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Pellet, Jean, --- Bordeaux --- Commerce --- History
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Pellet, Jean Daniel. --- Pellet, Jean, --- Pellet, Jean. --- Geschichte 1694-1772. --- Bordeaux (France) --- Bordeaux (Gironde) --- Bordeaux, Commerce, 18e s. --- Bordeaux. --- Commerce --- Histoire. --- Commerce.
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Pellet (jean), 1694-1772 --- Bordeaux (france) --- Biographie --- Commerce --- 18e siecle
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Nuclear energy --- Pellet fusion --- Energie nucléaire --- Fusion [Inertial confinement ] --- Fusion [Pellet ] --- Inertial confinement fusion --- Kernenergie --- Inertial confinement fusion. --- Energie nucléaire --- Report
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Chickens. --- Chicks. --- Feed intake behavior. --- Pattern. --- Patterns. --- Pellet. --- Theme. --- Time patterns. --- Time.
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Le présent ouvrage est un hommage à Gustave Flaubert et un clin d'oeil amical à Alain Pellet. Le premier en a inspiré la forme ; le second en a déterminé, à son insu, le contenu et les auteurs. A l'image du Dictionnaire des idées reçues de Flaubert (Ed. Louis Conard, Paris, 1913), le Dictionnaire des idées reçues en droit international comporte plus de cent définitions, sous forme d'aphorismes ou de poncifs, se rapportant à des notions, institutions ou auteurs du droit international.Certaines de ces définitions sont directement empruntées à Alain Pellet. Toutes sont commentées par des « collègues et néanmoins amis », anciens élèves, compagnons de route et autres proches du professeur nanterrois.
International law --- Droit international --- Dictionaries --- French --- Dictionnaires français --- Pellet, Alain --- Préjugés --- Dictionnaires français --- Préjugés. --- Préjugés.
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Nuclear Fusion by Inertial Confinement provides a comprehensive analysis of directly driven inertial confinement fusion. All important aspects of the process are covered, including scientific considerations that support the concept, lasers and particle beams as drivers, target fabrication, analytical and numerical calculations, and materials and engineering considerations. Authors from Australia, Germany, Italy, Japan, Russia, Spain, and the U.S. have contributed to the volume, making it an internationally significant work for all scientists working in the Inertial Confinement Fusion (ICF) field, as well as for graduate students in engineering and physics with interest in ICF.
Inertial confinement fusion. --- Nuclear fusion. --- Fusion, Nuclear --- Fusion reactions --- Fusion --- Nuclear reactions --- Fusion, Inertial confinement --- Inertial fusion --- Pellet fusion --- Controlled fusion
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How to achieve unlimited, safe, clean and low-cost energy by laser- or beam-driven inertial nuclear fusion has preoccupied all winners of the Edward Teller Medal since its inception in 1991. This book presents their findings, meeting discussions, and personal insights from Edward Teller himself. Expect discussion of important advances anticipated in the future such as multi-billion dollar fusion research projects (NIF), and new schemes such as the petawatt-picosecond laser-plasma interactions evoking new physics and coupling mechanisms. For the first time, laser technology of the new century i
Inertial confinement fusion. --- Nuclear fusion. --- Fusion, Nuclear --- Fusion reactions --- Fusion --- Nuclear reactions --- Fusion, Inertial confinement --- Inertial fusion --- Pellet fusion --- Controlled fusion
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Woody biomass is most widely used for energy production. In the United States, roughly 2% of the energy consumed annually is generated from wood and wood-derived fuels. Woody biomass needs to be preprocessed and pretreated before it is used for energy production. Preprocessing and pretreatments improve the physical, chemical, and rheological properties, making them more suitable for feeding, handling, storage transportation, and conversion. Mechanical preprocessing technologies such as size reduction and densification, help improve particle size distribution and density. Thermal pretreatment can reduce grinding energy and torrefied ground biomass has improved sphericity, particle surface area, and particle size distribution. This book focuses on several specific topics, such as understanding how forest biomass for biofuels impacts greenhouse gas emissions; mechanical preprocessing, such as densification of forest residue biomass, to improve physical properties such as size, shape, and density; the impact of thermal pretreatment temperatures on woody biomass chemical composition, physical properties, and microstructure for thermochemical conversions such as pyrolysis and gasification; the grindability of torrefied pellets; use of wood for gasification and as a filter for tar removal; and understanding the pyrolysis kinetics of biomass using thermogravimetric analyzers.
History of engineering & technology --- grindability --- torrefied biomass --- pellet --- energy consumption --- co-firing --- biomass --- gasification --- tar --- syngas cleaning --- dry filter --- pyrolysis --- chemical composition --- micro-structure --- physical properties --- scanning electron microscopy --- wood --- thermal pretreatment --- torrefaction --- timber --- harvest residues --- ethanol --- GHG savings --- Michigan --- variety and rootstock selection --- almond tree --- agricultural practices --- halophytes --- Phoenix dactylifera --- Salicornia bigelovii --- thermogravimetric analysis --- torrefied biomass --- correlation --- ultimate analysis --- solid yield --- heating value --- OLS --- 2-inch top pine residue + switchgrass blends --- pelleting process variables --- pellet quality --- specific energy consumption --- response surface models --- hybrid genetic algorithm --- pelleting --- functional groups --- pellet strength --- combustion efficiency --- forest biomass --- Australia --- biomass energy potential --- emission --- bioenergy
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Woody biomass is most widely used for energy production. In the United States, roughly 2% of the energy consumed annually is generated from wood and wood-derived fuels. Woody biomass needs to be preprocessed and pretreated before it is used for energy production. Preprocessing and pretreatments improve the physical, chemical, and rheological properties, making them more suitable for feeding, handling, storage transportation, and conversion. Mechanical preprocessing technologies such as size reduction and densification, help improve particle size distribution and density. Thermal pretreatment can reduce grinding energy and torrefied ground biomass has improved sphericity, particle surface area, and particle size distribution. This book focuses on several specific topics, such as understanding how forest biomass for biofuels impacts greenhouse gas emissions; mechanical preprocessing, such as densification of forest residue biomass, to improve physical properties such as size, shape, and density; the impact of thermal pretreatment temperatures on woody biomass chemical composition, physical properties, and microstructure for thermochemical conversions such as pyrolysis and gasification; the grindability of torrefied pellets; use of wood for gasification and as a filter for tar removal; and understanding the pyrolysis kinetics of biomass using thermogravimetric analyzers.
grindability --- torrefied biomass --- pellet --- energy consumption --- co-firing --- biomass --- gasification --- tar --- syngas cleaning --- dry filter --- pyrolysis --- chemical composition --- micro-structure --- physical properties --- scanning electron microscopy --- wood --- thermal pretreatment --- torrefaction --- timber --- harvest residues --- ethanol --- GHG savings --- Michigan --- variety and rootstock selection --- almond tree --- agricultural practices --- halophytes --- Phoenix dactylifera --- Salicornia bigelovii --- thermogravimetric analysis --- torrefied biomass --- correlation --- ultimate analysis --- solid yield --- heating value --- OLS --- 2-inch top pine residue + switchgrass blends --- pelleting process variables --- pellet quality --- specific energy consumption --- response surface models --- hybrid genetic algorithm --- pelleting --- functional groups --- pellet strength --- combustion efficiency --- forest biomass --- Australia --- biomass energy potential --- emission --- bioenergy
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