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Some engineering properties of pineapple fruit

Pineapple is a tropical fruit that is highly relished for its unique aroma and sweet taste. In contrast to other tropical fruits, pineapples typically feature medium-sized fruits with yellow flesh. Based on the physical properties of pineapple fruit variety MD2 such as dimensions, geometric mean dia...

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Main Authors: Shamsudin, Rosnah, Che Man, Hasfalina, Ariffin, Siti Hajar, Azmi, Nazatul Shima
Format: Conference or Workshop Item
Language:English
Published: ISRES Publishing 2023
Online Access:http://psasir.upm.edu.my/id/eprint/108545/1/2023_ICRETS026_proceeding.pdf
http://psasir.upm.edu.my/id/eprint/108545/
http://www.epstem.net/en/pub/issue/79793/1368267
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spelling my.upm.eprints.1085452024-05-08T03:14:14Z http://psasir.upm.edu.my/id/eprint/108545/ Some engineering properties of pineapple fruit Shamsudin, Rosnah Che Man, Hasfalina Ariffin, Siti Hajar Azmi, Nazatul Shima Pineapple is a tropical fruit that is highly relished for its unique aroma and sweet taste. In contrast to other tropical fruits, pineapples typically feature medium-sized fruits with yellow flesh. Based on the physical properties of pineapple fruit variety MD2 such as dimensions, geometric mean diameter (Dg), arithmetic mean diameter arithmetic mean diameter (Da), surface area, volume, sphericity, aspect ratio, and projected area and the best-fit mass models have been determined. From the result obtained, the physical properties such as length, thickness, width, Dg, Da and circumference were found to be 217.8mm, 132.7mm, 132.9mm, 156.5mm, 161.2mm, 394.3mm respectively. Meanwhile for the aspect ratio, mass, volume surface area, sphericity and projected area perpendicular to dimension namely PAL, PAT, AND PAW were found to be 0.61, 1730.4g, 1420 cm3, 77107.4 mm2, 0.72, 22746.0 mm2, 13942.9 mm2, and 16866.3 mm2 respectively. For all physical properties except volume, the best fit mass model to predict mass of pineapple fruits was the quadratic model. Additionally, the findings demonstrated that, in comparison to other attributes, the mass model based on actual volume was more appropriate, with the highest determination coefficient (R2) for Quadratic and S-curve model. For developing and optimizing machinery for handling, maintenance, distribution, and storage, the mass model of pineapple fruits according to the actual volume in the outcomes is relatively important. ISRES Publishing 2023 Conference or Workshop Item PeerReviewed text en http://psasir.upm.edu.my/id/eprint/108545/1/2023_ICRETS026_proceeding.pdf Shamsudin, Rosnah and Che Man, Hasfalina and Ariffin, Siti Hajar and Azmi, Nazatul Shima (2023) Some engineering properties of pineapple fruit. In: ICRETS 2023: International Conference on Research in Engineering, Technology and Science, 6-9 July 2023, Budapest, Hungary. (pp. 269-281). http://www.epstem.net/en/pub/issue/79793/1368267 10.55549/epstem.1368267
institution Universiti Putra Malaysia
building UPM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Putra Malaysia
content_source UPM Institutional Repository
url_provider http://psasir.upm.edu.my/
language English
description Pineapple is a tropical fruit that is highly relished for its unique aroma and sweet taste. In contrast to other tropical fruits, pineapples typically feature medium-sized fruits with yellow flesh. Based on the physical properties of pineapple fruit variety MD2 such as dimensions, geometric mean diameter (Dg), arithmetic mean diameter arithmetic mean diameter (Da), surface area, volume, sphericity, aspect ratio, and projected area and the best-fit mass models have been determined. From the result obtained, the physical properties such as length, thickness, width, Dg, Da and circumference were found to be 217.8mm, 132.7mm, 132.9mm, 156.5mm, 161.2mm, 394.3mm respectively. Meanwhile for the aspect ratio, mass, volume surface area, sphericity and projected area perpendicular to dimension namely PAL, PAT, AND PAW were found to be 0.61, 1730.4g, 1420 cm3, 77107.4 mm2, 0.72, 22746.0 mm2, 13942.9 mm2, and 16866.3 mm2 respectively. For all physical properties except volume, the best fit mass model to predict mass of pineapple fruits was the quadratic model. Additionally, the findings demonstrated that, in comparison to other attributes, the mass model based on actual volume was more appropriate, with the highest determination coefficient (R2) for Quadratic and S-curve model. For developing and optimizing machinery for handling, maintenance, distribution, and storage, the mass model of pineapple fruits according to the actual volume in the outcomes is relatively important.
format Conference or Workshop Item
author Shamsudin, Rosnah
Che Man, Hasfalina
Ariffin, Siti Hajar
Azmi, Nazatul Shima
spellingShingle Shamsudin, Rosnah
Che Man, Hasfalina
Ariffin, Siti Hajar
Azmi, Nazatul Shima
Some engineering properties of pineapple fruit
author_facet Shamsudin, Rosnah
Che Man, Hasfalina
Ariffin, Siti Hajar
Azmi, Nazatul Shima
author_sort Shamsudin, Rosnah
title Some engineering properties of pineapple fruit
title_short Some engineering properties of pineapple fruit
title_full Some engineering properties of pineapple fruit
title_fullStr Some engineering properties of pineapple fruit
title_full_unstemmed Some engineering properties of pineapple fruit
title_sort some engineering properties of pineapple fruit
publisher ISRES Publishing
publishDate 2023
url http://psasir.upm.edu.my/id/eprint/108545/1/2023_ICRETS026_proceeding.pdf
http://psasir.upm.edu.my/id/eprint/108545/
http://www.epstem.net/en/pub/issue/79793/1368267
_version_ 1800093816843141120
score 13.160551

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