G
Greg F. Naterer
Researcher at Memorial University of Newfoundland
Publications - 454
Citations - 10610
Greg F. Naterer is an academic researcher from Memorial University of Newfoundland. The author has contributed to research in topics: Hydrogen production & Heat transfer. The author has an hindex of 45, co-authored 444 publications receiving 8898 citations. Previous affiliations of Greg F. Naterer include Lakehead University & St. John's University.
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Review of photocatalytic water-splitting methods for sustainable hydrogen production
TL;DR: In this paper, the main groups of photocatalysts, namely titanium oxide, cadmium sulfide, zinc oxide/sulfide and other metal oxide-based photocatalyst groups, are introduced.
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Life cycle assessment of various hydrogen production methods
TL;DR: In this article, a comprehensive life cycle assessment (LCA) is reported for five methods of hydrogen production, namely steam reforming of natural gas, coal gasification, water electrolysis via wind and solar electrolysis, and thermochemical water splitting with a Cu-Cl cycle.
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Heat transfer in phase change materials for thermal management of electric vehicle battery modules
Xili Duan,Greg F. Naterer +1 more
TL;DR: In this article, phase change materials (PCMs) are used to simulate the heat source of a battery cell and two different PCM designs are investigated: one with a PCM cylinder surrounding the heater, and the other with PCM jackets wrapping the heater.
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Heat transfer and thermal management with PCMs in a Li-ion battery cell for electric vehicles
TL;DR: In this article, the authors investigated the effect of phase change materials (PCM) on the Li-ion cells in passive thermal management of electric and hybrid electric vehicles where the PCM was integrated with a Li ion cell and the results showed that the maximum temperature and temperature excursion in the cell were reduced when PCM is employed.
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Exergy analysis of a thermal power plant with measured boiler and turbine losses
TL;DR: In this paper, a thermodynamic analysis of a subcritical boiler-turbine generator is performed for a 32MW coal-fired power plant, where both energy and exergy formulations are developed for the system.