Sistem Instrumentasi dan Kontrol pada Aplikasi Ultrasonik Terpadu dengan Proses Oksidasi Lanjut dan Generator Gelembung Nano untuk Pengolahan Air Limbah

Authors

Sutrisno Salomo Hutagalung
BRIN
DOI: https://doi.org/10.55981/brin.2371

Keywords:

Aplikasi ultrasonik, Oksidasi lanjut, Generator gelembung nano, Air limbah

Synopsis

Orasi ilmiah ini membahas tentang sistem yang dirancang dan dikembangkan telah mengubah peradaban dunia selama sejarah pencapaian umat manusia. Sejak awal perkembangan teknologi rekayasa hingga masa kini, kemajuan ilmu pengetahuan dan teknologi telah mendorong kita untuk terus berinovasi, menggali lebih dalam, dan memperoleh pemahaman yang lebih baik tentang cara kita berinteraksi dengan alam semesta dan lingkungan kita. Naskah ini menantang pemahaman kita tentang pengolahan air limbah dengan sistem kontrol. Perjalanan menarik melintasi berbagai era dan disiplin ilmu pengetahuan dan teknologi, dari sistem yang sederhana hingga sistem yang kompleks. Sistem pengolahan air limbah yang menggabungkan teknologi ultrasonik, Proses Oksidasi Lanjut (POL), dan Generator Gelembung Nano (GGN) meletakkan dasar untuk kemajuan baru dalam teknologi pengolahan air. Metode kontemporer telah membuka peluang baru untuk mengontrol biaya sistem yang semakin kompleks dan saling berhubungan. Naskah ini ditulis dengan cermat, membahas konsep penting dan kasus yang menunjukkan potensi besar sistem pengolahan air untuk memecahkan masalah terkini.

