%0 Journal Article
%T Production and Process Optimization of an Emulsifier as a Tradition Food Salt (<i>Nikki</i>) from <i>Musa paradisiaca</i> (Plantain) Waste Peels Enriched with <i>Ficus</i> Waste  Peels Ash and Evaluation of Its Effect on the Emulsification, Stabilisation and Sensory Properties of Yellow Achu-Soup
%A Kere Sinia Mboseh
%A Pride Ndasi Ngwasiri
%A Calister Wingang Makebe
%A Adanmengwi Vivian Akah
%A Ngwabie Martin Ngwa
%A Martin Benoit Ngassoum
%J Open Access Library Journal
%V 11
%N 2
%P 1-25
%@ 2333-9721
%D 2024
%I Open Access Library
%R 10.4236/oalib.1111217
%X Yellow achu-soup, an emulsion of red palm oil and water is a traditional delicacy in the grass field of Cameroon, which faces a problem of its stability due to the quality of the emulsifier used to emulsify and stabilize it. This study was designed for the optimization of the production of an emulsifier (<em>Nikki</em>) from <em>Musa paradisiaca</em> (Plantain) Peels enriched with <em>Ficus</em> Peels as a traditional food salt for the emulsification and stabilisation of yellow achu-soup. A factorial design with three factors (combustion time and temperature and the ash extraction temperature) and a mixture design were used to evaluated the effect of the combustion process and emulsifier mixture ratios on the physico-chemical and functional properties of the emulsifiers and the yellow achu-soup respectively, including the Ash Yield (%), pH, Alkaline Content (%), Non-alkaline content (%) Potash Content (%), Foam Capacity (%), EI<sub>24</sub> and EI<sub>48</sub>, (%), Foam stability (%). The sensory properties of the resulting soup were evaluated for its acceptability using the 9 point hedonic scale. From these studies, the highest alkalinity of 12.91 ¡À 0.01 for the mixture was obtained at a mixture ratio of 85:15 (S239). There enriched salts had significantly higher form capacity and stability of 35.4 compared to the unenriched salts with highest foam stability of 29.77 for plantain and 31.01 for Ficus. Salt mixtures of sample S339 with plantain to Ficus ash ratios of 85:15, 70:30, 55:45, and 35:65 had the highest foaming capacity and stability. Highest EI<sub>24</sub> of 41.5% ¡À 0.10% (S3.66a) and 46.2% ¡À 0.10% (S3.66b) for plantain and <em>Ficus</em> peels ash extract. All samples showed a decrease in emulsification index after 48 hours with enrichment. Burning time and temperature had a significant positive (P &lt; 0.05) effect on the ash yield and alkaline content while the burning time and extraction temperature had a significant effect on the alkaline content. Maximum alkaline content of 79.06% for plantain and 91.58% for <em>Ficus</em> was obtained at 250<span style="text-wrap:nowrap;">&#730;</span>C and 30 mins with maximum extraction temperature of 90<span style="text-wrap:nowrap;">&#730;</span>C. Maximum EI<sub>24</sub> of 35.80% for plantain and 32.47% for Ficus and EI<sub>48</sub> of 35.15% for plantain and 32.13% for Ficus were obtained at 250<span style="text-wrap:nowrap;">&#730;</span>C and 30 mins with a maximum extraction temperature of 30<span style="text-wrap:nowrap;">&#730;</span>C and at 250<span style="text-wrap:nowrap;">&#730;</span>C and 30 mins with a maximum extraction temperature of 30<span style="text-wrap:nowrap;">&#730;</span>C respectively. Out of the thirty panelist involved in the sensory evaluation, 53.3% generally accepted sample S393c and 40% accepted sample S239c. From the results, it was concluded that the addition of Ficus peel ash solution at a percentage of 30% and above to plantain emulsifier enhanced the stability of achu soup even after 48 hours, with acceptable sensory properties.
%K Food Waste
%K <i>Musa paradisiaca</i>
%K <i>Ficus</i>
%K Emulsifier
%K Optimization
%K Yellow Achu-Soup
%K Stability
%U http://www.oalib.com/paper/6815779