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Badida, P., Balasubramaniam, Y., & Jayaprakash, J. (2019). Risk evaluation of oil and natural gas pipelines due to natural hazards using fuzzy fault tree analysis. Journal of Natural Gas Science and Engineering, 66, 284-292.BadidaP.BalasubramaniamY.JayaprakashJ. (2019). Risk evaluation of oil and natural gas pipelines due to natural hazards using fuzzy fault tree analysis. Journal of Natural Gas Science and Engineering, 66, 284-292.Search in Google Scholar
Khan, W. Z., Aalsalem, M. Y., Khan, M. K., Hossain, M. S., & Atiquzzaman, M. (2017, February). A reliable Internet of Things based architecture for oil and gas industry. In 2017 19th International conference on advanced communication Technology (ICACT) (pp. 705-710). IEEE.KhanW. Z.AalsalemM. Y.KhanM. K.HossainM. S.AtiquzzamanM. (2017, February). A reliable Internet of Things based architecture for oil and gas industry. In 2017 19th International conference on advanced communication Technology (ICACT) (pp. 705-710). IEEE.Search in Google Scholar
Sawhney, A., Riley, M., Irizarry, J., & Riley, M. (2020). Construction 4.0. Sawhney, A., Riley, M., Irizarry, J., Eds.SawhneyA.RileyM.IrizarryJ.RileyM. (2020). Construction 4.0. SawhneyA.RileyM.IrizarryJ., Eds.Search in Google Scholar
Gupta, D., & Shah, M. (2022). A comprehensive study on artificial intelligence in oil and gas sector. Environmental Science & Pollution Research, 29(34).GuptaD.ShahM. (2022). A comprehensive study on artificial intelligence in oil and gas sector. Environmental Science & Pollution Research, 29(34).Search in Google Scholar
Wu, J., Zhou, R., Xu, S., & Wu, Z. (2017). Probabilistic analysis of natural gas pipeline network accident based on Bayesian network. Journal of Loss Prevention in the Process Industries, 46, 126-136.WuJ.ZhouR.XuS.WuZ. (2017). Probabilistic analysis of natural gas pipeline network accident based on Bayesian network. Journal of Loss Prevention in the Process Industries, 46, 126-136.Search in Google Scholar
Aalsalem, M. Y., Khan, W. Z., Gharibi, W., Khan, M. K., & Arshad, Q. (2018). Wireless Sensor Networks in oil and gas industry: Recent advances, taxonomy, requirements, and open challenges. Journal of network and computer applications, 113, 87-97.AalsalemM. Y.KhanW. Z.GharibiW.KhanM. K.ArshadQ. (2018). Wireless Sensor Networks in oil and gas industry: Recent advances, taxonomy, requirements, and open challenges. Journal of network and computer applications, 113, 87-97.Search in Google Scholar
Harris, F., McCaffer, R., Baldwin, A., & Edum-Fotwe, F. (2021). Modern construction management. John Wiley & Sons.HarrisF.McCafferR.BaldwinA.Edum-FotweF. (2021). Modern construction management. John Wiley & Sons.Search in Google Scholar
Drumond, G. P., Pasqualino, I. P., Pinheiro, B. C., & Estefen, S. F. (2018). Pipelines, risers and umbilicals failures: A literature review. Ocean Engineering, 148, 412-425.DrumondG. P.PasqualinoI. P.PinheiroB. C.EstefenS. F. (2018). Pipelines, risers and umbilicals failures: A literature review. Ocean Engineering, 148, 412-425.Search in Google Scholar
Koroteev, D., & Tekic, Z. (2021). Artificial intelligence in oil and gas upstream: Trends, challenges, and scenarios for the future. Energy and AI, 3, 100041.KoroteevD.TekicZ. (2021). Artificial intelligence in oil and gas upstream: Trends, challenges, and scenarios for the future. Energy and AI, 3, 100041.Search in Google Scholar
Lu, H., Huang, K., Azimi, M., & Guo, L. (2019). Blockchain technology in the oil and gas industry: A review of applications, opportunities, challenges, and risks. Ieee Access, 7, 41426-41444.LuH.HuangK.AzimiM.GuoL. (2019). Blockchain technology in the oil and gas industry: A review of applications, opportunities, challenges, and risks. Ieee Access, 7, 41426-41444.Search in Google Scholar
Ashry, I., Mao, Y., Wang, B., Hveding, F., Bukhamsin, A. Y., Ng, T. K., & Ooi, B. S. (2022). A review of distributed fiber–optic sensing in the oil and gas industry. Journal of Lightwave Technology, 40(5), 1407-1431.AshryI.MaoY.WangB.HvedingF.BukhamsinA. Y.NgT. K.OoiB. S. (2022). A review of distributed fiber–optic sensing in the oil and gas industry. Journal of Lightwave Technology, 40(5), 1407-1431.Search in Google Scholar
Rui, Z., Peng, F., Ling, K., Chang, H., Chen, G., & Zhou, X. (2017). Investigation into the performance of oil and gas projects. Journal of natural gas science and engineering, 38, 12-20.RuiZ.PengF.LingK.ChangH.ChenG.ZhouX. (2017). Investigation into the performance of oil and gas projects. Journal of natural gas science and engineering, 38, 12-20.Search in Google Scholar
