M
Matteo Chiesa
Researcher at Khalifa University
Publications - 248
Citations - 6820
Matteo Chiesa is an academic researcher from Khalifa University. The author has contributed to research in topics: Photovoltaic system & Concentrator. The author has an hindex of 37, co-authored 231 publications receiving 5697 citations. Previous affiliations of Matteo Chiesa include Massachusetts Institute of Technology & Masdar Institute of Science and Technology.
Papers
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Journal ArticleDOI
High-performance flat-panel solar thermoelectric generators with high thermal concentration
Daniel Kraemer,Bed Poudel,Hsien-Ping Feng,J. Christopher Caylor,Bo Yu,Xiao Yan,Yi Ma,Xiaowei Wang,Dezhi Wang,Andrew Muto,Kenneth McEnaney,Matteo Chiesa,Matteo Chiesa,Zhifeng Ren,Gang Chen +14 more
TL;DR: A promising flat-panel solar thermal to electric power conversion technology based on the Seebeck effect and high thermal concentration is demonstrated, thus enabling wider applications and opening up a promising new approach which has the potential to achieve cost-effective conversion of solar energy into electricity.
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Enhanced thermal conductivity and viscosity of copper nanoparticles in ethylene glycol nanofluid
Jivtesh Garg,Bed Poudel,Matteo Chiesa,J. B. Gordon,J. J. Ma,Jianbo Wang,Zhifeng Ren,Yong Tae Kang,Hiroko Ohtani,Jagjit Nanda,Gareth H. McKinley,Gang Chen +11 more
TL;DR: In this article, the authors investigated the thermal conductivity and viscosity of copper nanoparticles in ethylene glycol and found that the measured increase in thermal conductivities was twice the value predicted by the Maxwell effective medium theory.
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A frequency-domain thermoreflectance method for the characterization of thermal properties.
TL;DR: A frequency-domain thermoreflectance method for measuring the thermal properties of homogenous materials and submicron thin films and its sensitivity to various thermal properties is given, along with results from measurements of several standard materials over a wide range of thermal diffusivities.
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Numerical simulation of particulate flow by the Eulerian–Lagrangian and the Eulerian–Eulerian approach with application to a fluidized bed
TL;DR: A computational study of the flow behavior of a lab-scale fluidized bed using a ‘discrete particle method’ (DPM) and a multi-fluid computational fluid dynamic (CFD) model is presented.
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An optical pump-probe technique for measuring the thermal conductivity of liquids
TL;DR: A pump-probe optical technique for measuring the thermal conductivity of liquids using a reflective geometry which does not depend on the optical properties of the liquid and requires as little as a single droplet to produce a result is presented.