Citation: Ii. Kantorovich et E. Barziv, ROLE OF THE PORE STRUCTURE IN THE FRAGMENTATION OF HIGHLY POROUS CHARPARTICLES, Combustion and flame, 113(4), 1998, pp. 532-541
Citation: Xf. Zhang et E. Barziv, A NOVEL-APPROACH TO DETERMINE THERMAL-CONDUCTIVITY OF MICRON-SIZED FUEL-PARTICLES, Combustion science and technology, 130(1-6), 1997, pp. 79-95
Citation: Ii. Kantorovich et E. Barziv, THE EFFECT OF MICROSTRUCTURAL TRANSFORMATION ON THE EVOLUTION OF THERMAL-CONDUCTIVITY OF HIGHLY POROUS CHARS DURING OXIDATION, Combustion and flame, 109(4), 1997, pp. 521-535
Citation: Xf. Zhang et E. Barziv, DIRECT DETERMINATION OF 3D FORCES APPLIED ON A PARTICLE SUSPENDED IN AN ELECTRODYNAMIC CHAMBER, Measurement science & technology, 7(12), 1996, pp. 1713-1720
Citation: Xf. Zhang et E. Barziv, A 3D POSITION CONTROLLER FOR A CHARGED-PARTICLE SUSPENDED IN A MODIFIED ELECTRODYNAMIC CHAMBER, Review of scientific instruments, 67(10), 1996, pp. 3483-3490
Citation: Ii. Kantorovich et E. Barziv, MICROSTRUCTURAL EVOLUTION OF CHAR UNDER OXIDATION-INDUCED BY UNEVEN HEATING, Combustion and flame, 105(1-2), 1996, pp. 80-91
Citation: G. Gal et E. Barziv, THE KINETICS OF THE B2H6 O (3P) SYSTEM AT ROOM-TEMPERATURE/, International journal of chemical kinetics, 27(3), 1995, pp. 235-259
Citation: Y. Weiss et E. Barziv, OBSERVATION OF NONUNIFORM SHRINKAGE AND ACTIVATION OF HIGHLY POROUS CHARS DURING COMBUSTION IN AN IMPROVED ELECTRODYNAMIC CHAMBER, Combustion and flame, 101(4), 1995, pp. 452-460
Citation: Ii. Kantorovich et E. Barziv, PROCESSES IN HIGHLY POROUS CHARS UNDER KINETICALLY CONTROLLED CONDITIONS .1. EVOLUTION OF THE POROUS STRUCTURE, Combustion and flame, 97(1), 1994, pp. 61-78
Citation: Ii. Kantorovich et E. Barziv, PROCESSES IN HIGHLY POROUS CHARS UNDER KINETICALLY CONTROLLED CONDITIONS .2. PORE REACTIVITY, Combustion and flame, 97(1), 1994, pp. 79-87
Citation: D. Baum et al., A ROBUST PARTICLE POSITION CONTROLLER FOR AN ELECTRODYNAMIC CHAMBER, Review of scientific instruments, 64(12), 1993, pp. 3627-3633
Citation: Y. Weiss et E. Barziv, FURTHER DEVELOPMENT OF THE ELECTRODYNAMIC CHAMBER FOR STUDYING SINGLE-PARTICLE OXIDATION AND NONUNIFORM SHRINKAGE OF CHAR PARTICLES, Combustion and flame, 95(4), 1993, pp. 362-373
Citation: Y. Weiss et al., MONTE-CARLO SIMULATIONS OF HEAT AND MASS-TRANSFER WITH CHEMICAL-REACTIONS OF HETEROGENEOUS REACTING SYSTEMS, Chemical Engineering Science, 48(11), 1993, pp. 2083-2092