FARIAS, H. H.; http://lattes.cnpq.br/5049145685552032; FARIAS, Higor Henrique.
Résumé:
The intensive use of fossil fuel reserves and the environmental problems caused by this
use have triggered a search for energy alternatives that are less aggressive to the
environment. An excellent alternative is the constant research in the development of
energy sources and the production of goods that do not depend on fossil raw materials,
being the obtainment of biodegradable lubricants from renewable raw materials an
example of these studies. A biolubricant is a biodegradable lubricant that has the proven
ability to be broken down in a short time by natural biological processes into
carbonaceous earth, water or carbon dioxide. Jatropha curcas is a plant with high oil
content, resistant and perennial, becoming promising for the production of
biocompounds. This work consisted of the synthesis and characterization of a
biodegradable lubricant from Jatropha oil through the ethyl transesterification of the oil,
followed by the ethyl epoxidation of the esters. The materials involved in the process
were characterized through their chemical and physical-chemical properties. Alkaline
transesterification, which transformed the oil into biodiesel, provided a yield of 71.7%.
The ethyl epoxidation, a reaction that transformed biodiesel into a biolubricant,
provided a yield of 93.4%. Most of the properties analyzed proved to be adequate to the
parameters established by the National Agency of Petroleum, Natural Gas and Biofuels.
The production of biodegradable lubricants could significantly help to reduce the
environmental impact of the use of fossil materials for the production of lubricants, as
well as increase environmental awareness in the development of new technologies.