Studi Pengaruh Kontaminasi Properti Rheology Water Based Mud di Lapangan Sunyu

JURNAL BHARA PETRO ENERGI Pub Date : 2022-12-19 DOI:10.31599/bpe.v1i3.1743

Abdullah Rizky Agusman

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Based on the experiment work done on water base mud system to ascertain the effect of contaminants (salt, silica sand, cement and carbonate) on the rheological properties and performance of the mud, it shows that the presence of a contaminant on the drilling mud either reduces or increases the rheological properties of the mud system and in turn affects the rate of penetration, it performance and also poses serious drilling problems. It was observed that the presence of Sodium salt in the mud system increased the fluid loss into the formation. It was further observed that while Apparent Viscosity, Gel Strength increases as the mass increase from 1g to 5g, the pH and Plastic Viscosity almost did not change. The Yield point increases little. With Cement as contaminant, it shows all rheological properties of the mud increased markedly, as the quantity of the cement used is increased from 1g to 5g and the pH does not change. Silica contamination has not showed any marked effect on the nature of the drilling mud. In fact, the more the amount of the contaminant (Silica) is added, the closer it properties are to the blank sample that do not have contaminants. The carbonate effect is largely on the Gel strength which decreases as the amount of added carbonate increases. The pH has no charges, which also means carbonate keeps the mud in it alkaline state, as it was the case with cement.\nReference:\nAli K., Vipulanandan C., Richardson D. (2013): Salt (NaCl) contamination of the resistivity and plastic viscosity of bentonite drilling mud, Proceedings of the center for innovative grouting materials and technology (CIGMAT) Conference & Exhibition.\nBradford, B. B.: \"Setting Cement Plugs Requires Careful Planning\", Oil & Gas Journal, pp. 102, 1982.\nCavanagh, P.H., Johnson, C. R., LeRoy-Delage, S., DeBruijn, G. G., Cooper, I., Guillot, D. J., Bulte, H., and Dargaud, B. (2007): \"Self-Healing Cement - Novel Technology to Achieve Leak-Free Wells\", SPE-105781 presented at the SPE/IADC Drilling Conference, Amsterdam, The Netherlands, 20-22 February.\nChaney P.E, 1942. A Review of recent advances in drilling mud control, Drilling and Production Practice, American Petroleum Institute, 31-46.\n Charlez P. H and Heugas O. (1991): Evaluation of Optimal Mud Weight In Soft Shale Levels, American rock mechanics association, The 32nd U.S. Symposium on Rock Mechanics (USRMS), 10-12 July, Norman, Oklahoma\nChen, C.P. Tan and C. Detournay, (2002), the impact of mud filtration on wellbore stability fracture rock masses, SPE/ISRM 78241 presented at the SPE/ISRM rock mechanics conference held in Irving, Texas\nDosunmu .A. and Ogunrinde .J. (2010) “Development of Environmentally Friendly Oil Based Mud using Palm Oil and Groundnut Oil”. SPE 140720. Paper presented at the 34th Annual International Conference and Exhibition in Tinapa-Calabar, Nigeria, July 31st- August 7th, 2010.\nDusseault, M.B., Gray, M. N., and Nawrocki, P.A.: \"Why Oil wells Leak: Cement Behavior and Long-Term Consequences\", SPE 64733 presented at the SPE International Oil and Gas Conference and Exhibition, Beijing, China, 2000.\nEl-Sayed, A. A. H.: \"Effect of Drilling Muds Contamination on Cement Slurry Properties\", Fourth Saudi Engineering Conference, pp. 287-295, 1995.