Development of a New Mathematical Model To Quantitatively Evaluate Equilibrium Height of Proppant Bed in Hydraulic Fractures for Slickwater Treatment

abstract

Summary The proppant bed develops and its height grows until it reaches the critical velocity and equilibrium height. This paper proposes a comprehensive mathematical model to evaluate the equilibrium height for slickwater treatment. We use well-accepted published experimental data and models from other groups to validate our model. After that, we investigate the effects of proppant properties and fluid properties on the equilibrium height. This work can provide critical insights to optimize the design of proppant parameters in a hydraulic fracture. Meanwhile, this model can be incorporated into fracture-propagation simulators for simulating proppant transport.

authors

Zuo, Lihua

published proceedings

Society of Petroleum Engineers Journal

author list (cited authors)

Hu, X., Wu, K., Song, X., Yu, W., Zuo, L., Li, G., & Shen, Z.

citation count

18

complete list of authors

Hu, Xiaodong||Wu, Kan||Song, Xianzhi||Yu, Wei||Zuo, Lihua||Li, Gensheng||Shen, Zhonghou

publication date

December 2018

publisher

Society of Petroleum Engineers (SPE) Publisher

published in

SPE JOURNAL Journal

keywords

40 Engineering
4004 Chemical Engineering

Digital Object Identifier (DOI)

10.2118/191360-pa

start page

2158

end page

2174

volume

23

issue

06

URL

http://dx.doi.org/10.2118/191360-pa

Development of a New Mathematical Model To Quantitatively Evaluate Equilibrium Height of Proppant Bed in Hydraulic Fractures for Slickwater Treatment Academic Article

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abstract

authors

published proceedings

author list (cited authors)

citation count

complete list of authors

publication date

publisher

published in

Research

keywords

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Digital Object Identifier (DOI)

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