Erratum

Erratum to “Experimental Study on Fracture Conductivity in Hydraulic Fracturing” [IJCESEN 6-1(2020)19-22 doi: 10.22399/ijcesen.570108]

Volume: 7 Number: 1 March 31, 2021
International Journal of Computational and Experimental Science and Engineering Cover
International Journal of Computational and Experimental Science and Engineering
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Erratum to “Experimental Study on Fracture Conductivity in Hydraulic Fracturing” [IJCESEN 6-1(2020)19-22 doi: 10.22399/ijcesen.570108]

Abstract

This paper represent correction of some information previously published paper (IJCESEN 6-1(2020)19-22 doi: 10.22399/ijcesen.570108). The details are given below.

Keywords

References

  1. [1] Kunnath Aven, N., Weaver, J., Loghry, R., & Tang, T. (2013). Long-Term Dynamic Flow Testing of Proppants and Effect of Coatings. Presented at the SPE European Formation Damage Conference & Exhibition, Society of Petroleum Engineers. https://doi.org/10.2118/165118-MS.
  2. [2] Lacy, L. L., Rickards, A. R., & Bilden, D. M. (1998). Fracture Width and Embedment Testing in Soft Reservoir Sandstone. SPE Drilling & Completion, 13(01), 25–29. https://doi.org/10.2118/36421-PA.
  3. [3] Vlis, V. D., C, A., Haafkens, R., Schipper, B. A., & Visser, W. (1975). Criteria For Proppant Placement and Fracture Conductivity. Presented at the Fall Meeting of the Society of Petroleum Engineers of AIME, Society of Petroleum Engineers. https://doi.org/10.2118/5637-MS.
  4. [4] Chao, L., Zhihong, Z., Jianchun, G., & Shengchuan, Z. (2016). Experimental study on conductivity decline with proppant embedment in tight oil reservoir. Petroleum Geology and Recovery Efficiency, 23(4), 122–126.
  5. [5] Wen, Q., Zhang, S., Wang, L., Liu, Y., & Li, X. (2007). The effect of proppant embedment upon the long-term conductivity of fractures. Journal of Petroleum Science and Engineering, 55(3), 221–227. https://doi.org/10.1016/j.petrol.2006.08.010.
  6. [6] Szymanska, J., Wisniewski, P., Wawulska-Marek, P., Malek, M., & Mizera, J. (2016). Selecting key parameters of the green pellets and lightweight ceramic proppants for enhanced shale gas exploitation. In F. Iacoviello, L. Reis, M. Fonte, M. Freitas, & V. Infante (Eds.), Xv Portuguese Conference on Fracture, Pcf 2016 (Vol. 1, pp. 297–304). Amsterdam: Elsevier Science Bv.
  7. [7] Duenckel, R., Moore, N., O’Connell, L., Abney, K., Drylie, S., & Chen, F. (2016). The Science of Proppant Conductivity Testing- Lessons Learned and Best Practices. Presented at the SPE Hydraulic Fracturing Technology Conference, Society of Petroleum Engineers. https://doi.org/10.2118/179125-MS.
  8. [8] API RP 61 - Recommended Practices for Evaluating Short Term Proppant Pack Conductivity | Engineering360. (n.d.). Retrieved June 18, 2017, from http://standards.globalspec.com/std/61555/api-rp-61.

Details

Primary Language

English

Subjects

Engineering

Journal Section

Erratum

Authors

Publication Date

March 31, 2021

Submission Date

February 19, 2021

Acceptance Date

March 31, 2021

Published in Issue

Year 2021 Volume: 7 Number: 1

IZ

https://izlik.org/JA65FU66BW

Cite

RIS / Bibtex
APA
Liang, X. (2021). Erratum to “Experimental Study on Fracture Conductivity in Hydraulic Fracturing” [IJCESEN 6-1(2020)19-22 doi: 10.22399/ijcesen.570108]. International Journal of Computational and Experimental Science and Engineering, 7(1), 45-45. https://izlik.org/JA65FU66BW
AMA
1.Liang X. Erratum to “Experimental Study on Fracture Conductivity in Hydraulic Fracturing” [IJCESEN 6-1(2020)19-22 doi: 10.22399/ijcesen.570108]. IJCESEN. 2021;7(1):45-45. https://izlik.org/JA65FU66BW
Chicago
Liang, Xingyuan. 2021. “Erratum to ‘Experimental Study on Fracture Conductivity in Hydraulic Fracturing’ [IJCESEN 6-1(2020)19-22 Doi: 10.22399 Ijcesen.570108]”. International Journal of Computational and Experimental Science and Engineering 7 (1): 45-45. https://izlik.org/JA65FU66BW.
EndNote
Liang X (March 1, 2021) Erratum to “Experimental Study on Fracture Conductivity in Hydraulic Fracturing” [IJCESEN 6-1(2020)19-22 doi: 10.22399/ijcesen.570108]. International Journal of Computational and Experimental Science and Engineering 7 1 45–45.
IEEE
[1]X. Liang, “Erratum to ‘Experimental Study on Fracture Conductivity in Hydraulic Fracturing’ [IJCESEN 6-1(2020)19-22 doi: 10.22399/ijcesen.570108]”, IJCESEN, vol. 7, no. 1, pp. 45–45, Mar. 2021, [Online]. Available: https://izlik.org/JA65FU66BW
ISNAD
Liang, Xingyuan. “Erratum to ‘Experimental Study on Fracture Conductivity in Hydraulic Fracturing’ [IJCESEN 6-1(2020)19-22 Doi: 10.22399 Ijcesen.570108]”. International Journal of Computational and Experimental Science and Engineering 7/1 (March 1, 2021): 45-45. https://izlik.org/JA65FU66BW.
JAMA
1.Liang X. Erratum to “Experimental Study on Fracture Conductivity in Hydraulic Fracturing” [IJCESEN 6-1(2020)19-22 doi: 10.22399/ijcesen.570108]. IJCESEN. 2021;7:45–45.
MLA
Liang, Xingyuan. “Erratum to ‘Experimental Study on Fracture Conductivity in Hydraulic Fracturing’ [IJCESEN 6-1(2020)19-22 Doi: 10.22399 Ijcesen.570108]”. International Journal of Computational and Experimental Science and Engineering, vol. 7, no. 1, Mar. 2021, pp. 45-45, https://izlik.org/JA65FU66BW.
Vancouver
1.Xingyuan Liang. Erratum to “Experimental Study on Fracture Conductivity in Hydraulic Fracturing” [IJCESEN 6-1(2020)19-22 doi: 10.22399/ijcesen.570108]. IJCESEN [Internet]. 2021 Mar. 1;7(1):45-. Available from: https://izlik.org/JA65FU66BW