TY - JOUR T1 - Fuel consumption analysis and cost overview of mechanical vehicles in petroleum drilling rig AU - Yılmaz, Adem AU - Yıldız, Muhammed İkbal PY - 2024 DA - December Y2 - 2024 DO - 10.26701/ems.1404250 JF - European Mechanical Science JO - EMS PB - Ahmet ÇALIK WT - DergiPark SN - 2587-1110 SP - 293 EP - 302 VL - 8 IS - 4 LA - en AB - During the drilling activities carried out before the use of Petroleum and Geothermal Energy resources, daily fuel consumption occurs depending on the operational diversity of the mechanical components of different types of rigs in our country. In this study, a time-dependent financial analysis of the preferred operating procedure and fuel consumption during drilling operations was performed, both in engineering studies and in order to reach a predictable level in terms of cost, oil drilling operations were mentioned by drilling rig type today, and comparisons of mechanical evenings were made to provide an economically predictable earning environment for daily fuel consumption. As a result of the research and findings, Group Motors/Drawworks, Pump Motor and Generators were actively used during the idling of mechanical evenings, and the average daily diesel consumption of 23.61 lt/h, 45.8 lt/h and 33.3 lt/h was reached, respectively. Maneuver Opr. the average daily diesel consumption of 37.5 lt/h, 0 lt/h and 39.58 lt/h was reached based on the active use of Group Motors/Drawworks, Pump Motors and Generators during the operation. Drilling Opr. the average diesel consumption of 26.24 lt/h, 129 lt/h, 33.3 lt/h and 83 lt/h respectively was reached based on the active use of Group Motors/Drawworks, Pump Motor, Generators and Top Drive. KW - Petroleum KW - Drilling KW - Fuel KW - Cost. CR - Maden Yönetmeliği. (2024, June 10). Maden Yönetmelikleri. https://www.mapeg.gov.tr/Sayfa/Genel/maden-yonetmelikleri CR - Fuel Theft Prevention. (2024, April 15). Digital Drilling. https://jv-technoton.com/solutions/digital-drilling CR - Nazer, M. A. (2017). Design modification of drawworks transmission system of oil well drilling rigs. International Journal of Engineering Science and Computing (IJSCE, 7)(4), 9982–9984. CR - Bali, E. (2018). Design of on-off type solenoid valve for electropneumatic brake systems and investigation of its static characteristics. International Journal of Advances on Automotive and Technology, 3(4), 175–184. CR - Drawworks brake system in drilling rigs. (2024, June 17). Drilling Manual. https://www.drillingmanual.com/drawworks-brake-system-in-drilling-rigs/#google_vignette CR - Three speed chain transmission. (2024, January 15). DeepL Translator. https://www.deepl.com/tr/translator#tr/en-us/ocak CR - Group Engines and Independent Engines. (2014). Training Presentation. Türkiye Petrolleri Anonim Ortaklığı (TPAO). CR - All drive modes explained. (2024, February 24). Sovonex. https://www.sovonex.com/drilling-equipment/api-land-drilling-rigs/electric-mechanical-drilling-rigs/ CR - Mechanical drilling rig equipment. (2024, January 8). Bentec. https://www.bentec.com/equipment/mechanical-drilling-rig-equipment/mud-pumps/mud-pumps.html CR - Hochgraf, C. (2009). Fuel control, applications – Transportation electric vehicles: Fuel cells. Science Direct, 5(3), 83–75. CR - Drilling rigs, engines, and fuels. (2024, June 15). EPCM Holdings. https://epcmholdings.com/rigs_engines_fuels/ CR - Boyun, G. (2011). Mud pumps. In Applied Drilling Circulation System (pp. 47–63). https://doi.org/10.1016/B978-0-12-381957-4.00003-6 CR - Rasmussen, T. M. (2018). Wiper trips effect on wellbore instability using net rising velocity methods. The Open Petroleum Engineering Journal, 11, 14-28. https://doi.org/10.2174/1874834101811010014 CR - Kök, V. M. (2010). Managed pressure drilling techniques, equipment, and applications (Master’s thesis). Middle East Technical University, Graduate School of Natural and Applied Sciences. UR - https://doi.org/10.26701/ems.1404250 L1 - https://dergipark.org.tr/en/download/article-file/3596748 ER -