dc.description.abstract |
Essential oils which are the volatile components distilled from the aromatic plant
materials, have gained importance in cosmetic, therapeutic, aromatic, fragrant and spiritual uses.
But the conventional methods of distillation carry the disadvantages mainly concerned with the
quality of final product such as loss of some volatile notes, low extraction efficiency and
degradation of unsaturated ester compounds through thermal or hydrolytic effects. These
processes also require high extraction times and energy consumption. However, in order to
reduce these difficulties microwave energy could be effectively used to mediate extraction of
essential oil in place of steam or water heating in order to introduce its inherent advantages. As
in the case of microwave heating of food materials, the internal heating of the in-situ water
within the plant material by the microwaves leads to the rupture of the glands and oleoferous
receptacles freeing the essential oil which is then evaporated by the in-situ water of the plant
material. The water then evaporated could then be passed through a condenser outside the
microwave cavity where it is condensed.This study envisages evaluation of developed
microwave assisted extraction system towards extraction of nutmeg seed essential oil. The
developed extraction system consists of a microwave cavity, extraction unit, supporting stand
and energy meter. In order to evaluate the developed system towards extraction of nutmeg seed
essential oil, the process parameters like solid: water ratios of 1:5, 1:10 and 1:15, powers of
40,50 and 60 W and soaking times of 2, 3 and 4 h which would influence the essential oil yield,
extraction time and energy consumption were chosen as independent variables. The optimized
conditions of solid: water ratio, power and soaking time for extracting peppermint essential oil in
microwave assisted process was found to be 1:10, 50 W and 4 h respectively. The extraction
time, yield of nutmeg seed oil and power at this optimum process parameter levels were found to
be 1hr & 30min, 2.1 ml/100g and 50W respectively whereas the same were found to be 7h,
2ml/100g respectively for conventional hydro distillation process. It was also revealed that active
component menthol and menthol was found to be higher in MAE peppermint oil extracted
compared to hydro distilled peppermint oil. Therefore, microwave assisted extraction could be
considered as an extraction technique that results in the production of high quality oil in higher
quantity in less time with minimum energy consumption. |
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