Clathrate Hydrates. Группа авторов

the CS‐I CO₂ clathrat...Figure 14.27 The two models of growth inhibition are very similar except for...Figure 14.28 Simple model of melting and freezing inhibition operating throu...Figure 14.29 Mechanism of step pinning by adsorbed KHI polymer clumps on a h...Figure 14.30 The partial encapsulation of a hydrophobic pendant methyl group...Figure 14.31 The DSC scans of the decomposition of natural gas hydrate for a...Figure 14.32 Molecular dynamics simulations of growth and decay of hydrate n...Figure 14.33 Molecular dynamics simulations of the mechanism of homogeneous ...Figure 14.34 Simulations the process of hydrate nucleation, the formation of...Figure 14.35 A representation of the multiscale approach for laboratory and ...

      15 Chapter 15Figure 15.1 (a) A schematic representation of the Brillouin scattering spect...Figure 15.2 (a) Experimental Brillouin scattering data for polycrystalline x...Figure 15.3 (a) Acoustic longitudinal velocities of clathrate hydrates at 0 ...Figure 15.4 Single crystal of methane hydrate grown in diamond anvil cell....Figure 15.5 (a) Pressure dependence of the longitudinal (LA) and transverse ...Figure 15.6 The pressure dependence of elastic moduli, c₁₁, c₁₂, c₄₄ and bul...Figure 15.7 (a) Elastic moduli for argon and methane hydrate as a function o...Figure 15.8 The temperature dependence of the ice, CS‐I methane clathrate, a...Figure 15.9 The constant pressure thermal expansion of the lattice parameter...Figure 15.10 Temperature dependence for the a (top) and c (bottom) unit cell...Figure 15.11 (a) Thermal conductivity of CS‐II tetrahydrofuran hydrate betwe...Figure 15.12 Thermal conductivity measurement results for tetrahydrofuran hy...Figure 15.13 (a) The “reversal” of the thermal conductivity at T < 100 K and...Figure 15.14 Schematic representation of the phonon scattering process in th...

      16 Chapter 16Figure 16.1 Methane hydrate formation in the presence of different weight pe...Figure 16.2 The interaction of the winter flounder AFP (wf‐AFP) with empty h...Figure 16.3 Hydrate growth along the vessel wall and receding gas/water inte...Figure 16.4 Map showing gas hydrate accumulations in the earth.Figure 16.5 Experimental conditions for methane and carbon dioxide hydrate f...Figure 16.6 Timeline of progress on the use of hydrates for water desalinati...Figure 16.7 Schematic of the prototype for the seawater desalination process...Figure 16.8 Dissociation temperatures for different hydrate structures at 0....Figure 16.9 Block flow diagram of a facility for the production and storage ...Figure 16.10 Hydrate phase equilibrium for THF‐H₂‐water.Figure 16.11 Hydrogen storage capacity at different aqueous THF concentratio...Figure 16.12 H₂ storage capacities with semi‐clathrates.Figure 16.13 Post‐combustion capture with hydrates: the CO₂ separation step ...Figure 16.14 Pre‐combustion capture with hydrates: The CO₂ separation step f...Figure 16.15 Temperature (T) composition (w) diagram of the semi‐clathrate h...Figure 16.16 Partial phase diagram for a CO₂/H₂ (39.2/60.8 mol%) fuel gas mi...Figure 16.17 Hydrate phase equilibrium for the fuel gas mixture with or with...Figure 16.18 Comparison of CO₂ capacity of HBGS process with conventional so...

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