Performance characteristics of a prototype coconut dehusking machine / Alexander M. Pascua ; Engelbert K. Peralta, chair, advisory committee.

Date

10-2011

Abstract

A prototype coconut dehusking machine was developed and evaluated in terms of dehusking performance and cost effectiveness. A pre-development survey was conducted to determine design parameters of the machine. Results revealed that about 63% of coconut farm owner respondents were interested in having a machine with an output dehusking capacity of 4 to 5 coconut per minute. It was also noted that most respondents (85%) prefer gasoline or diesel fueled engine as power source since their farms are very far from the source of electricity. Majority (80%) of the respondents prefer a unit with cost ranging from PhP 50000.00 to PhP 80000.00. The respondents also wanted a unit that can be easily transported from one place to another even in sloping areas. The machine consists of different component assembly parts such as speed reduction, transmission, coconut base, dehusking blade, frame, and control. It is powered by a 7.5 hp gasoline engine. Ih tas an average output capacity of 240 coconut per hour with an investment cost of PhP 73514.80. Its salient features which give it an edge over other existing machines in attaining effective dehusking are the following: 1) a dehusking blade with cutting tooth and blade side face angle, 2) movable coconut base assembly, 3) ability to remove husks starting at the basal protion, which is the softest part pf the cococnut, and 4) operable by a single person. The cutting tooth initiates the initial penetration of the blades while the side face angle can assist better piercing or shearing action on the coconut husks. The coconut base can be moved upward or downward and can accommodate different coconut sizes. The effects of different factors which include the machine's crankshaft speed, coconut size, and blade side angle on the response variables were investigated. RSReg and Response Surface Methodology (RSM) were used to determine the effect of the treatment factors and optimum performance of the machine; respectively. Fifteen (15) experimental runs using Box and Behnken design with three level-incomplete factorial designs were conducted. The different dependent variables studied consisted of force and power requirement, dehusking time, dehusking capacity, percent coconut shell damage, and dehusking efficiency. Results revealed that variation on the levels of treatment factors significantly affect the response variables mostly fit the linear, cross product and quadratic regression models. The superimposed contour plots of different factors generated an optimum region and yielded a dehusking performance with force requirement of 105.59 N, power consumption of 6.41 kW, dehusking time of 3.34 minutes, dehusking rate of 3.42 nuts per minute and dehusking efficiency of 85.23 %. Moreover, results of the verification tests indicated that the actual values of responses were relatively close to the predicted values. Further, simple financial analysis revealed that the machine was financially feasible for small scale coconut farm processing and operation.

Document Type

Dissertation

Degree

Doctor of Philosophy in Agricultural Engineering

College

Graduate School (GS)

Adviser/Committee Chair

Engelbert K. Peralta

Co-adviser

Jessie C. Elauria

Committee Member

Mario V. Perilla, Delfin C. Suministrado, Arnold R. Elepaño

Language

English

LC Subject

Coconut, Agricultural engineering Institute of Agricultural Engineering

Location

UPLB Main Library Special Collections Section (USCS)

Call Number

LG 996 2011 A2 P37

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