\nEzzat, A.M., Rosser, H.R. & Al-Humam, A.A., 1997. ‘Control of Microbiological Activity in Biopolymer-Based Drilling Muds’, SPE paper 39285.\nFadairo Adesina, Adeyemi Abiodun, Ameloko Anthony, Falode Olugbenga, (2012) “Modelling the Effect of Temperature on Environmentally Safe Oil Based Drilling New Technologies in the Oil and Gas Industry Mud Using Artificial Neural Network Algorithm” Journal of Petroleum and Coal 2012, Volume 54, Issue 1.\nFadairo Adesina, Ameloko Anthony, Adeyemi Gbadegesin, Ogidigbo Esseoghene, Airende Oyakhire (2012) “Environmental Impact Evaluation of a Safe Drilling Mud” SPE Middle East Health, Safety, Security, and Environment Conference and Exhibition held in Abu Dhabi, UAE, 2–4 April 2012, SPE-152865-PP\nFosso, S.W., Tina, M., Frigaard, I. A., and Crawshaw, J. P. (2000): \"Viscous-Pill Design Methodology Leads to Increased Cement Plug Success Rates; Application and Case Studies from Southern Algeria\", SPE 62752 presented at the IADC/SPE Asia Pacific Drilling Technology, Kuala Lumpur, Malaysia.\nGursat Altun and Umran Serpen (2005) “Investigating Improved Rheological and Fluid Loss Performance of Sepiolite Muds under Elevated Temperatures” Proceedings World Geothermal Congress, Antalya, Turkey, 24-29 April 2005\nHssiba, K J. and Amani, M. 2013. The Effect of Salinity on the Rheological Properties of Water Based Mud under High Pressures and High Temperatures for Drilling Offshore and Deep Wells Earth Science Research; Vol. 2, 1.\nHussain H. Al-Kayiem et al. (2010): Simulation of the Cuttings Cleaning During the Drilling Operation. American Journal of Applied Science 7(6), p 800-806.\nMahmood Amani and Khaled J. H (2012): Salinity Effect on the Rheological Properties of Water Based Mud under High Pressures and High Temperatures of Deep Wells, SPE-163315-MS presented at SPE Kuwait International Petroleum Conference and Exhibition, 10-12 December, Kuwait City, Kuwait\nNasution, M. M., Rasyid, A., & Pahrudin, G. (2022). Desain Formulasi Lumpur Untuk Pemboran Panas Bumi Di Sumur GG-01. JURNAL BHARA PETRO ENERGI, 1(1), 11-18.\nNelson, E.B. and Guillot, D. (2006): \"Well Cementing\" 2ndEdition, Schlumberger, Sugar Land, Texas.\nRemillard S. C, “Applications of Nanotechnology within the Oil and Gas Industry,” Oil and Gas Review, Vol. 8, 2010, pp. 1-108.Oilfield Glossary\nSachez G; N. León, M. Esclapés; I. Galindo; A. Martínez; J. Bruzual; I. Siegert, (1999) “Environmentally Safe Oil-Based Fluids for Drilling Activities” SPE 52739, Paper presented at SPE/EPA Exploration and Production Environmental Conference held in Austin, Texas.\nTellisi, M., Ravi, K., and Pattillo, P.: \"Characterizing Cement Sheath Properties for Zonal Isolation\", WPC-18-0865 presented at the 18th World Petroleum Congress, Johannesburg, South Africa, September 25 - 29, 2005.\nXiaoqing .H. and Lihui .Z., (2009) “Research on the Application of Environment Acceptable Natural Macromolecule Based Drilling Fluids” SPE 123232, Paper presented at the SPE Asia Pacific Health, Safety, Security and Environment Conference and Exhibition held in Jarkata, Indonesia, 4-6 August 2009.\n ","PeriodicalId":192894,"journal":{"name":"JURNAL BHARA PETRO ENERGI","volume":"165 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2022-12-19","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"JURNAL BHARA PETRO ENERGI","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.31599/bpe.v1i3.1743","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