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Author Biography

Sutrisno Salomo Hutagalung, BRIN

Sutrisno Salomo Hutagalung dilahirkan di Cimahi, Jawa Barat pada tanggal 08 Oktober 1960 adalah anak ketiga dari tujuh bersaudara dari Bapak Justin Hutagalung (alm) dan Ibu Rouli br. Tobing (alm). Menikah dengan Lili Rishandiari (alm) dan dikaruniai tiga orang anak Anna Christiana br. Hutagalung, Andrian Kristianto Hutagalung, dan Riyan Saputra Hutagalung serta delapan orang cucu.Berdasarkan Keputusan Presiden Republik Indonesia Nomor 6/M Tahun 2025 tanggal 20 Januari 2025 diangkat sebagai Peneliti Ahli Utama Badan Riset dan Inovasi Nasional terhitung mulai tanggal 03 Maret 2025.
Berdasarkan Keputusan Kepala Badan Riset dan Inovasi Nasional, Nomor 221/I/HK/2025, tanggal 11 November 2025 tentang Pembentukan Majelis Pengukuhan Profesor Riset, yang bersangkutan dapat melakukan orasi pengukuhan Profesor Riset.
Menamatkan sekolah dasar di SD No 1 Tagog tahun 1974, sekolah menengah pertama di SMP Pusdik Int Cimahi tahun 1976, dan sekolah teknik menengah atas Bandung tahun 1981 dengan jurusan Instrumentasi Industri. Memperoleh gelar Sarjana Sains (S.Si) Statistika Terapan dari Universitas Terbuka, Indonesia, pada tahun 2000, meraih gelar Magister Teknik (MT) Program studi Instrumentasi dan Kontrol dari Institut Teknologi Bandung (ITB), Indonesia, pada tahun 2002, dengan tesis berjudul “Pengukuran Multifase dan Multikomponen dengan Menggunakan Tomografi Ultrasonik” dan gelar Doktoral Program studi Teknik Fisika dari Institut Teknologi Bandung (ITB), Indonesia, pada tahun 2024, dengan Desertasi berjudul “Aplikasi Ultrasonik yang Terintegrasi dengan Proses Oksidasi Lanjut dan Generator Gelembung Nano untuk Pengolahan Tersier Air Limbah Tekstil”.
Berbagai pelatihan nonformal yang terkait dengan bidang kompetensinya, seperti pelatihan, Equivalent to Siemens Simatics S5, 07 - 11 Oktober 1991, Siement Ltd, di Yeronga College of Tafe - Brisbane– Australia. ; Pelatihan, DCS MicroXL Engineering, 11 - 19 November 1991, Yokogawa Australia Pty.LTD, di Brisbane – Australia. Program kerjasama, Instrumentasi dan Kontrol, 30 Oktober -10 November 1989, di Water Resource Bureau, di Brisbane- Australia. ; Pelatihan The Refrigerator Energy Test in Japan for the IS-INOTEC/JEMA 2016 Project for ASEAN Laboratories, 26 September - 7 October 2016, Japan Qualiuty Assurance Organization Safety & EMC Center, Tokyo, Japan ; Pelatihan Risk Management Evaluation IEC 60601-1 -2012 and Clause 201.11, 1201.12 and 201.15 - IEC 60601-2-19-2016, 29-30 November 2018, TÜV SÜD PSB, Singapore.
Perjalanan karier yang pernah ditempuh adalah bergabung menjadi peneliti di Lembaga Ilmu Pengetahuan Indonesia (LIPI) mulai 1981 sampai 2018 dan berubah nama menjadi Badan Riset dan Inovasi Nasional (BRIN) sampai sekarang.
Menghasilkan 74 karya tulis ilmiah (KTI), baik yang ditulis sendiri maupun bersama penulis lain dalam bentuk buku, jurnal, dan prosiding. Sebanyak 31 KTI ditulis dalam bahasa Inggris.
Selama menjadi peneliti, aktif dalam berbagai organisasi ilmiah, yaitu PPI KIM, AMTEQ, HIMII, APMP dan menjadi anggota di Persatuan Periset Indonesia (PPI) serta Linked internasional.
Memperoleh penghargaan sebagai salah satu “110 Karya Inovasi Indonesia Paling Prospektif” dari Business Innovation Center (BIC) berjudul Sistem pengolahan air gambut melalui proses oksidasi lanjut dan reverse osmosis-2018. Piagam tanda kehormatan Satyalencana Karya Satpa dari Presiden Republik Indonesia ( 10 th , 20 th dan 30 th)
Memperoleh Perlindungan hak paten yang sudah grandted untuk beberapa judul:
“Peat Water Treatment System Through Continuous Oxidation Process and Reverse Osmosis”, Paten No: P00201401818 (2014) dan telah mendapatkan Grand Patent (2021),
Alat dan metode ultrasonik dikombinasikan dengan Proses Oksidasi Lanjut (POL) terintegrasi bubble mill generator (BMG) untuk pengolahan limbah cair dan sedimen dengan Nomor Permohonan : P00202010064 dari 2024 untuk selama 20 (dua puluh) tahun.
Piranti uji aneroid sphygmomanometer dengan Nomor sertifikat : IDS000005778 dari 2023 untuk selama 10 (sepuluh) tahun.
Selanjutnya telah didaftarkan paten-paten baru dengan judul: Patient Bed Testing System, Paten No: P00201902701 (2019) .

References

1. Hutagalung, S. S., "Solution for Peat Water Consumption: Application of Advanced Oxidation Process Technology, PT. Indonesian Writer Incubator, Prints July 1, 2019, ISBN 978-602-53911-8-7, Jakarta, Indonesia.

Jurnal Internasional

2. Rafryanto, A. F., Batrisya, A. L., Jiwanti, P. K., Mufti, N., Hutagalung, S. S., Arramel. (2025). Bottom ash waste conversion into nano-silica gel for high-performance adsorption of dye-pigment. Next Research. Accepted 11 April 2025. ISSN 3050-4759.

3. Hutagalung, S. S., Rafryanto, A. F., Sun, W., Juliasih, N., Jiang, J., Arramel, H. K. D., Suhardi, S. H., Rochman, N. T., Kurniadi, D. (2023). Combination of Ozone-based Advanced Oxidation Process and Nanobubbles Generation Toward Textile Wastewater Recovery. Frontiers in Environmental Science. https://doi.org/10.3389/fenvs.2023.1154739.

4. Subagyo, R., Yudhowijoyo, A., Sholeha, N. A., Hutagalung, S. S., Prasetyoko, D., Birowosuto, M. D., Arramel, J., Jiang, J., Kusumawati, Y. (2023). Recent advances of modification effect in Co3O4-based catalyst towards highly efficient photocatalysis. Journal of Colloid and Interface Science, 650, 1550–1590. https://doi.org/10.1016/j.jcis.2023.03.031.

