skip to main content

Pemrograman Ladder PLC Pada Otomasi Proses Produksi Bioetanol Berbasis Jala Petri Sinyal Terinterpretasi (JPST)

*Endra Joelianto orcid scopus  -  Kelompok Keahlian Instrumentasi dan Kontrol, Fakultas Teknologi Industri, Institut Teknologi Bandung, Indonesia
Alex Dananjaya  -  Program Studi Teknik Fisika, Institut Teknologi Bandung, Indonesia
Open Access Copyright (c) 2020 TEKNIK

Citation Format:
Abstract
Jala Petri sinyal terinterpretasi (JPST) dikenal sebagai salah satu metode formal yang digunakan untuk merancang dan mengevaluasi perilaku sistem otomasi yang dimodelkan sebagai sistem kejadian diskrit. Hubungan antara algoritma kontrol biner yang dibangun dengan proses sekuensial yang ditinjau dapat diperlihatkan dengan menggunakan JPST. Aplikasi diagram JPST pada perangkat keras umum seperti PLC memerlukan suatu cara untuk mengkodekan representasi algoritma kontrol dalam bentuk grafik menjadi program logika ladder. Makalah ini memperlihatkan proses pengubahan algoritma sistem otomasi proses produksi bioetanol yang dibangun dengan menggunakan metode JPST menjadi program logika ladder. Kinerja program ladder yang dihasilkan untuk sistem otomasi proses produksi bioetanol menggunakan PLC mengikuti kinerja dari diagram JPST yang dibuat.
Fulltext View|Download
Keywords: ala petri; jala petri sinyal terinterpretasi; produksi bioetanol; program ladder; kontrol biner; otomasi

Article Metrics:

  1. Ayten, K. K., & Kurnaz, O. (2019). Real-time Implementation of Image Based PLC Control for a Robotic Platform. Balkan Journal of Electrical and Computer Engineering, 7(1), 64-71
  2. Baladhandabany, D., Gowtham, S., Kowsikkumar, T., Gomathi, P., & Vijayasalini, P. (2015). PLC based automatic liquid filling system. International Journal of Computer Science and Mobile Computing, 4(3), 684-692
  3. Bargal, N., Deshpande, A., Kulkarni, R., & Moghe, R. (2016). PLC based object sorting automation. Int Res J Eng Technol (IRJET), 3(07)
  4. Baygin, M., Yetis, H., Karakose, M., & Akin, E. (2016, September). An effect analysis of industry 4.0 to higher education. 2016 15th international conference on information technology based higher education and training (ITHET), 1-4. IEEE
  5. Darvas, D., Majzik, I., & Viñuela, E. B. (2016a, June). Formal verification of safety PLC based control software. International Conference on Integrated Formal Methods. Springer, Cham, 508-522
  6. Darvas, D., Viñuela, E. B., & Majzik, I. (2016b, July). PLC code generation based on a formal specification language. 2016 IEEE 14th International Conference on Industrial Informatics (INDIN). IEEE, 389-396
  7. Frey, G. (2000a). Transparency Analysis of Petri Net based Logic Controllers-A Measure for Software Quality in Automation. Proc. American Control Conference, Chicago, June 2000
  8. Frey, G. (2000b). Automatic Implementation of Petri Net based Control Algorithms on PLC. Proc. American Control Conference, Chicago, Juni 2000. 2
  9. Frey, G., & Litz, L. (2000). Transparency analysis of Petri net based logic controllers-a measure for software quality in automation. Proc. the 2000 American Control Conference, 5, IEEE, 3182-3186
  10. Frey, G., & Minas, M. (2001). Internet-based development of logic controllers using Signal Interpreted Petri Nets and IEC 61131. Proc. the 5th World Multi-Conference on Systemics, Cybernetics and Informatics (SCI’01), 297-302
  11. ISA, A. (2002). ISA S88 Batch Standard A General Overview. ISA Philadelphia Section 20 Feb
  12. Joelianto, E. & and Loeis, K. (2006). Application in Control of Boiler using Signal Interpreted Petri Nets (SIPN). Proc. 6th Asian Control Conference. Bali, Indonesia, July 2006, 858-863
  13. Joelianto, E., & Dananjaya, A. (2008). Perancangan dan Analisis Sistem Otomasi pada Proses Produksi Bioetanol Menggunakan Jala Petri Sinyal Terintepretasi (JPST). Gematek, 10(1), 45-60
  14. Julius, R., Schürenberg, M., Schumacher, F., & Fay, A. (2017). Transformation of GRAFCET to PLC code including hierarchical structures. Control Engineering Practice, 64, 173-194
  15. Kumar, E. R., Jungral, S., Singh, T., Gupta, A., & Khan, T. H. (2016a). Effluent Treatment Plant Using PLC. International Journal of Engineering Research and General Sciences, 4(2), 58-65
  16. Kumar, A., Abdelhadi, A., & Clancy, C. (2016b, April). An online delay efficient packet scheduler for M2M traffic in industrial automation. In 2016 Annual IEEE Systems Conference (SysCon) (pp. 1-6). IEEE
  17. Langmann, R., & Rojas-Peña, L. F. (2016, February). A PLC as an Industry 4.0 component. 2016 13th International Conference on Remote Engineering and Virtual Instrumentation (REV), IEEE , 10-15
  18. Leonardo, A., Joelianto, E., & Hadisupadmo, S. (2015). Perancangan Safety Shutdown System pada Kepala Sumur Minyak dengan Menggunakan Analisis Pemodelan Petrinet. Jurnal Otomasi, Kontrol, dan Instrumentasi, 7(1), 9-17
  19. Papcun, P., Kajáti, E., & Koziorek, J. (2018, August). Human Machine Interface in Concept of Industry 4.0. In 2018 World Symposium on Digital Intelligence for Systems and Machines (DISA). IEEE, 289-296
  20. Patil, P., Kakade, S., Kantale, S., & Shinde, D. (2016). Automation in hydroponic system using PLC. International Journal of Scientific and Technical Advancements, 2(2), 69-71
  21. Petrusich, J., & Schwarz, H.V. (2017). Industry 4.0 for Process Safety: Handbook, San Bernardino, CA: CreateSpace Independent Publishing Platform
  22. Shuler, M. L., Kargi, F., & DeLisa, M. (2017). Bioprocess engineering: basic concepts, vol. 576. Englewood Cliffs, NJ: Prentice Hall
  23. Vieira, A. D., Santos, E. A. P., de Queiroz, M. H., Leal, A. B., de Paula Neto, A. D., & Cury, J. E. (2016). A method for PLC implementation of supervisory control of discrete event systems. IEEE Transactions on Control Systems Technology, 25(1), 175-191
  24. Wang, J. (1998). Timed Petri Nets: Theory and Application. Boston: Kluwer Academic Publishers
  25. Wanyama, T. (2018) A Practical Approach to Industrial Systems Integration: Industry 4.0 and Industrial Internet of Things, Ed. 2
  26. Wittenberg, C. (2016). Human-CPS Interaction-requirements and human-machine interaction methods for the Industry 4.0. IFAC-PapersOnLine, 49(19), 420-425
  27. Zhou, K., Liu, T., & Zhou, L. (2015, August). Industry 4.0: Towards future industrial opportunities and challenges. In 2015 12th International conference on fuzzy systems and knowledge discovery (FSKD). IEEE, 2147-2152
  28. Zhu, H., & Qiu, X. (2017). The Application of PLC in Sewage Treatment. Journal of Water Resource and Protection, 9(07), 841

Last update:

No citation recorded.

Last update: 2024-11-05 02:03:27

No citation recorded.