Your search keyword '"inert medium"' showing total 6 results

1. Porous Structure of Acetylene Black after Heat Treatment.

Author

Dudoladov, A. O., Grigorenko, A. V., Kumar, V., and Vlaskin, M. S.

Subjects

*CARBON-black, *HEAT treatment, *ADSORPTION isotherms, *SCANNING electron microscopy, *THERMOGRAVIMETRY, *LEAD, *SURFACE area

Abstract

The porous structure of acetylene black samples obtained by decomposition of acetylene at various pressures in a constant-volume tube reactor and subsequent heat treatment in an inert medium at temperatures of 200, 400, 600, 800, 1000, 1200, and 1400°C has been studied. Nitrogen adsorption isotherms at 77 K were obtained by the low-temperature adsorption method, and the textural characteristics of carbon black were calculated from them. It was found that at a pressure increased from 2.5 to 5 bar during the decomposition of pure acetylene, the surface area of acetylene black did not change and amounted to 88 and 83 m2/g (according to BET), respectively. As a result of heat treatment in the inert medium, the specific surface area obtained at 2.5 bar decreased relative to that of the starting carbon black not subjected to heat treatment. The average pore radius determined by the Barrett–Joyner–Halenda (BJH) method did not change at different temperatures and pressures and amounted to 1.62 nm. A scanning electron microscopy study shows that the average particle size decreased from 53 to 40 nm at increased initial pressure of acetylene. Based on the results, it can be concluded that subsequent heat treatment does not lead to an appreciable change in the particle shape and size, nor in the overall structure of the carbon black surface. A thermogravimetric analysis (TGA) of the original carbon black sample in an inert medium was performed. It shows that the mass of carbon black increased by 4% when the sample was heated to 400°C, did not change on heating from 400 to 1150°C, and decreased by 1% on heating from 1150 to 1400°C. [ABSTRACT FROM AUTHOR]

Published

2022

2. Experimental Study on Suppression of Coal Dust Combustion by Inert Medium

Author

GU Gongtian, WANG Fei, WANG Cheng, HAN Jinxin

Subjects

coal dust, heating and combustion, inert medium, inhibition performance, different particle sizes, Mining engineering. Metallurgy, TN1-997

Abstract

The study aims to analyze the effect of inert medium on coal combustion and effectively prevent spontaneous combustion of coal dust. Thermal analyzer and gas chromatograph were used to measure changes of quality and concentration of CO and CO2. The inert mediums are H2O, NH4H2PO4 and CaCO3. Tests of single inert medium, NH4H2PO4 and CaCO3 with different proportions and particle sizes on the inhibition of combustion were conducted. The results show that the inhibition effect of NH4H2PO4 and CaCO3 mixture is better than that of H2O and CaCO3 but weaker than NH4H2PO4 alone. The effect of inert medium in the process of instantaneous explosion and slow oxidation is not identical and there is no synergistic suppression effect on coal dust combustion. With the decrease of the size of NH4H2PO4 , the inhibition performance is enhanced.

Published

2020

3. Influence of particle size and density of pelleted samples of forest fuel on thermokinetic characteristics of pyrolysis and oxidation

Author

S.S. Kropotova, Anastasia G. Islamova, Sergei Yu Lyrsсhikov, and Geniy V. Kuznetsov

Subjects

thermogravimetric analysis, Thermogravimetric analysis, Range (particle radiation), Materials science, oxidizing medium, Renewable Energy, Sustainability and the Environment, Pre-exponential factor, Analytical chemistry, inert medium, Activation energy, Atmospheric temperature range, activation energy, TJ1-1570, Particle, Mechanical engineering and machinery, Particle size, pre-exponential factor, Pyrolysis, forest fuel

Abstract

This paper presents the results of experimental studies of thermokinetic characteristics of pyrolysis and oxidation of pine needles, taking into account the influence of particle size and density of forest fuel in pelleted samples. The sample densities range within 206-955 kgm-3 (i.e. from typical sample densities to average ones for pressed pelleted samples), and the component particle sizes amount to 60-140 μm. The range of studied temperatures is 20-1000 oС. The particle size and density of the material are found to be important parameters that significantly affect the kinetics of pyrolysis. According to the results of measurements, the activation energy of needles pyrolysis is within the range of 22.8-113.8 kJmol-1, and that of oxidation corresponds to 134.7-211 kJmol-1. Three intervals with significantly different values of activation energy and pre-exponential factor are distinguished in the studied temperature range. Approximation expressions are formulated for the activation energies of pyrolysis and oxidation as functions of forest fuel particle sizes, sample density and temperature.

Published

2021

4. On the Origin of Multiple Melting Endotherms of Poly(Ethylene) Single Crystals

Author

Alfonso, G. C., Ceschina, M., Chiappa, V., Pedemonte, E., and Dosière, Marcel, editor

Published

1993

5. Automated High-Temperature Three-Coordinate Dilatometer for Anisotropic Composite Materials

Author

Ruban, Valery, Davidenko, Leonid, Mikov, Viktor, Marasin, Boris, Fridlyander, I. N., editor, and Kostikov, V. I., editor

Published

1991

6. The Relationship Between the Living Films and Concentrations of the Hydrosphere and Those of Land

Author

Vernadsky, Vladimir I. and Vernadsky, Vladimir I.

Published

1998