Zhi‐Min Zong scite author profile

Herein we demonstrate that chabazite zeolite SAPO-34 membranes effectively separated Kr/Xe gas mixtures at industrially relevant compositions. Control over membrane thickness and average crystal size led to industrial range permeances and high separation selectivities. Specifically, SAPO-34 membranes can separate Kr/Xe mixtures with Kr permeances as high as 1.2 × 10 (-7) mol/m(2) s Pa and separation selectivities of 35 for molar compositions close to typical concentrations of these two gases in air. In addition, SAPO-34 membranes separated Kr/Xe mixtures with Kr permeances as high as 1.2 × 10 (-7) mol/m(2) s Pa and separation selectivities up to 45 for molar compositions as might be encountered in nuclear reprocessing technologies. Molecular sieving and differences in diffusivities were identified as the dominant separation mechanisms.

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Computer simulation of high explosive explosion using smoothed particle hydrodynamics methodology

Liu¹,

Liu²,

Zong³

et al. 2003

Computers & Fluids

182

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Investigation on structural features of Shengli lignite through oxidation under mild conditions

Liu

Wei

Zhu

et al. 2013

Fuel

110

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Smoothed particle hydrodynamics for numerical simulation of underwater explosion

Liu

Lam

et al. 2003

Computational Mechanics

203

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Underwater explosion arising from high explosive detonation consists of a complicated sequence of energetic processes. It is generally very difficult to simulate underwater explosion phenomena by using traditional grid-based numerical methods due to the inherent features such as large deformations, large inhomogeneities, moving interface and so on. In this paper, a meshless, Lagrangian particle method, smoothed particle hydrodynamics (SPH) is applied to simulate underwater explosion problems. As a free Lagrangian method, SPH can track the moving interface between the gas produced by the explosion and the surrounding water effectively. The meshless nature of SPH overcomes the difficulty resulted from large deformations. Some modifications are made in the SPH code to suit the needs of underwater explosion simulation in evolving the smoothing length, treating solid boundary and material interface. The work is mainly focused on the detonation of the high explosive, the interaction of the explosive gas with the surrounding water, and the propagation of the underwater shock. Comparisons of the numerical results for three examples with those from other sources are quite good. Major features of underwater explosion such as the magnitude and location of the underwater explosion shock can be well captured.

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Insight into the structural features of Zhaotong lignite using multiple techniques

Wei

Yan

et al. 2015

Fuel

190

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SAPO-34 Membranes for N2/CH4 separation: Preparation, characterization, separation performance and economic evaluation

Zong

Zhou

et al. 2015

Journal of Membrane Science

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Separation and structural characterization of the value-added chemicals from mild degradation of lignites: A review

et al. 2016

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Zhi‐Min Zong

Characterization of chemical and solid state structures of acylated chitosans

Kr/Xe Separation over a Chabazite Zeolite Membrane

Computer simulation of high explosive explosion using smoothed particle hydrodynamics methodology

Investigation on structural features of Shengli lignite through oxidation under mild conditions

Smoothed particle hydrodynamics for numerical simulation of underwater explosion

Insight into the structural features of Zhaotong lignite using multiple techniques

SAPO-34 Membranes for N2/CH4 separation: Preparation, characterization, separation performance and economic evaluation

Separation and structural characterization of the value-added chemicals from mild degradation of lignites: A review

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