5. Hutagalung, S. S. (2018). Optimation tuning PID controller in peat water treatment plant. Jurnal Instrumentasi, 42(1), 61-70. ISSN 0125-9202, E-ISSN 2460-1462.

6. Turnip, A., Hutagalung, S. S., Muchlis, I., Amri, M. F. (2017). Peat Water Treatment Based Wireless Data Acquisition System For Flexible Remote Monitoring. Interworking Indonesia Journal, 9(1), 27-32.

7. Turnip, A., & Hutagalung, S. S. (2015). Advanced Oxidation Processes with O3-UV-H2O2 and Reverse Osmosis Controlled PLC for Water Purification. Advanced Science Letters, 21(12), 3635-3638. https://doi.org/10.1166/asl.2015.6547.

8. Turnip, A., Hutagalung, S. S., Pardede, J., and Soetraprawata, D., "P300 detection using multilayer neural networks based adaptive feature extraction method", International Journal of Brain and Cognitive Sciences, vol. 2, no. 5, pp. 63–75, 2013. DOI: 10.5923/j.ijbcs.20130205.01.

9. Setiadji, T.S., Hutagalung, S. S., “Fluid Flow Image 3 Medium by Ultrasonic Tomography”, Journal of CommIT BINUS, May 2009, Vol. 3, No. 1, pp. 39–44.

Jurnal Nasional

10. Hutagalung, S. S., Herlambang, B., & Muchlis, I. (2014). Control System Design Study for Water Treatment Systems Peat with AOP method and RO. Seminar Nasional Fisika, ISSN: 2088-4176, 96-100.

11. Insani, A., and Hutagalung, S. S., “Remote SCADA System Design Using VPN 3G Service to Drive Pumps in Water Treatment System”, Bulletin Posts and Telecommunications, March 2013, ISSN: 1693-0991, Vol. 11 No. 1, pp. 67–76.

12. Hutagalung, S. S., and Hidayat, M., “Multiphase Flow Imaging Using Spline Interpolation Method”, Instrumentasi Scientific Publication, July–December 2011, Vol. 35 No. 2, pp. 83–92.

13. Hutagalung, S. S., Sugiarto, A.T., and Luvita, V., “Application of Advanced Oxidation Processes (AOP) Method for Liquid Resin Waste Treatment", Journal of Waste Management Technology, Vol. 13, No. 2, Dec. 2010, pp. 18–25.

14. Hutagalung, S. S., and Santoso, H.H., “Failure Rate Data Control by Redundant Strategies”, Journal of GIGA, Vol. 12, No. 3, October 2009, pp. 221–228.

15. Hutagalung, S. S., “Implementation of Distributed Control System in Application”, Journal of IPTEK METRIK, October 2008, Vol. 8, No. 16, pp. 29–35.

16. Hutagalung, S. S., and Sudrajat, A., “The Flow Pattern Identification Based on Fuzzy Neural Network Using Sensor Capacitance”, Journal of IPTEK METRIK, October 2008, Vol. 8, No. 16, pp. 1–5.

17. Hutagalung, S. S., “Application Analysis Method in the Process Control", Journal of Scientific GIGA, October 2008, Vol. 13, No. 30.

18. Hutagalung, S. S., “Study Performance of Control Loop Software”, Journal of IPTEK METRIK, April 2008, Vol. 8, No. 15, pp. 37–42.

19. Hutagalung, S. S., “Tuning Methods in System Folder Mode Control with PI”, Jurnal Ilmiah GIGA, February 2008, Vol. 12, No. 29.

20. Hutagalung, S. S., “Tomography Imaging Reconstruction A Three Phase Flow By Using Algebraic Reconstruction Technique Method”, Journal of Scientific Instrumentation Himii, July–December 2007, Vol. 31, No. 2, pp. 62–69.

21. Hutagalung, S. S., “Image Reconstruction of Matriks Parallel Geometry by FBP and ART Methods”, Scientific Journal GIGA, February 2007, Vol. 10, No. 27, pp. 48–57.

