The Analysis Of Motor Performance For Pitting Dabai Fruit (Canarium Odontophyllum)
Dabai fruit, known for its unique flavour, has gained popularity among food enthusiasts and those interested in Sarawak cuisine. However, the lack of an available dabai fruit pitting machine poses challenges for efficient processing. This study aims to investigate the performance of motors using...
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| Main Author: | |
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| Format: | Final Year Project Report |
| Language: | English English |
| Published: |
Universiti Malaysia Sarawak (UNIMAS)
2023
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| Subjects: | |
| Online Access: | http://ir.unimas.my/id/eprint/43009/1/Muhammad%20Naim%20Suhaili%2824pgs%29.pdf http://ir.unimas.my/id/eprint/43009/2/Muhammad%20Naim%20Suhaili%28Fulltext%29.pdf http://ir.unimas.my/id/eprint/43009/ |
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| Summary: | Dabai fruit, known for its unique flavour, has gained popularity among food
enthusiasts and those interested in Sarawak cuisine. However, the lack of an available
dabai fruit pitting machine poses challenges for efficient processing. This study aims to
investigate the performance of motors using MATLAB to construct an effective pitting
system for dabai fruit. The project objectives involve three key aspects: conducting
requirement design for dabai pitting, analysing motor sizing parameters (such as power,
torque, and speed) using MATLAB, and creating a conceptual framework for the dabai
pitting fruit system. The absence of a dedicated dabai fruit pitting machine hinders the
efficient processing of this delicacy. To address this issue, the study focuses on three
main objectives. Firstly, a survey or questionnaire is undertaken to gather important
criteria and specifications for the dabai fruit pitter machine, offering a comprehensive
understanding of the operating needs and issues faced by the industry. Secondly,
simulation techniques in MATLAB analyse and compare the efficiency of different
motor types to discover the most suitable alternative for the dabai pitting system,
enabling exact analysis and accurate predictions of motor performance. Additionally,
the study involves the design process utilizing SOLIDWORKS software to construct a
conceptual model of the dabai pitting machine, promoting comprehension and assisting
in identifying potential design enhancements or modifications. The conclusions provide
significant insights into the specific needs for an effective dabai pitting machine and
offer a complete analysis of motor performance using MATLAB. The conceptual design
acts as a practical depiction of the proposed system, giving a tangible foundation for
subsequent development and execution, contributing to the progress of the dabai fruit
processing sector by streamlining the pitting process and enabling improved motor
selection to enhance productivity and efficiency |
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