previous affiliations of Alireza Mahdavi Nejad include Worcester Polytechnic Institute.
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Performance of a pavement solar energy collector: Model development and validation
TL;DR: In this paper, the Pavement Solar Collector (PSC) is used to extract low temperature thermal energy, which is then stored in the PSC and used to harvest energy by flowing water through a heat exchanger.
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Lithium-ion battery thermal management system with Al2O3/AgO/CuO nanofluids and phase change material
Mehrdad Kiani,Soheil Omiddezyani,Ehsan Houshfar,Seyed Rahman Miremadi,Mehdi Ashjaee,Alireza Mahdavi Nejad +5 more
TL;DR: In this paper, a battery thermal management system for pouch lithium-ion battery modules is presented, which combines pure water and nanofluid type thermal management systems with copper foam filled with paraffin wax as a phase change material with massive heat storage potential.
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A Nanoscale‐Modified band energy junctionless transistor with considerable progress on the electrical and frequency issue
TL;DR: In this article, a modification of band energy profile has been proposed for silicon-on-insulator junctionless (CSOI-JLT) devices to solve the leakage current in nanoscale circuits.
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Profound analysis on sensing performance of Nanogap SiGe source DM-TFET biosensor
Mohammad K. Anvarifard,Zeinab Ramezani,Iraj Sadegh Amiri,Khalil Tamersit,Alireza Mahdavi Nejad +4 more
TL;DR: In this paper, the authors report the key role of indispensable technical challenges in the sensing performance of an embedded nanogap SiGe source dielectric-modulated tunnel field effect transistor (SGS-DM-TFET) biosensor during the conjugation of biological samples for the first time.
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Novel hybrid thermal management for Li-ion batteries with nanofluid cooling in the presence of alternating magnetic field: An experimental study
TL;DR: In this article, a novel battery thermal management system consisting of metal foam-paraffin PCM composite, nanofluid cooling, and heat sink, which all were subjected to a magnetic field was designed.