22. Hutagalung, S. S., “Plantwide Control Systems by Tennessee Eastment Methods”, Journal of GIGA, October 2006, Vol. 9, No. 26.

23. Hutagalung, S. S., “Approach Rytov to Reconstruct Image of an Object”, Widyariset LIPI, Vol. 8, No. 1, 2005, pp. 238–245.

24. Hutagalung, S. S., “Effects Uncertainty of Discharge Coefficient in Orifice Plates Sensor”, Journal of GIGA, June 2005, Vol. 8, No. 23.

25. Hutagalung, S. S., “Operation Plantwide Procedure Solution”, Journal of GIGA, June 2005, Vol. 8, No. 22.

26. Hutagalung, S. S., “Modeling and Multivariable Control System Design using the Method Bristol”, Journal of GIGA, Vol. 7, No. 19, June 2004.

27. Hutagalung, S. S., “Reconstructing Image Projection Algorithms for Fluid Flow Components Multi-Multi Phase", Journal of Scientific GIGA, Vol. 6, No. 17, 2003.

Prosiding Internasional

28. Hutagalung, S. S., Kurniadi, D., Rochman, N. T., Suhardi, S. H., & Khotimah, K. (2021). Ultrasonic-Advanced Oxidation Process-Nanobubble Design for wastewater treatment using PLC. 7th International Conference on Instrumentation Control and Automation (ICA), 22-27. https://doi.org/10.1109/ICA52848.2021.9625690.

29. Hutagalung, S. S., Muchlis, M., & Khotimah, K. (2019). Textile Wastewater Treatment using Advanced Oxidation Process (AOP). International Conference on Engineering for Sustainable Development, IOP Conf. Series: Materials Science and Engineering 722, 012032. https://doi.org/10.1088/1757-899X/722/1/012032.

30. Hutagalung, S. S. (2019). Effect of Release Coefficient Orifice Plate on Water Fluid Flow System. International Conference on Mechanical, Electronics, Computer, and Industrial Technology (MECnIT), IOP Conf. Series: Journal of Physics: Conf. Series 1230, 012086. https://doi.org/10.1088/1742-6596/1230/1/012086.

31. Hutagalung, S. S. (2019). Estimation Optimal Value of Discharge Coefficient in a Venturi Tubes. MECnIT 2018, IOP Conf. Series: Journal of Physics: Conf. Series 1230, 012087. https://doi.org/10.1088/1742-6596/1230/1/012087.

32. Hutagalung, S. S., Hidayat, S. W., Kusumandari, D. E., Saragih, Y. V., & Turnip, A. (2019). Arrhythmia Classification of Electrocardiogram Recorded Data with Random Forest Method. MECnIT 2018, IOP Conf. Series: Journal of Physics: Conf. Series 1230, 012036. https://doi.org/10.1088/1742-6596/1230/1/012036.

33. Turnip, A., & Hutagalung, S. S. (2014). Development of Programmable Logic-Controller for Peat Water Treatment based AOP+RO. 2nd International Conference on Sustainable Energy Engineering and Application (ICSEEA), 113-120.

34. Hutagalung, S. S., Muchlis, I., Sebleku, P., Amri, M.F., Fakhrurroja H., and Turnip, A., “Water Purification Technology based Advanced Oxidation Processes Emerging Ozone”, 2nd Int. Conf. on Technology, Informatics, Management, Engineering & Environment (TIME-E), 2014, ISBN: 978-1-4799-4805-5, pp. 292–295.

35. Hutagalung, S. S., Muchlis, I., Herlambang, B., and Turnip, A., “Removal of chemical and biological contaminants on peat water by ozone-based AOP with RO”, 2nd TIME-E, 2014, ISBN: 978-1-4799-4805-5, pp. 288–291.

36. Kusumandari, D.E., Fakhrurroja, H., Turnip, A., Hutagalung, S. S., Kumbara, B., Simarmata, J., “Removal of EOG artifacts: Comparison of ICA Algorithm from EEG”, 2nd TIME-E, 2014, ISBN: 978-1-4799-4805-5, pp. 335–339.

37. Turnip, A., Soetraprawata, D., and Hutagalung, S. S., “Integrated of Advanced Oxidation Processes with RO for water treatment”, Proc. 3rd Int. Conf. on Radar, Antenna, Microwave, Electronics and Telecommunications (ICRAMET), 2014, ISSN: 1979-2921, pp. 173–176.

