Microwave synthesis of Nano/Micronized zeolites from natural source: Evaluation of energy storage capacities
Tantawy, H., ismail, N. (2020). Microwave synthesis of Nano/Micronized zeolites from natural source: Evaluation of energy storage capacities. EKB Journal Management System, 63(10), 3669-3683. doi: 10.21608/ejchem.2020.21421.2290
Hanan A Tantawy; nahla ismail. "Microwave synthesis of Nano/Micronized zeolites from natural source: Evaluation of energy storage capacities". EKB Journal Management System, 63, 10, 2020, 3669-3683. doi: 10.21608/ejchem.2020.21421.2290
Tantawy, H., ismail, N. (2020). 'Microwave synthesis of Nano/Micronized zeolites from natural source: Evaluation of energy storage capacities', EKB Journal Management System, 63(10), pp. 3669-3683. doi: 10.21608/ejchem.2020.21421.2290
Tantawy, H., ismail, N. Microwave synthesis of Nano/Micronized zeolites from natural source: Evaluation of energy storage capacities. EKB Journal Management System, 2020; 63(10): 3669-3683. doi: 10.21608/ejchem.2020.21421.2290

Microwave synthesis of Nano/Micronized zeolites from natural source: Evaluation of energy storage capacities

Egyptian Journal of Chemistry
Article 8, Volume 63, Issue 10, October 2020, Page 3669-3683  XML PDF (1.44 MB)
Document Type: Original Article
DOI: 10.21608/ejchem.2020.21421.2290
View on SCiNiTO View on SCiNiTO
Authors
Hanan A Tantawyorcid 1; nahla ismail email 2
1National research center, Dokki, Giza
2national research center
Abstract
This is a comparative study to investigate the hydrogen Storage ability of three zeolites; Zeolite-A, Faujasite-NaX and Analcime, prepared via microwave technique from refined kaolin. The paper addresses the effects of crystallite size, Si/Al, pore diameter and specific surface area on the hydrogen uptake capacity. X-Ray Fluorescence is used for rock chemical analysis, X-ray Diffraction for zeolite mineralogy, Scanning Electron Microscopy and Transmission Electron Microscopy for microstructure. Whereas, Electron Dispersion Analysis monitors chemical microanalysis. Storing hydrogen is processed via Pressure, Composition and Temperature, using AMC PCI-HP 1200 equipment, meanwhile, BEL Sorb Max device (BEL JAPAN. INC) is used for specific surface area.
Result indicates that, decreasing crystallite size has positive effects on both total pore volume and specific surface area, with a net result of higher hydrogen gravimetric capacities for all structures. At 77K and 22 bar, nano- Faujasite presents the highest hydrogen uptake of 2.25 wt%, whereas, nano Analcime hosts the least amounts of hydrogen of 0.74 wt%. Despite of the effect of zeolite particle size reduction on the surface area enlargement and high adsorption capacity, the limiting factor in hydrogen uptake into zeolite porous vicinities is the diameter of the pores and the blocking effects of their channels.
Keywords
Hydrogen storage; Microwave synthesis; Nano-zeolites; natural resource
Statistics
Article View: 700
PDF Download: 468