ABSTRACT
This study involves development and multi objective
analysis of an integrated milling and sieving machine for Bambara flour
production. This will improve hygiene and reduce excessive drudgery and food
loss in this sector thereby aiding mass production of quality bambara flour at
low cost. Its major components include: electric motor, flour and chaff
discharging chutes, turbo-pneumatic sieve and hammer mill. Performance of this
machine was empirically evaluated and quantified using response surface design
and models at two levels of factors while desirability optimization and benefit
cost methodologies constitute the optimization and investment analysis
techniques applied in this investigation. Performance analysis results revealed
Bambara grains’ moisture content, number and speed of cross beaters and paddles
as these machine process/operational parameters (factors) with significant
influence on its performance while throughput and extraction efficiency
constitutes its functional performance indicators (responses). The cross beater
and grains’ moisture content affect the particle size of the milled grain
directly while sieving (extraction) of the grain food/starch granules (flour)
from its fiber (chaff) depends on this particle size and paddle parameters. In
addition, the multi-response performance simulation of this machine predicted 12.05%,
6, 4, 1610rpm and 1038rpm as the grain moisture content, number of cross
beaters and paddles, cross beater and paddle speeds require for its optimal
operation with over 98% accuracy. The machine performs with throughput and
extraction efficiency of 117.8kg/h and 98.45% respectively at these optimal
factor settings. Experimental evaluation revealed 41.15kg/h and 84.18% as the
average throughput and extraction efficiency of semi-mechanized Bambara flour
processing system. Thus, the novel Bambara nut milling-sieving machine for
Bambara flour production reduced the food loss to chaff in this sector to 1.55%
against 15.82% associated with the widely used semi-mechanized system. It also
promotes hygiene in this sector because it eliminated human contact with the
milled grain during sieving. The cost-benefit analysis of this machine showed
that it is viable economically because of its positive capital recovery
potentials. The machine’s payback period of 1.5years is far less than its
useful life of 10years, while its 46.89% accounting rate of return outweighed
Nigerian banks maximum fixed deposits return of 17% and prime lending rate of
29%. Therefore, general adoption of the integrated milling and sieving machine
developed in this study is recommended for Bambara flour processing.
IKECHUKWU, F (2022). Development and Parametric Analysis of Bambara Flour Processing Machine Using Response Surface Methodology. Mouau.afribary.org: Retrieved Dec 22, 2024, from https://repository.mouau.edu.ng/work/view/development-and-parametric-analysis-of-bambara-flour-processing-machine-using-response-surface-methodology-7-2
FRANSISCA, IKECHUKWU. "Development and Parametric Analysis of Bambara Flour Processing Machine Using Response Surface Methodology" Mouau.afribary.org. Mouau.afribary.org, 22 Mar. 2022, https://repository.mouau.edu.ng/work/view/development-and-parametric-analysis-of-bambara-flour-processing-machine-using-response-surface-methodology-7-2. Accessed 22 Dec. 2024.
FRANSISCA, IKECHUKWU. "Development and Parametric Analysis of Bambara Flour Processing Machine Using Response Surface Methodology". Mouau.afribary.org, Mouau.afribary.org, 22 Mar. 2022. Web. 22 Dec. 2024. < https://repository.mouau.edu.ng/work/view/development-and-parametric-analysis-of-bambara-flour-processing-machine-using-response-surface-methodology-7-2 >.
FRANSISCA, IKECHUKWU. "Development and Parametric Analysis of Bambara Flour Processing Machine Using Response Surface Methodology" Mouau.afribary.org (2022). Accessed 22 Dec. 2024. https://repository.mouau.edu.ng/work/view/development-and-parametric-analysis-of-bambara-flour-processing-machine-using-response-surface-methodology-7-2