Ho, M., El-Borgi, S., Patil, D., & Song, G. (2020). Inspection and monitoring systems subsea pipelines: A review paper. Structural Health Monitoring, 19(2), 606-645.HoM.El-BorgiS.PatilD.SongG. (2020). Inspection and monitoring systems subsea pipelines: A review paper. Structural Health Monitoring, 19(2), 606-645.Search in Google Scholar
Mohammadpoor, M., & Torabi, F. (2020). Big Data analytics in oil and gas industry: An emerging trend. Petroleum, 6(4), 321-328.MohammadpoorM.TorabiF. (2020). Big Data analytics in oil and gas industry: An emerging trend. Petroleum, 6(4), 321-328.Search in Google Scholar
Waqar, A., Khan, M. B., Othman, I., Mansoor, M. S., & Shafiq, N. (2022, October). A Systematic Literature Review on Risk Analysis of Health and Safety in Oil Refinery and Onshore Pipeline Construction Projects. In 2022 International Conference on Data Analytics for Business and Industry (ICDABI) (pp. 1-8). IEEE.WaqarA.KhanM. B.OthmanI.MansoorM. S.ShafiqN. (2022, October). A Systematic Literature Review on Risk Analysis of Health and Safety in Oil Refinery and Onshore Pipeline Construction Projects. In 2022 International Conference on Data Analytics for Business and Industry (ICDABI) (pp. 1-8). IEEE.Search in Google Scholar
Xie, M., & Tian, Z. (2018). A review on pipeline integrity management utilizing in-line inspection data. Engineering Failure Analysis, 92, 222-239.XieM.TianZ. (2018). A review on pipeline integrity management utilizing in-line inspection data. Engineering Failure Analysis, 92, 222-239.Search in Google Scholar
Chen, C., Li, C., Reniers, G., & Yang, F. (2021). Safety and security of oil and gas pipeline transportation: A systematic analysis of research trends and future needs using WoS. Journal of Cleaner Production, 279, 123583.ChenC.LiC.ReniersG.YangF. (2021). Safety and security of oil and gas pipeline transportation: A systematic analysis of research trends and future needs using WoS. Journal of Cleaner Production, 279, 123583.Search in Google Scholar
Adegboye, M. A., Fung, W. K., & Karnik, A. (2019). Recent advances in pipeline monitoring and oil leakage detection technologies: Principles and approaches. Sensors, 19(11), 2548.AdegboyeM. A.FungW. K.KarnikA. (2019). Recent advances in pipeline monitoring and oil leakage detection technologies: Principles and approaches. Sensors, 19(11), 2548.Search in Google Scholar
Lu, H., Iseley, T., Behbahani, S., & Fu, L. (2020). Leakage detection techniques for oil and gas pipelines: State-of-the–art. Tunnelling and Underground Space Technology, 98, 103249.LuH.IseleyT.BehbahaniS.FuL. (2020). Leakage detection techniques for oil and gas pipelines: State-of-the-art. Tunnelling and Underground Space Technology, 98, 103249.Search in Google Scholar
Oz, N. E., Mete, S., Serin, F., & Gul, M. (2019). Risk assessment for clearing and grading process of a natural gas pipeline project: An extended TOPSIS model with Pythagorean fuzzy sets for prioritizing hazards. Human and Ecological Risk Assessment: An International Journal, 25(6), 1615-1632.OzN. E.MeteS.SerinF.GulM. (2019). Risk assessment for clearing and grading process of a natural gas pipeline project: An extended TOPSIS model with Pythagorean fuzzy sets for prioritizing hazards. Human and Ecological Risk Assessment: An International Journal, 25(6), 1615-1632.Search in Google Scholar
Alamri, A. H. (2020). Localized corrosion and mitigation approach of steel materials used in oil and gas pipelines–An overview. Engineering failure analysis, 116, 104735.AlamriA. H. (2020). Localized corrosion and mitigation approach of steel materials used in oil and gas pipelines–An overview. Engineering failure analysis, 116, 104735.Search in Google Scholar
Weihe, H. U. A. N. G., Honglong, Z. H. E. N. G., & Mingfei, L. I. (2019). Development history and prospect of oil & gas storage and transportation industry in China. Oil Gas Storage Transp., 38(1), 1-11.WeiheH. U. A. N. G.HonglongZ. H. E. N. G.MingfeiL. I. (2019). Development history and prospect of oil & gas storage and transportation industry in China. Oil Gas Storage Transp., 38(1), 1-11.Search in Google Scholar
Sharma, S. K., & Maheshwari, S. (2017). A review on welding of high strength oil and gas pipeline steels. Journal of Natural Gas Science and Engineering, 38, 203-217.SharmaS. K.MaheshwariS. (2017). A review on welding of high strength oil and gas pipeline steels. Journal of Natural Gas Science and Engineering, 38, 203-217.Search in Google Scholar
