Design of Pond Water Temperature Monitoring Built Using NodeMCU ESP8266

Authors

  • Saiful Azhari Muhammad Universitas Pradita, Tangerang, Indonesia
  • Haryono Haryono Universitas Pradita, Tangerang, Indonesia

DOI:

10.33395/sinkron.v7i2.11406

Keywords:

NodeMCU ESP 8266, Temperature Water Sensor, Freshwater Fish Farming, Relay, Micro-controller

Abstract

Freshwater fish farming is currently booming in Indonesia, and many use small ponds for efficiency or due to limited location, this can be a problem due to Indonesia's hot climate. Small ponds with not much water volume will cause the water temperature to rise more easily on hot days, of course this is not good for the fish colonies in it. To prevent temperature rise, farmers generally irrigate ponds with fresh water to stabilize the water temperature. Due to the unpredictable weather in Indonesia lately, it will be difficult for farmers to monitor their ponds manually, so a tool is needed that can detect the heat of pond water and turn on the water pump to irrigate ponds. This research is expected to make it easier for farmers to regulate pond temperatures more easily. The use of a microcontroller in Internet of Thing devices is very much needed, considering that the microcontroller is able to carry out the task of controlling the existing sensors. The sensor used in this study uses a temperature sensor that is used to control the pool water. The prototype for detecting pool water temperature and increasing water flow is used to reduce heat in pool water and increase water flow that is reduced due to evaporation of water during the day. The purpose of this research is to make a prototype to detect pond water temperature and increase pond water discharge which is useful for reducing pond water temperature to be cooler and reducing the risk of fish death. The prototype developed is a NodeMCU ESP 8266 micro-controller, a temperature detection sensor in water, a relay as a switch and a mini pump

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References

Abana, E., Baricaua, M., Casibang, R. J., Babaran, A. P., Gaspar, V. J., & Puzon, F. G. (2021). Tetra-parameter Fish Feeding Machine. December 2020. https://doi.org/10.46300/9106.2020.14.118

Alimuddin, Arafiyah, R., Maryani, Y., Saraswatia, I., Masjudin, & Mustahal. (2021). Applications of temperature sensor cultivation fish and plant aquaponic with greenhouse for local food innovation. In AIP Conference Proceedings (Vol. 2331). https://doi.org/10.1063/5.0042469

Haryanto, D. H. (2018). Analisis Kekuatan Mekanik Water Cooling Tank Pada Fasilitas Uji Untai Passif-02 Menggunakan Catia. Poros, 16(1), 79–85. https://doi.org/10.24912/poros.v16i1.6296

Hsiao, S. J., & Sung, W. T. (2020). Building a fishfivegetable coexistence system based on a wireless sensor network. IEEE Access, 8, 192119–192131. https://doi.org/10.1109/ACCESS.2020.3032795

Idris, M., & Jaya, I. (2014). Pengembangan Data Logger Suhu Air Berbiaya Rendah. Jurnal Teknologi Perikanan Dan Kelautan, 5(1), 95–108. https://doi.org/10.24319/jtpk.5.95-108

Indriyanto, S., Syifa, F. T., & Permana, H. A. (2020). Sistem Monitoring Suhu Air pada Kolam Benih Ikan Koi Berbasis Internet of Things. TELKA - Telekomunikasi, Elektronika, Komputasi Dan Kontrol, 6(1), 10–19. https://doi.org/10.15575/telka.v6n1.10-19

Jauhari, A., Natalia, L., & Zulita, H. (2016). PERANCANGAN MUROTTAL OTOMATIS MENGGUNAKAN MIKROKONTROLLER ARDUINO MEGA 2560. 12(1), 89–98.

Prayitno, S. (2020). Perancangan Prototipe IoT Pendeteksi Kebakaran Rumah Dilengkapi Data Logger. 17(3), 81–87.

Ramadhan, H. P., Kartiko, C., & Prasetiadi, A. (2020). Monitoring Kualitas Air Tambak Udang Menggunakan NodeMCU, Firebase, dan Flutter. Jurnal Teknik Informatika Dan Sistem Informasi, 6(1), 102–114. https://doi.org/10.28932/jutisi.v6i1.2365

Safii, M., & Indrayani, N. (2020). Perancangan Piranti Lunak Responsive Untuk Monitoring Ruangan Server Mengunakan Nodemcu Esp8266 Berbasis Internet of Things. Jurnal Ilmiah Matrik, 22(3), 270–277. https://doi.org/10.33557/jurnalmatrik.v22i3.1121

Senapati, M., & Sahu, P. P. (2020). Onsite fish quality monitoring using ultra-sensitive patch electrode capacitive sensor at room temperature. Biosensors and Bioelectronics, 168(April), 112570. https://doi.org/10.1016/j.bios.2020.112570

Sitanayah, L., Angdresey, A., & Sampul, V. J. A. (2021). Monitoring and Predicting Water Quality in Swimming Pools. EPI International Journal of Engineering, 3(2), 119–125. https://doi.org/10.25042/epi-ije.082020.05

Su, Y., Ma, C., Chen, J., Wu, H., Luo, W., Peng, Y., Luo, Z., Li, L., Tan, Y., Omisore, O. M., Zhu, Z., Wang, L., & Li, H. (2020). Printable, Highly Sensitive Flexible Temperature Sensors for Human Body Temperature Monitoring: A Review. In Nanoscale Research Letters (Vol. 15, Issue 1). https://doi.org/10.1186/s11671-020-03428-4

Suriana, S., Lubis, A. P., & Rahayu, E. (2021). Sistem Monitoring Jarak Jauh Pada Suhu Kolam Ikan Nila Bangkok Memanfaatkan Internet of Things (IOT) Berbasis NODEMCUESP8266. JUTSI (Jurnal Teknologi Dan Sistem Informasi), 1(1), 1–8. https://doi.org/10.33330/jutsi.v1i1.1004

Tatik Juwariyah, Sugeng Prayitno, A. M. (2018). Perancangan Sistem Deteksi Dini Pencegah Kebakaran Rumah Berbasis IoT ( Internet of Things ) Tatik Juwariyah *, Sugeng Prayitno , Akalily Mardhiyya. Seinasi-Kesi, 57–62.

Taufiqurrohman, & Iwan Nurhidayat, A. (2016). Rancang Bangun Sistem Integrasi Antara Desktop Dan Web Aplikasi Di Toko Parfum Confi. Jurnal Manajemen Informatika, 5(2), 37–41.

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How to Cite

Muhammad, S. A., & Haryono, H. (2022). Design of Pond Water Temperature Monitoring Built Using NodeMCU ESP8266. Sinkron : Jurnal Dan Penelitian Teknik Informatika, 6(2), 579-585. https://doi.org/10.33395/sinkron.v7i2.11406

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