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Abstract

This project focuses on Investigation of effect of contaminants on the Rheological Properties of Water-based Drilling Mud. For any drilling operation to be termed successful, care must be taken during the selection and application of the drilling fluid which are key factors that should be considered. Any actions contrary to carefully selection and application of drilling fluids could have very dire consequences. Based on the experiment work done on water base mud system to ascertain the effect of contaminants (salt, silica sand, cement and carbonate) on the rheological properties and performance of the mud, it shows that the presence of a contaminant on the drilling mud either reduces or increases the rheological properties of the mud system and in turn affects the rate of penetration, it performance and also poses serious drilling problems. It was observed that the presence of Sodium salt in the mud system increased the fluid loss into the formation. It was further observed that while Apparent Viscosity, Gel Strength increases as the mass increase from 1g to 5g, the pH and Plastic Viscosity almost did not change. The Yield point increases little. With Cement as contaminant, it shows all rheological properties of the mud increased markedly, as the quantity of the cement used is increased from 1g to 5g and the pH does not change. Silica contamination has not showed any marked effect on the nature of the drilling mud. In fact, the more the amount of the contaminant (Silica) is added, the closer it properties are to the blank sample that do not have contaminants. The carbonate effect is largely on the Gel strength which decreases as the amount of added carbonate increases. The pH has no charges, which also means carbonate keeps the mud in it alkaline state, as it was the case with cement. Reference: Ali K., Vipulanandan C., Richardson D. (2013): Salt (NaCl) contamination of the resistivity and plastic viscosity of bentonite drilling mud, Proceedings of the center for innovative grouting materials and technology (CIGMAT) Conference & Exhibition. Bradford, B. B.: "Setting Cement Plugs Requires Careful Planning", Oil & Gas Journal, pp. 102, 1982. Cavanagh, P.H., Johnson, C. R., LeRoy-Delage, S., DeBruijn, G. G., Cooper, I., Guillot, D. J., Bulte, H., and Dargaud, B. (2007): "Self-Healing Cement - Novel Technology to Achieve Leak-Free Wells", SPE-105781 presented at the SPE/IADC Drilling Conference, Amsterdam, The Netherlands, 20-22 February. Chaney P.E, 1942. A Review of recent advances in drilling mud control, Drilling and Production Practice, American Petroleum Institute, 31-46. Charlez P. H and Heugas O. (1991): Evaluation of Optimal Mud Weight In Soft Shale Levels, American rock mechanics association, The 32nd U.S. Symposium on Rock Mechanics (USRMS), 10-12 July, Norman, Oklahoma Chen, C.P. Tan and C. Detournay, (2002), the impact of mud filtration on wellbore stability fracture rock masses, SPE/ISRM 78241 presented at the SPE/ISRM rock mechanics conference held in Irving, Texas Dosunmu .A. and Ogunrinde .J. (2010) “Development of Environmentally Friendly Oil Based Mud using Palm Oil and Groundnut Oil”. SPE 140720. Paper presented at the 34th Annual International Conference and Exhibition in Tinapa-Calabar, Nigeria, July 31st- August 7th, 2010. Dusseault, M.B., Gray, M. N., and Nawrocki, P.A.: "Why Oil wells Leak: Cement Behavior and Long-Term Consequences", SPE 64733 presented at the SPE International Oil and Gas Conference and Exhibition, Beijing, China, 2000. El-Sayed, A. A. H.: "Effect of Drilling Muds Contamination on Cement Slurry Properties", Fourth Saudi Engineering Conference, pp. 287-295, 1995. Ezzat, A.M., Rosser, H.R. & Al-Humam, A.A., 1997. ‘Control of Microbiological Activity in Biopolymer-Based Drilling Muds’, SPE paper 39285. Fadairo Adesina, Adeyemi Abiodun, Ameloko Anthony, Falode Olugbenga, (2012) “Modelling the Effect of Temperature on Environmentally Safe Oil Based Drilling New Technologies in the Oil and Gas Industry Mud Using Artificial Neural Network Algorithm” Journal of Petroleum and Coal 2012, Volume 54, Issue 1. Fadairo Adesina, Ameloko Anthony, Adeyemi Gbadegesin, Ogidigbo Esseoghene, Airende Oyakhire (2012) “Environmental Impact Evaluation of a Safe Drilling Mud” SPE Middle East Health, Safety, Security, and Environment Conference and Exhibition held in Abu Dhabi, UAE, 2–4 April 2012, SPE-152865-PP Fosso, S.W., Tina, M., Frigaard, I. A., and Crawshaw, J. P. (2000): "Viscous-Pill Design Methodology Leads to Increased Cement Plug Success Rates; Application and Case Studies from Southern Algeria", SPE 62752 presented at the IADC/SPE Asia Pacific Drilling Technology, Kuala Lumpur, Malaysia. Gursat Altun and Umran Serpen (2005) “Investigating Improved Rheological and Fluid Loss Performance of Sepiolite Muds under Elevated Temperatures” Proceedings World Geothermal Congress, Antalya, Turkey, 24-29 April 2005 Hssiba, K J. and Amani, M. 2013. The Effect of Salinity on the Rheological Properties of Water Based Mud under High Pressures and High Temperatures for Drilling Offshore and Deep Wells Earth Science Research; Vol. 2, 1. Hussain H. Al-Kayiem et al. (2010): Simulation of the Cuttings Cleaning During the Drilling Operation. American Journal of Applied Science 7(6), p 800-806. Mahmood Amani and Khaled J. H (2012): Salinity Effect on the Rheological Properties of Water Based Mud under High Pressures and High Temperatures of Deep Wells, SPE-163315-MS presented at SPE Kuwait International Petroleum Conference and Exhibition, 10-12 December, Kuwait City, Kuwait Nasution, M. M., Rasyid, A., & Pahrudin, G. (2022). Desain Formulasi Lumpur Untuk Pemboran Panas Bumi Di Sumur GG-01. JURNAL BHARA PETRO ENERGI, 1(1), 11-18. Nelson, E.B. and Guillot, D. (2006): "Well Cementing" 2ndEdition, Schlumberger, Sugar Land, Texas. Remillard S. C, “Applications of Nanotechnology within the Oil and Gas Industry,” Oil and Gas Review, Vol. 8, 2010, pp. 1-108.Oilfield Glossary Sachez G; N. León, M. Esclapés; I. Galindo; A. Martínez; J. Bruzual; I. Siegert, (1999) “Environmentally Safe Oil-Based Fluids for Drilling Activities” SPE 52739, Paper presented at SPE/EPA Exploration and Production Environmental Conference held in Austin, Texas. Tellisi, M., Ravi, K., and Pattillo, P.: "Characterizing Cement Sheath Properties for Zonal Isolation", WPC-18-0865 presented at the 18th World Petroleum Congress, Johannesburg, South Africa, September 25 - 29, 2005. Xiaoqing .H. and Lihui .Z., (2009) “Research on the Application of Environment Acceptable Natural Macromolecule Based Drilling Fluids” SPE 123232, Paper presented at the SPE Asia Pacific Health, Safety, Security and Environment Conference and Exhibition held in Jarkata, Indonesia, 4-6 August 2009.

