ManuScript Details
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Paper Id:
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IJARW2462
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Title:
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DEVELOPMENT OF A SOLAR-POWERED MOSQUITO TRAP USING FERMENTED YEAST FOR DISEASE CONTROL
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| Published in: |
International Journal Of All Research Writings |
| Publisher: |
IJARW |
| ISSN: |
2582-1008 |
| Volume / Issue: |
Volume 6 Issue 10 |
| Pages: |
8
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| Published On: |
4/8/2025 10:46:38 PM (MM/dd/yyyy) |
Main Author Details
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Name:
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Khea M. Titong |
| Institute: |
Tongantongan National High School, Student |
Co - Author Details
| Author Name |
Author Institute |
| Christopher, Michael Angelo A |
Tongantongan National High School, Student |
| Gregori, Lovely Diana Rose C |
Tongantongan National High School, Student |
| Francis Curl F.5 |
Tongantongan National High School, Student |
| Navarro, Jubert S. |
Tongantongan National High School, Student |
| Sarita, Jemuel Jay P., Senolay |
Tongantongan National High School, Student |
Abstract
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Research Area:
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Robotics |
| KeyWord: |
Yeast fermentation, Solar-powered Mosquito Trap, Carbon Dioxide |
| Abstract: |
DACK-Off Technology is a solar-powered mosquito trap developed to address the significant public health issue of mosquito-borne diseases by utilizing carbon dioxide produced from yeast fermentation as an attractant. With the Philippines experiencing a 30% increase in dengue cases, effective and sustainable mosquito control measures are urgently needed. This study aimed to develop and evaluate DACK-Off Technology, comparing its mosquito capture rate, cost, and duration of effectiveness to traditional mosquito coils. results demonstrated that DACK-Off Technology captured a total of 110 mosquitoes, outperforming mosquito coils (93 mosquitoes). While the initial cost of the technology (PHP 698.50) is higher than a single mosquito coil, it provides a more sustainable solution as it can produce CO2 continuously for 3 weeks with one set-up. Furthermore, DACK-Off Technology presents an environmentally friendly alternative to chemical insecticides. DACK-Off Technology offers a sustainable, potentially more cost-effective, and effective solution for mosquito control, minimizing health risks and ecological concerns associated with traditional methods. |
Citations
Copy and paste a formatted citation or use one of the links to import into a bibliography manager and reference.
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IEEE
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Khea M. Titong, Christopher, Michael Angelo A, Gregori, Lovely Diana Rose C, Francis Curl F.5, Navarro, Jubert S., Sarita, Jemuel Jay P., Senolay, "DEVELOPMENT OF A SOLAR-POWERED MOSQUITO TRAP USING FERMENTED YEAST FOR DISEASE CONTROL", International Journal Of All Research Writings,
vol. 6, no. 10, pp. 25-32, 2025.
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MLA
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Khea M. Titong, Christopher, Michael Angelo A, Gregori, Lovely Diana Rose C, Francis Curl F.5, Navarro, Jubert S., Sarita, Jemuel Jay P., Senolay "DEVELOPMENT OF A SOLAR-POWERED MOSQUITO TRAP USING FERMENTED YEAST FOR DISEASE CONTROL." International Journal Of All Research Writings,
vol 6, no. 10, 2025, pp. 25-32.
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APA
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Khea M. Titong, Christopher, Michael Angelo A, Gregori, Lovely Diana Rose C, Francis Curl F.5, Navarro, Jubert S., Sarita, Jemuel Jay P., Senolay (2025). DEVELOPMENT OF A SOLAR-POWERED MOSQUITO TRAP USING FERMENTED YEAST FOR DISEASE CONTROL. International Journal Of All Research Writings,
6(10), 25-32.
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DEVELOPMENT OF A SOLAR-POWERED MOSQUITO TRAP USING FERMENTED YEAST FOR DISEASE CONTROL
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