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ÉDITION: Deuxième éditionDATE DE PARUTION: le 19 septembre 2020La Fuite des événements est un ouvrage sur les angoisses altruistes dans les suicides maniaco-dépressifs. Mais, plus qu'à l'acte suicidaire lui-même, nous nous intéresserons aux processus psychiques qui le précèdent et qui se trouvent présents entre la décision et l'acte.Dans la prise en compte de ces moments qui précèdent un acte suicidaire, lors des épisodes critiques non-délirants, non-hallucinés et non-agis mais assimilés parfois à des moments psychotiques, où l'on situe une discontinuité ou une rupture radicale quoique momentanée dans le lien à l'Autre, on peut observer qu'il y a des événements qui arrivent au sujet sans qu'il puisse en décider.Ces événements intersubjectifs incontrôlés s'enchaînent dans une fuite métonymique et poussent le sujet à souffrir d'une tendance à subir les actes qu'il fait lui-même accomplir aux autres. Lors de cette fuite des événements, ce n'est pas tout à fait vrai que le sujet fuit les événements de sa vie; ce sont plutôt les événements eux-mêmes qui fuient.

Section I: High Tc Superconductivity.- Flux Phases in the t-J Model.- Two Dimensional Phenomena in High Tc Superconductors.- Novel Singular Solutions of BCS Theory.- Magnetism and Superconductivity in Doped Lamellar Copper Oxide Systems.- A Vortex Lattice of Anyons in Strongly Correlated Systems.- Electron-Hole Liquid Model for High Tc Superconductivity.- Strong Electron Correlations in CuO2 Planes of High Temperature Superconductors.- Two Component Superconductivity.- Section II: Localization.- Coherent Back Scattering and Other Optical Effects in Random Media.- Many Body Techniques for Wave Propagating in Random Media.- Localization and Folding of Random Chains.- Section III: Nuclear Physics.- A New Theory of Collisions.- Calculations of the Ground State of 16O.- A New State of Nuclear Matter.- The "Ideal" Shell Model Calculation.- Non-Spurious Harmonic Oscillator States for Many-Body Systems.- Section IV: Microscopic Approaches I.- Inhomogeneous Quantum Liquids: Many Body Theory on the Testbench.- Coupled Cluster Parametrizations of Model Field Theories and their Bargman-Space Representations.- Fermion Monte Carlo Algorithms for Quantum Fluids.- Bose Condensate in Superfluid 4He and Momentum Distributions by Deep Inelastic Scattering.- Section V: Mesoscopic Systems.- Ballistic Electronic Transport in Semiconductor Structures.- Random-Matrix-Model for Fluctuations in Microscopic and Mesoscopic Systems.- Section VI: Strongly Correlated Systems.- Super-Effective-Field CAM Theory of Strongly Correlated Electron and Spin Systems.- Unified Description of Strongly and Weakly Correlated Electrons.- Fermi Hyper-Netted Chain Theory on a Lattice: The Hubbard Model.- Many Body Methods Applied to Scattering of Composite Particles in Gauge Theory with Confinement.- Section VII Microscopic Approaches Ii.- Two-Body Density Matrix for Quantum Fluids.- New Microscopic Description of Liquid 3He.- Excitation Spectrum of a 3He Impurity in 4He.- Section VIII: Feenberg Medal Presentation And Summary.- Achievements in Quantum Monte Carlo.- Summary of The VI International Conference on Recent Progress in Many Body Theories Arad Israel.

1 Introduction to process design.- 1.1 Material requirements and flows.- 1.2 Energy balances.- 1.3 Process economics.- Appendix 1.A: Some basic definitions.- Conclusions.- Further reading.- 2 Newtonian fluid mechanics.- 2.1 Laminar and turbulent flow.- 2.2 Ideal fluids.- 2.3 Laminar flows.- 2.4 Dimensional analysis.- 2.5 Turbulent flow.- Conclusions.- Further reading.- 3 Introduction to heat transfer.- 3.1 Heat conduction.- 3.2 Heat transfer in flowing systems.- 3.3 Heat exchange: more practical aspects.- Conclusions.- Further reading.- 4 Mass transfer in food and bioprocesses.- 4.1 Why does transfer occur?.- 4.2 Mechanisms.- 4.3 Equilibrium.- 4.4 Diffusion.- 4.5 Transient behaviour.- 4.6 Flowing systems.- 4.7 Interphase transfer.- 4.8 Aeration.- 4.9 Mass transfer limitations.- Conclusions.- Further reading.- 5 Food rheology.- 5.1 Characteristics of non-Newtonian fluids.- 5.2 Viscometric flows.- 5.3 Application to engineering problems.- Appendix 5.A: Linear viscoelastic Maxwell element.- Appendix 5.B: Concentric cylinder viscometer.- Appendix 5.C: Cone and plate viscometer.- Conclusions.- References and further reading.- 6 Process design: heat integration.- 6.1 Design of process plant.- 6.2 Second-law analysis: heat integration.- 6.3 Heat and process integration in the food industry.- Conclusions.- 7 Process control.- 7.1 What is the control problem?.- 7.2 Block diagrams.- 7.3 Process dynamics.- 7.4 multiple inputs and linearization.- 7.5 Frequency response.- 7.6 Feedforward and feedback control.- 7.7 Types of controller action.- 7.8 Control system design for complete plants.- Conclusions.- Further reading.- 8 Reactors and reactions in food processing.- 8.1 Reactor types.- 8.2 Physical chemistry of food reactions.- 8.3 Analysis of isothermal 'ideal' reactor systems.- 8.4 Non-isothermal reactions.- 8.5 Non-ideal flow and mixing in continuous reactors.- Conclusions.- References and further reading.- 9 Thermal treatment of foods.- 9.1 Engineering principles.- 9.2 Continuous processing: problems and solutions.- 9.3 Fouling and cleaning in food process plant.- Conclusions.- References and further reading.- 10 Mixing in food processing.- 10.1 Fundamentals of mixing.- 10.2 Fluid-mixing equipment.- 10.3 Power consumption in stirred tanks.- 10.4 Miscible liquid blending operations.- 10.5 Gas-liquid mixing.- 10.6 Liquid-liquid dispersions and the creation of emulsions.- 10.7 Solids suspension and solid-liquid mass transfer.- 10.8 Scale-up of mixers from pilot trials.- 10.9 Alternative mixing devices.- 10.10 Mixing of particulate materials.- Conclusions.- References and further reading.- 11 Process design: an exercise and simulation examples.- 11.1 An integrated cheese plant: a design exercise.- 11.2 Computer simulations.- Conclusions.- Overall conclusions.