00943nam0 22002651i 450 UON0006030720231205102304.6120020107d1975 |0itac50 bajpnJP|||| 1||||HyohekiInoue YasushiTokyoShinchosha1975528 p.15 cm001UON000602912001 Shincho BunkoJPTōkyōUONL000031GIA VI BAGIAPPONE - LETTERATURA MODERNA E CONTEMPORANEA - TESTIAINOUE YasushiUONV026002609815ShinchôshaUONV246448650ITSOL20240220RICASIBA - SISTEMA BIBLIOTECARIO DI ATENEOUONSIUON00060307SIBA - SISTEMA BIBLIOTECARIO DI ATENEOSI GIA VI BA 077 SI YAM2879 7 077 Hyoheki1167198UNIOR04522nam 2201297z- 450 991074327290332120230911(CKB)5690000000228579(oapen)doab113981(EXLCZ)99569000000022857920230920c2023uuuu -u- -engurmn|---annantxtrdacontentcrdamediacrrdacarrierPressure-Induced Phase Transformations (Volume II)MDPI - Multidisciplinary Digital Publishing Institute20231 online resource (306 p.)3-0365-8565-6 The study of phase transitions in materials under high pressure and high temperature is a very active research field. In the last few decades, many important discoveries have been made thanks to the development of experimental techniques and computer simulation methods. Many of these achievements affect various research fields ranging from solid-state physics, chemistry, and materials science to geophysics. They not only involve deepening knowledge on solid-solid phase transitions, but also a better understanding of melting under compression. These modern discoveries, as well as the impact of pressure on structural, chemical, and physical properties, are central to the current Special Issue. Amongst other topics, it places particular emphasis on phase transitions and their effects on different physical properties.Pressure-Induced Phase Transformations PhysicsbicsscResearch and information: generalbicsscab initioab initio calculationsalpha-epsilonantiferroelectricband gapcharge density wavechemical componentschemical substitutioncopper halidescorresponding statesCrVO4-type structuredensity functional theorydi-p-tolyl disulfideDyScO3elastic anomalieselasticityelectronic propertieselectronic transitionelemental solidsenthalpy difference componentsequation of stateferroelectricFeVO4 under pressurefirst principlesfirst principles calculationsfirst-principlesgarnetgroup VB transition metalshardening-like effecthidden polymorphhigh pressurehigh pressure and high temperaturehigh pressure diffractionhigh-pressure DFThigh-pressure effectshigh-pressure polymorphhigh-pressure studiesHPHT diamondinclusioninfrared spectroscopyironkinetic linesLaAgSb2LaAuSb2lattice dynamicsluminescencemechanical propertiesmetastabilitymolecular crystalsmolecular dynamics simulationsniobatenonequilibrium conditionsphase boundariesphase diagramphase relationsphase stabilityphase transformationphase transitionphase transitionsphononsPL mappingplasticitypressureRamanRaman modesRaman scatteringRaman spectroscopyramprare earth orthophosphaterare earth tantalatesrelative stabilityresistivityshock wavestabilitystructural transitionsynchrotron radiationtensile straintopological analysis of bondsvibrational propertiesWigner-Seitz radiiX-ray diffractionPhysicsResearch and information: generalBOOK9910743272903321Pressure-Induced Phase Transformations (Volume II)3560527UNINA02884nam 22004573 450 991076419060332120240422084506.0(CKB)5580000000514624(MiAaPQ)EBC31281421(Au-PeEL)EBL31281421(Exl-AI)31281421(OCoLC)1432051597(EXLCZ)99558000000051462420240422d2023 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierLatest Research on Energy Recovery1st ed.London :IntechOpen,2023.©2023.1 online resource (154 pages)9781803556116 1803556110 Latest Research on Energy Recovery -- Contents -- Preface -- Section 1 Heat Recovery -- Chapter1 Magnetocaloric Properties in Gd Ni and Gd CoNi Systems -- Chapter2 Micro-Thermoelectric Generators: Material Synthesis, Device Fabrication, and Application Demonstration -- Chapter3 Perspective Chapter: Ultra-LowTemperature Chillers for Semiconductor Manufacturing Process -- Section 2 Nonconventional Energy Recovery -- Chapter4 Assessment of Solar Energy Potential Limits within Solids on Heating-Melting Interval -- Chapter5 TheTechnical Challenges of the GasificationTechnologies Currently in Use and Ways of Optimizing Them: A Review -- Chapter6 Green and Sustainable Chemical Looping Plasma Process for Ammonia and Hydrogen Production -- Chapter7 Energy Efficiency Improvement in Surface MiningGenerated by AI.This book, edited by Petrica Vizureanu, explores the concept of energy recovery within large industries and utilities globally. Through seven chapters, it delves into the theory and practical requirements of energy recovery, highlighting its significance in industrial applications. The text covers various topics, including heat recovery, solar energy potential, gasification technologies, and the use of chemical looping processes for sustainable ammonia and hydrogen production. It emphasizes the importance of sustainable development and energy efficiency, particularly in heavy industries reliant on fossil fuels. The book targets professionals and researchers in the energy sector, aiming to provide insights into cutting-edge technologies and methods for improving energy recovery and efficiency.Generated by AI.Energy conservationGenerated by AIIndustrial applicationsGenerated by AIEnergy conservationIndustrial applications662.6Vizureanu Petrica1433315MiAaPQMiAaPQMiAaPQBOOK9910764190603321Latest Research on Energy Recovery4154813UNINA