Transport properties of alternative fuel microemulsions based on sugar surfactant |
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| Authors: | Ibrahim Kayali Khawla Qamhieh Monzer Fanun Salam Wadaah Jyothi Chembolli Kunhatta Khalid Kanan |
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| Affiliation: | 1. College of Science &2. Technology, Al-Quds University, Jerusalem, Palestinei_kayali@yahoo.com;4. Technology, Al-Quds University, Jerusalem, Palestine;5. Physical Chemistry Division, Chemistry Department, Lund University, Lund, Sweden |
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| Abstract: | Electrical conductivity of fuel microemulsion composed of diesel, pentanol, water, and sucrose laurate as surfactant was investigated over a wide range of water contents varying from 0 to 90?wt% and temperature varying from 10°C to 50°C. Conductivity measurements were performed on samples, the composition of which lie along the one-phase channel using a conductivity meter. Activation energy of conduction flow was evaluated. The hydrodynamic radius as a function of temperature in the aqueous phase-rich region (90?wt%) was measured using the dynamic light scattering (DLS) method. The microstructure of the microemulsion was further investigated by NMR diffusometry by which the self-diffusion coefficients for water were determined at 25°C. Electrical conductivity increases with water content up to 40?wt% and the percolation threshold was observed, and then stabilizes between 40 and 80?wt% then decreases. Percolation threshold temperature at constant composition was monitored as 36°C for water contents below 80?wt% and as 34°C for water contents above that. As predicted by the conductivity measurements, the determined self-diffusion coefficients of water confirmed the structural transition from discrete W/O droplets to bi-continuous phase and finally to O/W droplet microemulsion. |
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| Keywords: | Fuel microemulsion microstructure percolation temperature sugar surfactant |
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