Application of Buckingham Theorem in the Prediction of Sand Production Rate for Unconsolidated Sandstone Reservoirs Bounded by Active Water Aquifer
Abstract
Sand production has been the prime challenge daring the hydrocarbon industry due to its unacceptable influences on oil recovery factor, surface and subsurface production facilities especially in the Niger Delta where the landscape is festooned with unconsolidated sand face. The production of sand reduces the oil recovery volume resulting to deficit economic withdrawal due to shutdown periods for remedial works and replacement cost of damaged equipment. So much exertion has been made on forecasting the sand face breakdown and/or sand production rate, most of these prediction models typified high reliance on geo-mechanistic approach which is hinged on rock mechanism alone. This paper therefore homogenized the rock, reservoir and production data such as compressive strength pressure drawdown, water cut, and production rate, confining pressure, viscosity and sand grain size to develop a simplistic predictive model for sand production rate by applying Buckingham Theorem. The model through its development proved that the collapse of formation sand face does not necessarily translate to sand production but the onset of water-cut triggers sand production. The model was explicit on sand grain size affect on sand production, it nullified the argument expressed in some researches that sand grain size affects sand production; it also showed that viscosity of the fluid is not influential on sand production rate. The model was validated using a real reservoir data from one of the wells in the Niger Delta.
Keywords
Full Text:
PDFReferences
Geilikman, M. B., & Dusseault, M. B. (1997). Fluid-rate enhancement from massive sand production in heavy oil reservoir. Journal of Petroleum Science and Engineering, 17, 5-18
Adeyanju, O. A., & Olafuyi, O. A. (2011). Experimental studies of sand production from unconsolidated sandstone petroleum reservoirs in the Niger Delta. Nigerian Journal of Technology, 30(2), 18-20.
Sunday, I., & Andrew, F. (2010). Sand failure mechanism and sanding parameter in Niger Delta oil reservoir. Journal of Engineering Science and Technology, 2(5), 777-782.
Addis, M. A. (1997). The stress depletion response of reservoirs, presented at SPE Annual Technical Conference and Exhibition San Antonio Texas.
Zhou, S. W., & Sun, F. J. (2016). Sand production for unconsolidated sandstone reservoirs (1st ed). Singapore: John Wiley & Sons, Inc.
Hayavi, M. T., & Abedifar, M. (2017). A sensitivity study of relevant parameters on sand production in unconsolidated reservoirs. Journal of Petroleum and Gas Engineering , 8(7), 49-50.
Osisanya, S. O. (2010). Practical guideline for predicting sand production. Paper presented at the Nigeria Annual International Conference and Exhibition, Tinapa-Calabar, july 2010. SPE-136980-MS.
Wang, H. T., P. Gala, G. P., & Sharma, M. M. (2017). Effects of fluid type and multiple flow on sand production in oil and gas wells. Paper presented at the SPE Annual Technical Conference and Exhibition, San Antonio, Texas, USA, October 2017.
Oluyemi, G. F., & Oyeneyin, M. B. (2010). Analytical critical drawdown (CDD) failure model for real time sanding potential based on Hoek and Brown failure criterion. Journal of Petroleum and Gas Engineering, 12, 16-27.
Musaed N. J. A, Abdel Alim H. E., & Saad El-Din M. D. (1999). Factors affecting sand production from unconsolidated sand stone Saudi Oil and Gas reservoir. J. king Saud University Engineering Science, 11(1), 151-174
Wu, B. L., & Tan, C. P. (2002). Sand production prediction of gas field methodology and field application. Proceedings of the SPE/ISRM Rock Mechanics Conference, Irving, Texas, 20-23 October 2002.
Didi, A. S. (2007) The uniaxial compressive strength of soft rock. Journal of Civil Engineering Dimension, 9(1), 9-14
Pham, S. T. (2017). Estimation of sand production rate using geomechanistic and hydromechanical models. Advances in Materials Science and Engineering.
Bell, F. G., & Culshaw, M. G. (1998). Petrographic and engineering properties of sandstones from the Sneinton formation. Nottingham-Shire, England. Journal of engineering Geology and Hydrogeology, 5-19
Atashi, M. S., Goshtasbi, K., & Basirat, R. (2018). Fluid properties effects on sand Production using discrete element method. Journal of Chemical and Petroleum Engineering, 54(2), 169-179.
Atashi, M. S., Kamran Goshtasbi, & Rouhollah Basirat (2017). The effect of confining pressure on sand production in hydrocarbon reservoirs using discrete element method [Persian]. Journal of rock mechanics.
Rubenstein, D. A., Yin, W., & Mary D. Frame (2021). An Introduction to Fluid Mechanics, Macrocirculation and Microcirculation. A volume in Biomedical Engineering (3rd ed), Chapter 15.
Gupta,G. S., Sarkar, S., Chychko, A., Teng, L. D., Nzotta, M., & Seetharaman, S. (2014). Treatise on process metallurgy. Industrial Process, 3(3), 1100-1144. Elsevier Ltd
DOI: http://dx.doi.org/10.3968/12560
Refbacks
- There are currently no refbacks.
Copyright (c) 2022 Author(s)
This work is licensed under a Creative Commons Attribution 4.0 International License.
Reminder
- How to do online submission to another Journal?
- If you have already registered in Journal A, then how can you submit another article to Journal B? It takes two steps to make it happen:
1. Register yourself in Journal B as an Author
- Find the journal you want to submit to in CATEGORIES, click on “VIEW JOURNAL”, “Online Submissions”, “GO TO LOGIN” and “Edit My Profile”. Check “Author” on the “Edit Profile” page, then “Save”.
2. Submission
- Go to “User Home”, and click on “Author” under the name of Journal B. You may start a New Submission by clicking on “CLICK HERE”.
We only use three mailboxes as follows to deal with issues about paper acceptance, payment and submission of electronic versions of our journals to databases:
caooc@hotmail.com; aped@cscanada.net; aped@cscanada.org
Articles published in Advances in Petroleum Exploration and Development are licensed under Creative Commons Attribution 4.0 (CC-BY).
ADVANCES IN PETROLEUM EXPLORATION AND DEVELOPMENT Editorial Office
Address:1055 Rue Lucien-L'Allier, Unit #772, Montreal, QC H3G 3C4, Canada.
Telephone: 1-514-558 6138
Website: Http://www.cscanada.net
Http://www.cscanada.org
E-mail:office@cscanada.net; office@cscanada.org
Copyright © 2010 Canadian Research & Development Centre of Sciences and Cultures