Otomasi Sistem Hidroponik Wick Terintegrasi pada Pembibitan Tomat Ceri
Abstract
Process of maintaining hydroponic wick system manually requires extra energy, especially during the cherry tomato plant breeding season. Parameters, including pH value, Electrical Conductivity (EC) nutrient solution, room temperature, and humidity are needed to be considered to produce superior seeds. In this study, room temperature and humidity, pH value, and EC content in nutrient solution were controlled. The PID and on/off controller were employed in the examination plant. The PID was applied to control room temperature. On the other hand, the on/off was applied to control room humidity, pH, and EC value. PID parameters were set to Kp = 3, Ki = 2, and Kd = 10. As a result, the system produced rise time of 60 minutes, overshoot of 1.17%, and settling time of 57.5 minutes. At the same time, the on/off controller was able to settle the humidity from 61% to 80% within 150 seconds. Moreover, reduction of the pH value from 6.9 to 5.34 can be reached within 12.8 minutes. The study of the EC showed that the longer for the water valve to open, the longer it takes to reach the set point. The study also showed that the rate of cherry tomato plant height is 2.675 cm/week utilizing both of the PID and the on/off controller, while it can only reach 0.2 cm/week without controller. Furthermore, examination on the leaf numbers per week showed that the leaf grew 2 sheets per week when both controllers were applied, while it grew no sheet without controller.
References
Resh, H. M, Hydroponic Food Production, Santa Barbara: Woodbridge Press Pbl. Santa Barbara. 1998.
D. S. Domingues, H. W. Takahashi, C. A. P. Camara, dan S. L. Nixdorf, “Automated system developed to control pH and concentration of nutrient solution evaluated in hydroponic lettuce production,” Computers and Electronics in Agriculture, vol. 84, hal. 53-61, 2012.
A. Dinurrohman, S. Suarni, H. Pramono, dan O. Aksari, “Aplikasi zat pengatur tumbuh pada budidaya tomat cherry (Lycopersicon esculentum var. Cerasifone) secara hidroponik,” Prosiding Seminar Nasional PERHORTI, Bandung, 2011.
Sastrahidayat, Bertanam Tomat, Jakarta: Penebar Swadaya, 1992.
B. T. W. Wiryanta, Bertanam Tomat, Jakarta: Agromedia Pustaka, 2002.
M. F. Saaid, A. Sanuddin, M. S. A. Megat Ali, dan I. M. Yassin, 2015. “Automated pH controller system for hydroponic cultivation,” IEEE Symposium on Computer Applications & Industrial Electronics (ISCAIE), hal. 186-190, 2015.
M. N. Ibrahim, “Desain sistem kontrol otomatik larutan nutrisi berbasis electrical conductivity untuk budidaya hidroponik menggunakan logika fuzzy,” Skripsi, Institut Pertanian Bogor, Bogor, Indonesia, 2015.
S. Sawidin, O. E. Melo, dan T. Marsela, “Monitoring kontrol greenhouse untuk budidaya tanaman bunga krisan dengan LabView”. JNTETI, vol. 4, no. 4, 2015.
Y. Triwidyastuti, I. Puspasari, dan Harianto, “Kendali PID untuk pengaturan suhu pada budidaya tomat ceri,” SNTEKPAN V, hal. C97-C102, 2017.
Robot, D. (2017). PH meter (SKU: SEN0161) DF Robot Electronic. [Online],https://www.dfrobot.com/wiki/index.php/PH_meter(SKU:_SEN0161), tanggal akses: 21 Juli 2017.
Atlas Scientific LLC. (2016) Conductivity K 1.0 Kit. [Online], http://www.atlasscientific.com/product_pages /kits/ec_k1_0_kit.html, tanggal akses: 22 Juli 2017.
Innovative Electronics. (2009) Manual DT-Sense Temperature & Humidity Sensor. [Online], http://innovativeelectronics.com/innovative_electronics/download_files/manual/Manual_DT-Sense_Temperature_Humidity_Sensor_rev.pdf, tanggal akses: 8 Mei 2017.
Islandia, H. L. (2017) Electric Solenoid Valve. [Online], https://www.electricsolenoidvalves.com/, tanggal akses: 21 Juni 2017.
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