38. Hutagalung, S. S., Muchlis, I., Turnip, A., and Soetraprawata, D., “Development of Peat Water Treatment Technology based AOP with O3-UV-H2O2”, Proc. 3rd ICRAMET, 2014, ISSN: 1979-2921, pp. 177–180.

39. Hutagalung, S. S., and Turnip, A., “P300 Detection Based on Extraction and Classification in Online BCI”, 3rd Int. Conf. on Instrumentation Control and Automation (ICA), 2013, IEEE, pp. 35–38.

40. Hutagalung, S. S., Sugiarto, A.T., and Luvita, V., “Advanced Oxidation Processes (AOP) Method for Liquid Resin Waste Treatment”, Proc. Nat. Seminar on Technology Management of Waste VIII, BATAN–RISTEK, June 2010, Vol. 1, No. 1, pp. 57–64.

Prosiding Nasional

41. Herlambang, B., Hutagalung, S. S., & Muchlis, I. (2016). The design of Electrical Systems For Water Treatment Systems Peat with Method Using AOP and RO. Seminar Nasional Sains dan Teknologi Dirgantara XX, 96-105. ISBN: 978-602-71833-2-2.

42. Herlambang, B., Hutagalung, S. S., & Muchlis, I. (2016). Mechanical design of Peat Water Treatment System Using AHP Method and RO. Seminar Nasional Sains dan Teknologi Dirgantara XX, 180-193. ISBN: 978-602-71833-2-2.

43. Herlambang, B., Hutagalung, S. S., & Muchlis, I. (2016). Designing Applications Automatic Control at Peat Water Treatment System with Two Ozone Generator. Annual Meeting on Testing and Quality (AMTeQ 2016), 565-577. ISSN 1907-7459.

44. Herlambang, B., Hutagalung, S. S., & Muchlis, I. (2016). Design of Control Systems Hardware Development Tools Water Treatment Peat. PPI-KIM 2016, 283–303. ISSN 0852-002X.

45. Hutagalung, S. S., Muchlis, I., Herlambang, B., & Turnip, A. (2014). Influence Depreciation and Development Pressure on Boiler Drum Level. Seminar Nasional Inovasi dan Teknologi Informasi (SNITI), 644-650. ISBN: 979-458-757-5.

46. Hutagalung, S. S., & Hidayat, A. R. (2014). Uncertainty of Measurement Analysis on Flow Transmitter AOPRO Process. Annual Meeting on Testing and Quality (AMTeQ), 22-33. ISSN: 1907-7459.

47. Luvita, V., and Hutagalung, S. S., “Process Water Treatment Peat using by AOP and RO”, AMTeQ, 2014, ISSN: 1907-7459, pp. 434–443.

48. Insani, A., and Hutagalung, S. S., “Research Study Ozone Generator with Electric Fields on Water Treatment Distribution”, PPI-KIM 2014, ISSN: 0852-002X, pp. 56–64.

49. Hutagalung, S. S., and Syukri, A. F., “Analysis of the Quality Management System ISO 9001:2008 in the Power Plant Control System "X"”, AMTeQ, 2013, ISSN: 1907-7459, pp. 139–150.

50. Hutagalung, S. S., and Muchlis, I., “Design Control and Monitoring of AOP + RO for Peat Water Treatment”, PPI-KIM, 2013, ISSN: 0852-002X, Vol. 1, pp. 32–45.

51. Insani, A., and Hutagalung, S. S., “Design Systems SCADA for Water Treatment Methods Peat with AOP and RO”, PPI-KIM, 2013, ISSN: 0852-002X, Vol. 1, pp. 281–292.

52. Hutagalung, S. S., “Sticking Detection Model Control Valves in Flow Control”, PPI-KIM, 2013, ISSN: 0852-002X, Vol. 1, pp. 329–341.

53. Hutagalung, S. S., Sugiarto, A.T., and Luvita, V., “Peat Water to be Clean Water Treatment By AOP in Kampar, Riau”, Proc. UGM Chemical, May 2013, ISSN: 2338-2368, Vol. 1, No. 1, pp. 73–80.

