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Abstract
The installation of photoelectric sensors as a supporting element for the development of a pneumatic transfer system based on Programmable Logic Controller (PLC) in the Kartini Reactor aims to enhance efficiency and accuracy in operational processes. This study integrates photoelectric sensors to detect capsules in the pneumatic transfer system, which previously required manual intervention. The sensors send signals to the PLC, which controls actuators automatically. The system was optimized through installation, calibration, and testing, involving the measurement of capsule speeds for both empty capsules and those containing 3-gram samples. Results indicate significant operational efficiency improvements, with average transfer speeds of 12.41 m/s for empty capsules and 11.76 m/s for filled ones. This integration significantly contributes to advancing reactor automation systems based on PLC technology.
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References
- BRIN, 2023. 44 Tahun Reaktor Nuklir Kartini Mengabdi, Badan Riset Dan Inovasi Nasional. [Online]. Available: https://www.brin.go.id/news/111586/44-tahun-reaktor-nuklir-kartini-mengabdi. [Accessed 15 July 2024].
- B. A. Karmanto Edi Eko, 2012. Kajian Waktu Pemindahan Sampel Pada Sistem Transfer Pneumatik, Prosiding Seminar, Yogyakarta.
- R. N. Kartini, 3 March 2007. [Online]. Available: https://id.wikipedia.org/wiki/Reaktor_Nuklir_Kartini. [Accessed 3 August 2024].
- B. Syaiful, 2014. Pengembangan PLC Trainer Serbaguna Untuk Simulator, Banten: Jurnal Pengembangan Energi Nuklir.
- [Online]. Available: https://brin.go.id/press-release. [Accessed 2 july 2024].
- K. W and S. R, 2020. Reinstalasi Fasilitas Pneumatic Transfer SystemReaktor Kartini Pasca Renovasi, International Conference On Nuclear Science,Technology,And Application (ICONSTA 2020), Jakarta.
- L. F. Frenly, 2019. Optimalisasi Desain PSP-MAP (Pipa Surface Penyalur Mata Air Panas) Mengunakan Software POD 1.0 (Phyton Optimization Desingn) Sebagai Salah Satu Upaya Mewujudkan Infrastruktur Berkelanjutan Di Kawasan Cisolok, Jurnal Geosaintek, Vol. 5 No. 3, 127-134.
- A. Yueprayuga, A. Puspawan, A. Nuramal, TNH. Susanto. 2025. Desain dan Pembuatan Hand Loader Output Dengan Menggunakan Software Solidworks. Jurnal Rekayasa Mekanika, Vol. 9. No. 1, 25-32.
References
BRIN, 2023. 44 Tahun Reaktor Nuklir Kartini Mengabdi, Badan Riset Dan Inovasi Nasional. [Online]. Available: https://www.brin.go.id/news/111586/44-tahun-reaktor-nuklir-kartini-mengabdi. [Accessed 15 July 2024].
B. A. Karmanto Edi Eko, 2012. Kajian Waktu Pemindahan Sampel Pada Sistem Transfer Pneumatik, Prosiding Seminar, Yogyakarta.
R. N. Kartini, 3 March 2007. [Online]. Available: https://id.wikipedia.org/wiki/Reaktor_Nuklir_Kartini. [Accessed 3 August 2024].
B. Syaiful, 2014. Pengembangan PLC Trainer Serbaguna Untuk Simulator, Banten: Jurnal Pengembangan Energi Nuklir.
[Online]. Available: https://brin.go.id/press-release. [Accessed 2 july 2024].
K. W and S. R, 2020. Reinstalasi Fasilitas Pneumatic Transfer SystemReaktor Kartini Pasca Renovasi, International Conference On Nuclear Science,Technology,And Application (ICONSTA 2020), Jakarta.
L. F. Frenly, 2019. Optimalisasi Desain PSP-MAP (Pipa Surface Penyalur Mata Air Panas) Mengunakan Software POD 1.0 (Phyton Optimization Desingn) Sebagai Salah Satu Upaya Mewujudkan Infrastruktur Berkelanjutan Di Kawasan Cisolok, Jurnal Geosaintek, Vol. 5 No. 3, 127-134.
A. Yueprayuga, A. Puspawan, A. Nuramal, TNH. Susanto. 2025. Desain dan Pembuatan Hand Loader Output Dengan Menggunakan Software Solidworks. Jurnal Rekayasa Mekanika, Vol. 9. No. 1, 25-32.