Open Access
Issue |
E3S Web Conf.
Volume 185, 2020
2020 International Conference on Energy, Environment and Bioengineering (ICEEB 2020)
|
|
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Article Number | 01076 | |
Number of page(s) | 4 | |
Section | Energy Engineering and Power System | |
DOI | https://doi.org/10.1051/e3sconf/202018501076 | |
Published online | 01 September 2020 |
- TURNER, R G, HUBBARD, M G, DUKLER, A E. (1969) Analysis and prediction of minimum flow rate for the continuous removal of liquids from gas wells. Journal of Petroleum Technology, 21(11): 1475–1482. [CrossRef] [Google Scholar]
- Coleman, S B. (1991) A New Look at Predicting Gas Well Load Up. JPT, 329–333. [CrossRef] [Google Scholar]
- Nosseir, M A. (1997) A New Approach for Accurate Prediction of Loading in Gas Well Under Different FlowingConditions. SPE 37408. [Google Scholar]
- Li,M, Sun, L, Li,S L,et al. (2001) New view on continuous removal Liquids from Gas Wells. SPE 70016. [Google Scholar]
- Dai, Y L, Hu, Y Y, Zhang, C Y. (2016) Study on the law of fluid transport in gas Wells. Liaoning chemical industry, 45(06):779–781. [Google Scholar]
- Wang, Y Z, Liu, Q W (2007). A new method for calculating the minimum fluid critical flow in gas Wells. Daqing Petroleum Geology and Development, 26 (6): 82–85. [Google Scholar]
- Xiong, Y,Zhang, M M, Lu, Y. (2015) A forecasting gas well both liquid continuous critical condition of universal model. Water dynamics research and progress in A series, 30 (02): 215–222. [Google Scholar]
- Du, S J, Liang, Y, Wang, W J, Qiu, D J. (2019) A new model for predicting the critical fluid flow in inclined gas Wells. Journal of petroleum and natural gas chemistry, 48(03):72–77. [Google Scholar]
- Ming,R Q, et al. (2019) Ageneral model for predicting the critical fluid carrying rate in condensate Wells.Drilling and Production Technology, 42(6): 69–72 [Google Scholar]
- Yang, J S. Basis of Gas recovery process. (1994) Beijing: Petroleum Industry Press, 330–334. [Google Scholar]
- Chen,Y Q. (1990) Practical method of Oil and Gas reservoir Engineering. Beijing: Petroleum Industry Press, 442–452. [Google Scholar]
- Wang, Z B, LI, Y C. (2012) Mechanism of continuous liquid transport in gas Wells. Acta Petroleum Sinica 33(4): 681–686. [Google Scholar]
- BARATI, R. Development of empirical models with high accuracy for estimation of drag coefficient of flow around a smooth sphere: An evolutionary approach. Powder Technology, 2014, (257): 11–19. [Google Scholar]
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