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Peter R. Armstrong
Researcher at Khalifa University
Publications - 99
Citations - 2620
Peter R. Armstrong is an academic researcher from Khalifa University. The author has contributed to research in topics: Thermal energy storage & Solar energy. The author has an hindex of 22, co-authored 98 publications receiving 2312 citations. Previous affiliations of Peter R. Armstrong include Masdar Institute of Science and Technology & Massachusetts Institute of Technology.
Papers
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Journal ArticleDOI
Power signature analysis
Christopher R. Laughman,Kwangduk Lee,Robert W. Cox,S. Shaw,Steven B. Leeb,L.K. Norford,Peter R. Armstrong +6 more
TL;DR: In this article, the authors present techniques for high-performance non-intrusive load and diagnostic monitoring and illustrate key points with results from field tests, as well as demonstrate the performance of these techniques.
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A comprehensive techno-economical review of indirect solar desalination
TL;DR: A comprehensive review of all the indirect solar desalination technologies along with plant specific technical details is provided in this paper, where efforts assessing the economic feasibility and cost affecting parameters for each Desalination technology are also reviewed.
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Analysis and Evaluation of DC-Link Capacitors for High-Power-Density Electric Vehicle Drive Systems
TL;DR: A comprehensive method for the analysis and comparative evaluation of dc-link capacitor applications to minimize the volume, mass, and capacitance is presented and an 80-kW permanent-magnet motor drive system is evaluated.
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Estimation of variable-speed-drive power consumption from harmonic content
TL;DR: In this article, a VSD power estimation method based on observed correlations between fundamental and higher harmonic spectral content in current was proposed, which can be generalized to any load with signature correlations in harmonic content.
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Solar-assisted Post-combustion Carbon Capture feasibility study
Marwan Mokhtar,Muhammad Tauha Ali,Rajab Khalilpour,Ali Abbas,Nilay Shah,Ahmed Al Hajaj,Peter R. Armstrong,Matteo Chiesa,Sgouris Sgouridis +8 more
TL;DR: In this article, the authors proposed and theoretically evaluated a system to reduce the output power penalty by providing part of the post-combustion carbon capture (PCC) energy input using solar thermal energy.