Rozdział 2. Optymalizacja rozwiercania złóż niekonwencjonalnych w procesie ich zagospodarowania poprzez dobór gęstości siatki odwiertów

• Autorzy: Szott W. , Miłek K.

Warianty tytułu

EN

Chapter 2. Optimization of unconventional reservoir development by determination of well spacing

• Języki publikacji: PL

Abstrakty

EN

The determination of production well spacing is one of the basic problems of hydrocarbon reservoirs' development optimisation that is particularly important in the situation of unconventional reservoirs, such as shale formations, for which the process of drainage is of the transient type throughout the entire period of production. The analysis of the size and effectiveness of the recovery of wells' drainage areas in such reservoirs, is a very complex issue and cannot only rely on the measurement data, which is necessarily limited in domestic practice. In the studies presented in this chapter we applied simulation reservoir models that ensure the possibility of analysing a broad spectrum of both reservoir conditions (geological parameters) and of completion methods for unconventional reservoirs. First, we constructed and calibrated simulation models of a selected, representative shale formation. Then we defined a set of simulation models for synthetic formations with variable parameters of both types. To determine the size of the drainage zone for a single production well, we proposed a practical definition of such a zone and found multivariate correlations of this size, with geological parameters and parameters of formation completion. Based on the correlations obtained from numerous scenarios simulations of gas production from the shale formations, we worked out a numerical algorithm using these correlations and implemented the algorithm in a software tool. The program was thoroughly tested and its effectiveness was discussed in detail. Finally, a general optimization procedure for the production well spacing in shale formations using the generated software was devised and presented as a conclusion of the studies reported in this chapter.

Słowa kluczowe

PL

złoża niekonwencjonalne; odwierty; optymalizacja

EN

unconventional reservoirs; wells; optimization

• Wydawca: Instytut Nafty i Gazu - Państwowy Instytut Badawczy
• Czasopismo: Prace Naukowe Instytutu Nafty i Gazu
• Rocznik: 2018
• Tom: nr 223, t. 1
• Strony: 68--133
• Opis fizyczny: Bibliogr. 20 poz., rys., tab., wykr.

Twórcy

autor

Szott W.

autor

Miłek K.