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研究水从泥中抽取的恒河水物业污染影响

盐度对高压高温海上深井钻井水基泥浆流变性能的影响第2、1卷。Hussain H. al - kayiem et al.(2010):钻井过程中岩屑清洗的模拟。应用科学学报7(6)，p 800-806。Mahmood Amani和Khaled J. H(2012):盐度对深井高压高温下水基泥浆流变性能的影响，SPE-163315- ms在SPE科威特国际石油会议和展览会上发表，12月10-12日，科威特市。Desain Formulasi Lumpur Untuk Pemboran Panas Bumi Di Sumur GG-01石油能源学报，1(1)，11-18。Nelson, E.B.和Guillot, D.(2006):“固井”第2版，斯伦贝谢，Sugar Land, Texas。Remillard S. C，“纳米技术在油气工业中的应用”，《石油与天然气评论》，2010年第8卷，第1-108页。油田词汇;N. León，埃斯克拉帕斯先生;即Galindo;a·马丁内斯;j . Bruzual;I. Siegert，(1999)“环境安全的油基钻井液用于钻井活动”SPE 52739，在德克萨斯州奥斯汀举行的SPE/EPA勘探和生产环境会议上发表的论文。Tellisi, M.， Ravi, K.和Pattillo, P.:“表征层间隔离的水泥环特性”，WPC-18-0865在2005年9月25 - 29日南非约翰内斯堡举行的第18届世界石油大会上发表。小青. h。李辉。(2009)“环境可接受的天然高分子钻井液的应用研究”SPE 123232，发表于2009年8月4日至6日在印度尼西亚雅加达举行的SPE亚太健康、安全、安保与环境会议和展览上。

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