Integrating a Centrifugal Extraction and Pipeline Transportation System to Improve Efficiency in Shrimp Harvesting Management
The integration of a centrifugal extraction and pipeline transportation system to improve efficiency in shrimp harvesting management into closed-pond aquaculture systems represents a significant advancement in aquaculture technology. This study introduces and assesses the efficiency of the shrimp ha...
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MDPI AG
2025-04-01
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| Series: | AgriEngineering |
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| Online Access: | https://www.mdpi.com/2624-7402/7/5/128 |
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| author | Songphon Thoetrattanakiat Kiattisak Sangpradit Grianggai Samseemoung |
| author_facet | Songphon Thoetrattanakiat Kiattisak Sangpradit Grianggai Samseemoung |
| author_sort | Songphon Thoetrattanakiat |
| collection | DOAJ |
| description | The integration of a centrifugal extraction and pipeline transportation system to improve efficiency in shrimp harvesting management into closed-pond aquaculture systems represents a significant advancement in aquaculture technology. This study introduces and assesses the efficiency of the shrimp harvester compared to manual harvesting methods, examining key parameters such as shrimp harvester quality, shrimp harvester loss rates, and shrimp harvester speed. A particularly noteworthy aspect is the innovative transportation of shrimp through a pipeline, which enhances the transformative potential of this technology. Results indicate that the centrifugal shrimp harvester outperforms manual methods, achieving an impressive yield rate of 3338 kg/h with a minimal loss rate of 0.01%; the trend values for harvester capacity ranged from 0.501 to 1.884 tons of shrimp per hour at 240 rpm, 2.391 to 3.081 tons per hour at 270 rpm, and 3.338 to 3.816 tons per hour at 300 rpm. While this technology shows promise for increasing productivity and minimizing shrimp damage, further investigation is needed to evaluate its economic viability, including operational costs and labor expenses. The study highlights the transformative potential of the centrifugal shrimp harvester and emphasizes the need for ongoing research to ensure its practical application in real-world aquaculture settings. Overall, the centrifugal shrimp harvester is poised to revolutionize shrimp harvesting practices, contributing to more sustainable and efficient aquaculture production. |
| format | Article |
| id | doaj-art-0c9e40429c884cd7b2f04a285c2f11be |
| institution | OA Journals |
| issn | 2624-7402 |
| language | English |
| publishDate | 2025-04-01 |
| publisher | MDPI AG |
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| series | AgriEngineering |
| spelling | doaj-art-0c9e40429c884cd7b2f04a285c2f11be2025-08-20T01:56:57ZengMDPI AGAgriEngineering2624-74022025-04-017512810.3390/agriengineering7050128Integrating a Centrifugal Extraction and Pipeline Transportation System to Improve Efficiency in Shrimp Harvesting ManagementSongphon Thoetrattanakiat0Kiattisak Sangpradit1Grianggai Samseemoung2Department of Agricultural Engineering, Faculty of Engineering, Rajamangala University of Technology Thanyaburi, Thanyaburi 12110, Pathumthani, ThailandDepartment of Agricultural Engineering, Faculty of Engineering, Rajamangala University of Technology Thanyaburi, Thanyaburi 12110, Pathumthani, ThailandDepartment of Agricultural Engineering, Faculty of Engineering, Rajamangala University of Technology Thanyaburi, Thanyaburi 12110, Pathumthani, ThailandThe integration of a centrifugal extraction and pipeline transportation system to improve efficiency in shrimp harvesting management into closed-pond aquaculture systems represents a significant advancement in aquaculture technology. This study introduces and assesses the efficiency of the shrimp harvester compared to manual harvesting methods, examining key parameters such as shrimp harvester quality, shrimp harvester loss rates, and shrimp harvester speed. A particularly noteworthy aspect is the innovative transportation of shrimp through a pipeline, which enhances the transformative potential of this technology. Results indicate that the centrifugal shrimp harvester outperforms manual methods, achieving an impressive yield rate of 3338 kg/h with a minimal loss rate of 0.01%; the trend values for harvester capacity ranged from 0.501 to 1.884 tons of shrimp per hour at 240 rpm, 2.391 to 3.081 tons per hour at 270 rpm, and 3.338 to 3.816 tons per hour at 300 rpm. While this technology shows promise for increasing productivity and minimizing shrimp damage, further investigation is needed to evaluate its economic viability, including operational costs and labor expenses. The study highlights the transformative potential of the centrifugal shrimp harvester and emphasizes the need for ongoing research to ensure its practical application in real-world aquaculture settings. Overall, the centrifugal shrimp harvester is poised to revolutionize shrimp harvesting practices, contributing to more sustainable and efficient aquaculture production.https://www.mdpi.com/2624-7402/7/5/128aquaculture technologycentrifugal shrimp harvestershrimp pipeline transfershrimp qualityshrimp harvesting |
| spellingShingle | Songphon Thoetrattanakiat Kiattisak Sangpradit Grianggai Samseemoung Integrating a Centrifugal Extraction and Pipeline Transportation System to Improve Efficiency in Shrimp Harvesting Management AgriEngineering aquaculture technology centrifugal shrimp harvester shrimp pipeline transfer shrimp quality shrimp harvesting |
| title | Integrating a Centrifugal Extraction and Pipeline Transportation System to Improve Efficiency in Shrimp Harvesting Management |
| title_full | Integrating a Centrifugal Extraction and Pipeline Transportation System to Improve Efficiency in Shrimp Harvesting Management |
| title_fullStr | Integrating a Centrifugal Extraction and Pipeline Transportation System to Improve Efficiency in Shrimp Harvesting Management |
| title_full_unstemmed | Integrating a Centrifugal Extraction and Pipeline Transportation System to Improve Efficiency in Shrimp Harvesting Management |
| title_short | Integrating a Centrifugal Extraction and Pipeline Transportation System to Improve Efficiency in Shrimp Harvesting Management |
| title_sort | integrating a centrifugal extraction and pipeline transportation system to improve efficiency in shrimp harvesting management |
| topic | aquaculture technology centrifugal shrimp harvester shrimp pipeline transfer shrimp quality shrimp harvesting |
| url | https://www.mdpi.com/2624-7402/7/5/128 |
| work_keys_str_mv | AT songphonthoetrattanakiat integratingacentrifugalextractionandpipelinetransportationsystemtoimproveefficiencyinshrimpharvestingmanagement AT kiattisaksangpradit integratingacentrifugalextractionandpipelinetransportationsystemtoimproveefficiencyinshrimpharvestingmanagement AT grianggaisamseemoung integratingacentrifugalextractionandpipelinetransportationsystemtoimproveefficiencyinshrimpharvestingmanagement |