Bibliografia

• [1] Cheng Y., McVay D.A., Ayers W.B. et al.: Simulation-Based Technology for Rapid Assessment of Redevelopment Potential in Marginal Gas Fields - Technology Advances and Validation in Garden Plains Field, Western Canada Sedimentary Basin. SPE Reservoir Evaluation & Engineering 2008, vol. 11, no. 3, s. 521-534. SPE-100583-PA. DOI. 10.2118/100583-PA.
• [2] Corrie R.D.: An Analytical Solution to Estimate the Optimum Number of Development Wells to Achieve Maximum Economical Return. Society of Petroleum Engineers. SPE Annual Technical Conference and Exhibition, 30 September - 3 October 2001, New Orleans, Louisiana. DOI. 10.2118/71431-MS.
• [3] Gao H., McVay D.A.: Gas Infill Well Selection Using Rapid Inversion Methods. Paper SPE 90545 presented at the SPE Annual Technical Conference and Exhibition, Houston, Texas, 26-29 September 2004. DOI. 10.2118/90545-MS.
• [4] Guan L., Du Y.: Fast Method Finds Infill Drilling Potentials in Mature-Tight Reservoirs. Paper SPE 91755. SPE International Petroleum Conference in Mexico, Puebla, Mexico, 7-9 November 2004. DOI. 10.2118/91755-MS.
• [5] Guan L., McVay D.A., Jensen J.L. et al.: Evaluation of a Statistical Infill Candidate Selection Technique. Paper SPE 75718. SPE Gas Technology Symposium, Calgary, Alberta, Canada, 30 April - 2 May 2002. DOI. 10.2118/75718-MS.
• [6] Hudson J.W., Jochen J.E., Spivey J.P.: Practical Methods to High-Grade Infill Opportunities Applied to the Mesaverde, Morrow, and Cotton Valley Formations. Paper SPE 68598. SPE Hydrocarbon Economics and Evaluation Symposium, Dallas, Texas, 2-3 April 2001. DOI. 10.2118/68598-MS.
• [7] Mayerhofer M.J. et al.: What Is Stimulated Reservoir Volume?. Society of Petroleum Engineers 2010. SPE Production 8r Operations, vol. 25, issue 01, SPE-119890-PA. DOI. 10.2118/119890-PA.
• [8] McCain W.D., Voneiff G.W., Hunt E.R. et al.: A Tight Gas Field Study: Carthage (Cotton Valley) Field. Paper SPE 26141. SPE Gas Technology Symposium, Calgary, Alberta, Canada, 28-30 June 1993. DOI. 10.2118/26141-MS.
• [9] Newsham K.E., Rushing J.A.: An Integrated Work-Flow Model to Characterize Unconventional Gas Resources: Part I- Geological Assessment and Petrophysical Evaluation. Paper SPE 71351. SPE Annual Technical Conference and Exhibition, New Orleans, Louisiana, 30 September - 3 October 2001. DOI. 10.2118/71351-MS.
• [10] Pakiet Eclipse 300, GeoQuest, Schlumberger, https://www.software.slb.com/products/eclipse; 2017 (dostęp: 15.05.2017).
• [11] Praca zbiorowa. Rzeczpospolita łupkowa. Studium wiedzy o gazie z formacji łupkowych. Prace Naukowe INiG, nr 183, Kraków 2012, s. 310.
• [12] Rushing J.A., Newsham K.E.: An Integrated Work-Flow Model to Characterize Unconventional Gas Resources: Part 77 – Formation Evaluation and Reservoir Modeling. Paper SPE 71352. Annual Technical Conference and Exhibition, New Orleans, Louisiana, 30 September – 3 October 2001. DOI. 10.2118/71352-MS.
• [13] Szott W.: Zastosowanie statystycznych metod projektowanego eksperymentu do probabilistycznej oceny zasobów złóż węglowodorów, Prace INiG 2006, nr 138, s. 1-45.
• [14] Szott W., Miłek K.: Podzadanie nr 2.1: Budowa i kalibracja dynamicznego modelu symulacyjnego wybranej i najbardziej reprezentatywnej formacji łupkowej. Opracowanie INiG - PIB w ramach programu Blue Gas, Krosno 2017, s. 127.
• [15] Tabatabaei N.S.A., Aleagha A.A.V., Salari S.: Estimating Optimum Well Spacing in a Middle East Onshore Oil Field Using a Genetic Algorithm Optimization Approach. Society of Petroleum Engineers. SPE Middle East Oil and Gas Show and Conference, 11-14 March, 2007, Manama, Bahrain. DOI. 10.2118/ 105230-MS.
• [16] Tempest ENABLE v 7.1, Emerson, http://www.emerson.com/en-gb/catalog/roxar-reservoir-engineering-en-gb (dostęp: 15.05.2017).
• [17] Teufel L.W., Chen H.-Y., Engles T.W. et al.: Optimization of Infill Drilling in Naturally-Fractured Tight Gas Reservoirs: Phase Ii, Final Report, Contract No. DOE-FC26-98FT40486. US DOE: Washington, D.C. 2004. DOI. 10.2172/828437.
• [18] Tokunaga H., Hise B.R.: A Method to Determine Optimum Well Spacing. Proceedings of the Society of Petroleum Engineers California Regional Meeting, Santa Barbara, 17-18 November 1966, 7 s. DOI. 10.2118/ 1673-MS.
• [19] Voneiff G.W., Cipolla C.: A New Approach to Large-Scale Infill Evaluations Applied to the Ozona (Canyon) Gas Sands. Paper SPE 35203. Permian Basin Oil and Gas Recovery Conference, Midland, Texas, 27-29 March 1996. DOI. 10.2118/35203-MS.
• [20] Wójcicki A., Kiersnowski H., Dyrka I., Adamczak-Biały T., Becker A., Głuszyński A., Janas M., Kozłowska A., Krzemiński L., Kuberska M., Pacześna J., Podhalańska T., Roman M., Skowroński L., Waksmundzka M.I.: Prognostyczne zasoby gazu ziemnego w wybranych zwięzłych skałach zbiornikowych Polski. PIG - PIB, Warszawa 2014, s. 65.

Uwagi

Opracowanie optymalnych koncepcji zagospodarowania złóż niekonwencjonalnych = Optimum concepts of unconventional reservoir development : praca zbiorowa pod red. Jana Lubasia. T. 1

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).