Evaluation of bio-acetal as a sustainable alternative jet fuel
Issue Date
2015
Abstract
The European Council’s strict regulation on carbon dioxide (CO2) emission-allowances for all flights taking off and landing on EU countries has encouraged the development of bio-jet fuels from plant oil due to its advantage of carbon neutrality. The common production methods of bio-jet fuel involve the thermo-chemical cracking of plant oil into short carbon chain fragments of around C8 to C10 compounds. This is often conducted at high reaction temperature and pressure. In the present study a milder approach using ozonization and electrolysis has been applied for the cracking of fatty acid methyl esters derived from sunflower oil, and the acceptability of the reaction products in bio-blend jet fuel was evaluated. The major chemical compounds generated were aldehydes, but the thermal stability of these compounds was too poor to be utilized as a bio-jet fuel. Acetal, which can be derived from aldehyde, has a high thermal stability and at the same time its flash point, specific energy and freezing point are comparable to that of Jet A-1 fuel. A 10 % blend of 1,1- dimethoxynonane (acetal derived from nonanal) did not change the important fuel properties of Jet A-1. The high thermal stability of this blend was also confirmed.
Source or Periodical Title
Journal of the National Science Foundation of Sri Lanka
ISSN
1391-4588
Volume
43
Issue
2
Page
165-171
Document Type
Article
Physical Description
tables, graphs
Language
English
Subject
Bio-acetal, Bio-jet fuel, Double bond cracking, Evaluation, Jet fuel property
Recommended Citation
Wijesekara, R.G.S., Alfafara, C.G., & Matsumura, M. (2015). Evaluation of bio-acetal as a sustainable alternative jet fuel. Journal of The National Science Foundation of Sri Lanka, 43 (2), 165-171.
Identifier
DOI: http://dx.doi.org/10.4038/jnsfsr.v43i2.7944
Digital Copy
yes