Robi Tubagus Yuni - SGU Repository

(1)

MONITORING HEAVY EQUIPMENT COOLANT TEMPERATURE Page 86 of 89

TO PREVENT ENGINE OVERHEAT USING IOT

Robi Tubagus Yuni REFERENCES

Haryadi, S., Hendriana, D., Nasution, H., & Baskoro, G. (2020). Monitoring of Thermostat Performance in Heavy Equipment Diesel Engine Cooling System Using an Ultrasonic Flow Meter. Proceedings of The Conference on Management and Engineering in Industry, 2(1), 26–30. https://doi.org/10.33555/cmei.v2i1.39

Sembiring, J. D., Baskoro, G., & Berchmans, H. J. (2019). Design and Simulation of Engine Operation Temperature Monitor and Control System by Using Internet of Thing. Proceedings of The Conference on Management and Engineering in Industry, 1(1), 9–12. https://doi.org/10.33555/cmei.v1i1.16

Saputra, E., Purwokerto, U. M., Effendy, M., Surakarta, U. M., Surono, A., & Prasetya, A. (2019). Performance of Radiator Vehicle on a Wide Range of Air Flow Rate. The 8^th University Research Colloquium 2018. September, 0–6.

Misbakhul, M. A. (2018). Analisa Pengaruh Kecepatan Air Radiator Penyerapan Panas pada Mesin Motor. Publikasi Online Mahasiswa Teknik Mesin. 1(1), 0–13.

Momin, Md. Sourove akther, Mr. Md. Golam Kader, Pratik Roy, Md. Sahid Hasan, M.

M. Z. (2016). Automatic Signal and Alarming System to Avoid Engine Overheating.

International Journal of Research, 3(13), 962–966.

https://edupediapublications.org/journals

Amaechi, E., & Boro, O. J. (2016). Effect of Heat Expansion in an Internal Combustion Automotive Engine. The International Journal of Engineering and Science (IJES), 5(1), 30–35. http://www.theijes.com/papers/v5-i1/E0501030035.pdf

Singh Missan, G., & Keswani, I. P. (2016). Analysis of Causes of Engine Overheating due to Cooling System Failure Using Pareto Principle. International Journal of Engineering Trends and Technology, 36(5), 242–248.

https://doi.org/10.14445/22315381/ijett-v36p245

(2)

Robi Tubagus Yuni Randis, R., & Sarminto, S. (2018). Aplikasi Internet of Things Monitoring Suhu Engine untuk Mencegah Terjadinya Overheat. Jurnal Program Studi Teknik Mesin, 7(2), 153–

158. https://doi.org/10.24127/trb.v7i2.791

Muthukumarasamy, S., Dinesh, R., Dinesh Kumar, K., Haribabu, M., & Pratheesh, R.

(2018). Analysing the Causes of Overheating of Heavy-Duty Truck Engines and Heat Flux of Radiator Using Pareto Principle Ansys Software. International Journal of Pure and Applied Mathematics, 118(20), 4955–4963. http://www.ijpam.eu

Harsoyo, I. T., Nugroho, A. K., & Nuriman, N. (2019). Rancang Bangun Tachometer Digital Berbasis Arduino Dilengkapi Charging dan Mode Penyimpan Data. Elektrika, 11(2), 6. https://doi.org/10.26623/elektrika.v11i2.1692

Murti, M. R. (2012). Laju Pembuangan Panas pada Radiator dengan Fluida Campuran 80% Air dan 20% Rc pada Rpm Konstan. Jurnal Energi dan Manufaktur, 3(1).

Recktenwald, G. (2013). Temperature Measurement with a Thermistor and an Arduino.

Materials Engineering.

Todica, M. (2016). Controlling Arduino Board with Smartphone and Blynk via Internet.

Technical Document, November. https://doi.org/10.13140/RG.2.2.23956.30080 Soebiyakto, G. (2012). Analisis Volume Air Radiator Terhadap Perubahan Temperature pada Motor Diesel Chevrolet.

Fan, P. K., & Walujodjati, A. (2009). Pengaruh Kecepatan Fan Terhadap Temperatur Perpindahan Panas Aliran Udara dalam Pipa dengan Fluks Panas Permukaan Konstan.

5(2), 46–49.

Walter, J. (2001). Automotive Cooling System Component Interactions. Doctoral Thesis. Texas: Tech University.

Ling, T. (2006). Essentials of research design and methodology (Vol. 43, Issue 09).

https://doi.org/10.5860/choice.43-5572

Riyanti, H. B. (2021). Akurasi dan Presisi. Uhamka

(3)

Robi Tubagus Yuni Komatsu (2003) Unit Instruction Manual: Basic Engine Component. Komatsu.

Komatsu (2003) Unit Instruction Manual: Diesel and Gasoline Engine Fundamental.

Komatsu.

Komatsu (2003) Unit Instruction Manual: Bosch Fuel System. Japan.

Komatsu (2003) Shop Manual 125-2 Series Diesel Engine. Japan.

Komatsu (2007) Operation and Maintenance Manual D85ESS-2. Japan.

Komatsu (2007) Shop Manual D85ESS-2. Japan.

Komatsu Europe International NV (2013) Komatsu Wireless Monitoring System (KOMTRAX). https://www.komatsu.eu/en/komtrax

UD (2008) Automotive Engineering Textbook: Engine. Japan https://www.arduino.cc/ (2020) No Title.