54. Hutagalung, S. S., “Characteristics of Control Valve in Pressure Control system by PI Mode”, SIPTEKGAN XIV, 2010, pp. 468–475.

55. Hutagalung, S. S., “Effect Stiction Control Valve in Close Loop Level Control System”, Proceeding of SIPTEKGAN XIII, November 2009, ISBN 978-979-1458-30-6.

56. Hutagalung, S. S., “Numerical Technique in Analysis of a Discrete Step Response Data”, Proceeding of SIPTEKGAN XIII, November 2009, Vol. 9, No. 17, ISBN 978-979-1458-30-6.

57. Hutagalung, S. S., “Distributed Control Systems to Optimize Performance in the Presence of Time Delays”, National Seminar on Aerospace Science and Technology XII, November 2008, pp. 359–364.

58. Hutagalung, S. S., “Tuning Strategy of Fuzzy PID Controllers”, Proceeding of SIPTEKGAN XII, National Seminar on Aerospace Science and Technology XII, November 2008, pp. 345–350.

59. Hutagalung, S. S., “Correlation Calculate of Optimum Parameter in PI Control System by Map Method”, Scientific Presentation & Meeting Calibration, Instrumentation, and Metrology (PPI-KIM), 2008, pp. 385–397.

60. Hutagalung, S. S., “Eliminated Control Valve Stiction On-line in Distributed Control System (DCS)”, Scientific Presentation & Meeting Calibration, Instrumentation, and Metrology (PPI-KIM), 2008, pp. 376–384.

61. Hutagalung, S. S., “Effect Characteristics of Control Valve in Operation Level Control with PI Model”, Scientific Presentation & Meeting Calibration, Instrumentation, and Metrology (PPI-KIM), 2007, pp. 362–373.

62. Hutagalung, S. S., “Simulation of Image Tomography by Filter Back Projection Algorithms”, Proceeding of SIPTEKGAN IX, 2005, Vol. 2, pp. 758–762.

63. Hutagalung, S. S., “Tuning Level Controller by Curve Reaction Processes Methods”, Proceeding of SIPTEKGAN IX, 2005, Vol. 2, pp. 492–496.

64. Hutagalung, S. S., “Identify Tomography Ultrasonic Model System in Fluid Flow by ARMAX Models”, Proceeding of SIPTEKGAN VIII, 2004, Vol. 1.

65. Hutagalung, S. S., “Design of Detector Magnetic by Circular Methods”, Proceeding of SIPTEKGAN VII, 2003, Vol. 1.

66. Hutagalung, S. S., “Multi Component Flow Imagery to Determine the Minimum Amount Used Tomography Ultrasonic Transducers”, Proceeding of SIPTEKGAN VII, 2003, Vol. 1.

67. Hutagalung, S. S., Asep, Djuhana, “Determination of Discharge Coefficient (Cd) of Fluid Flow Measurement Using Orifice Plates and Ventury Tube”, Proceeding of SIPTEKGAN VII, 2003, Vol. 1.

68. Hutagalung, S. S., Amoranto B., Deddy Kurniadi, Harry Aryadi, “Estimation Faction Composition of Fluid Flow of Multi Component - Multiphase Using Ultrasonic Tomography”, Scientific Presentation & Meeting Calibration, Instrumentation, and Metrology (PPI-KIM), 2002.

Paten

69. Peat Water Treatment System Through Continuous Oxidation Process and Reverse Osmosis Patent No: P00201401818 (2014), Grand Patent, since April 5th 2021 for 20 years.

70. Bed Testing System, Patent submitted (2020Patent No: P00201902701 (2019)

71. Tools and Methods of Ultrasonic Combined with Advanced Oxidation Process (AOP) Integrated Bubble Mill Generator (BMG) for Treatment of Wastewater and Sediment Patent, Patent No: P00202010064. nomor HKI-3-KI.05.01.08-DP-P00202010064 March 8, 2024.

72. Patent submitted Portable Apparatus and ECG database conversion methods (2021), Patent No: P00202204324.Certificate of Head of National Research and Innovation Agency, No: B-3295/I/KI.01.00/12/2021, Dated: 24 December 2021.

73. Simple patent “Aneroid Sphygmomanometer Test Device”, Patent No: S00201911245, Certificate number: IDS000005778, 2019

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