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The reprint focused on innovative developments in the fields of advanced propulsion system and thermal management technology. Propulsion systems develop along the direction of wide speed range and long endurance both for civil aircrafts and military applications. The research works of propulsion systems mainly include overall design, combustion, aerodynamic, internal flows and heat transfer etc. High efficiency is pursed not only by optimized designs but also from development of materials as well as application of new fuel. Along with development of high efficiency propulsion system, thermal management technology is also developed to meet the demand of external aerodynamic heating and internal combustion heat at a high flight speed. Common thermal management technology includes blade cooling in gas turbines and regenerative cooling in rocket engines. Thermal protection of engines achieves high efficiency by heat transfer enhancement, such as use of superficial fluid, nanofluids and new designed roughened surfaces. Also, some heat transfer enhancement methods in heat exchangers, battery and fuel cells are also introduced into propulsion systems.

Heat --- Thermal hydraulics. --- Transmission.

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The reprint focused on innovative developments in the fields of advanced propulsion system and thermal management technology. Propulsion systems develop along the direction of wide speed range and long endurance both for civil aircrafts and military applications. The research works of propulsion systems mainly include overall design, combustion, aerodynamic, internal flows and heat transfer etc. High efficiency is pursed not only by optimized designs but also from development of materials as well as application of new fuel. Along with development of high efficiency propulsion system, thermal management technology is also developed to meet the demand of external aerodynamic heating and internal combustion heat at a high flight speed. Common thermal management technology includes blade cooling in gas turbines and regenerative cooling in rocket engines. Thermal protection of engines achieves high efficiency by heat transfer enhancement, such as use of superficial fluid, nanofluids and new designed roughened surfaces. Also, some heat transfer enhancement methods in heat exchangers, battery and fuel cells are also introduced into propulsion systems.

Heat --- Thermal hydraulics. --- Transmission.

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This handbook provides an in-depth analysis of thermal hydraulics in water-cooled nuclear reactors, addressing foundational principles and practical applications. Edited by Francesco D’Auria and Yassin A. Hassan, it compiles contributions from leading experts in the field. The book covers a wide range of topics, including system thermal hydraulics history, two-phase flow development, heat transfer, and safety assessment. It emphasizes the role of thermal hydraulics in nuclear power plant design and safety, offering insights into pressure drops, constitutive equations, and modeling techniques. Aimed at practitioners and researchers, this comprehensive guide serves as a valuable resource for understanding the critical aspects of nuclear reactor operation and safety.

Thermal hydraulics. --- Nuclear reactors. --- Thermal hydraulics --- Nuclear reactors --- Reactors nuclears --- Hidràulica tèrmica

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This eBook is a collection of articles from a Frontiers Research Topic. Frontiers Research Topics are very popular trademarks of the Frontiers Journals Series: they are collections of at least ten articles, all centered on a particular subject. With their unique mix of varied contributions from Original Research to Review Articles, Frontiers Research Topics unify the most influential researchers, the latest key findings and historical advances in a hot research area! Find out more on how to host your own Frontiers Research Topic or contribute to one as an author by contacting the Frontiers Editorial Office: frontiersin.org/about/contact

nuclear safety --- core coolant --- thermal hydraulics --- simulation --- nuclear power plant

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Pressurized water reactors --- Thermal hydraulics. --- Loss of coolant --- Computer programs.