Wanasinghe, T. R., Wroblewski, L., Petersen, B. K., Gosine, R. G., James, L. A., De Silva, O., … & Warrian, P. J. (2020). Digital twin for the oil and gas industry: Overview, research trends, opportunities, and challenges. IEEE access, 8, 104175-104197.WanasingheT. R.WroblewskiL.PetersenB. K.GosineR. G.JamesL. A.De SilvaO.WarrianP. J. (2020). Digital twin for the oil and gas industry: Overview, research trends, opportunities, and challenges. IEEE access, 8, 104175-104197.Search in Google Scholar
Lu, H., Guo, L., Azimi, M., & Huang, K. (2019). Oil and Gas 4.0 era: A systematic review and outlook. Computers in Industry, 111, 68-90.LuH.GuoL.AzimiM.HuangK. (2019). Oil and Gas 4.0 era: A systematic review and outlook. Computers in Industry, 111, 68-90.Search in Google Scholar
Juhong, W. A. N. G., ZHANG, S., Xin, W. A. N. G., Ronguang, L. I., & Ting, W. A. N. G. (2020). Exploration and practice of data visualization for intelligent pipeline in China–Russia Eastern Gas Pipeline. You-qi chuyun, 39(2), 169-175.JuhongW. A. N. G.ZHANGS.XinW. A. N. G.RonguangL. I.TingW. A. N. G. (2020). Exploration and practice of data visualization for intelligent pipeline in China–Russia Eastern Gas Pipeline. You-qi chuyun, 39(2), 169-175.Search in Google Scholar
Ogbu, A. D., Ozowe, W., & Ikevuje, A. H. (2024). Remote work in the oil and gas sector: An organizational culture perspective. GSC Advanced Research and Reviews, 20(1), 188-207.OgbuA. D.OzoweW.IkevujeA. H. (2024). Remote work in the oil and gas sector: An organizational culture perspective. GSC Advanced Research and Reviews, 20(1), 188-207.Search in Google Scholar
Kuang, L., He, L. I. U., Yili, R. E. N., Kai, L. U. O., Mingyu, S. H. I., Jian, S. U., & Xin, L. I. (2021). Application and development trend of artificial intelligence in petroleum exploration and development. Petroleum Exploration and Development, 48(1), 1-14.KuangL.HeL. I. U.YiliR. E. N.KaiL. U. O.MingyuS. H. I.JianS. U.XinL. I. (2021). Application and development trend of artificial intelligence in petroleum exploration and development. Petroleum Exploration and Development, 48(1), 1-14.Search in Google Scholar
Sircar, A., Yadav, K., Rayavarapu, K., Bist, N., & Oza, H. (2021). Application of machine learning and artificial intelligence in oil and gas industry. Petroleum Research, 6(4), 379-391.SircarA.YadavK.RayavarapuK.BistN.OzaH. (2021). Application of machine learning and artificial intelligence in oil and gas industry. Petroleum Research, 6(4), 379-391.Search in Google Scholar
Abdelwhab Ali, A., Panneer selvam, D. D. D., Paris, L., & Gunasekaran, A. (2019). Key factors influencing knowledge sharing practices and its relationship with organizational performance within the oil and gas industry. Journal of Knowledge Management, 23(9), 1806-1837.Abdelwhab AliA.Panneer selvamD. D. D.ParisL.GunasekaranA. (2019). Key factors influencing knowledge sharing practices and its relationship with organizational performance within the oil and gas industry. Journal of Knowledge Management, 23(9), 1806-1837.Search in Google Scholar
Zhang Tiantian & Hao Shengyue. (2021). Development of a Dynamic Information System for Safety Management of Construction Workers Based on IoT and BIM Tools. IOP Conference Series: Earth and Environmental Science(1).TiantianZhangShengyueHao (2021). Development of a Dynamic Information System for Safety Management of Construction Workers Based on IoT and BIM Tools. IOP Conference Series: Earth and Environmental Science(1).Search in Google Scholar
Xue Bin,Liu Bingsheng & Sun Ting. (2018). What Matters in Achieving Infrastructure Sustainability through Project Management Practices: A Preliminary Study of Critical Factors. Sustainability(12),4421-4421.BinXueBingshengLiuTingSun (2018). What Matters in Achieving Infrastructure Sustainability through Project Management Practices: A Preliminary Study of Critical Factors. Sustainability(12),4421-4421.Search in Google Scholar
Beining Chang,Xiaosi Yu & Yachen Liu. (2024). Methods to Stimulate the Proactivity of Enterprises in Fulfilling Safety Responsibilities: A Fundamental Issue in Construction Safety Management. Buildings(10),3329-3329.ChangBeiningYuXiaosiLiuYachen (2024). Methods to Stimulate the Proactivity of Enterprises in Fulfilling Safety Responsibilities: A Fundamental Issue in Construction Safety Management. Buildings(10),3329-3329.Search in Google Scholar
