Analysis of impact load on tubing and shock absorption during perforating

Qiao, Di; Zhang, H.; Li, Jun; Hou, Xuejun; Wang, Hao

doi:10.1515/phys-2019-0022

Cited by 7 publications

(3 citation statements)

References 13 publications

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“…This is the formation of dynamic shock loads in the wellbore, which has an impact on wellbore safety. and *SECTION SOLID ALE to define the fluid-solid coupling, using *CONTROL_TERMINATION and *CONTROL_TIMESTEP to define the simulation time and the output step of the model calculation [35].…”

Section: Computing Resultsmentioning

confidence: 99%

“…The final model can be imported to the LS-DYNA in the form of K file, which the model parameters are defined by keywords. *INCLUDE and * INCLUDE TRANSFORM can be used to import the meshed models, using *INITIAL_DETONATION to define the detonation point and initiation time, using *ALE_MULTI -MATERIAL_GROUP to define the material of fluid field grids which can flow in each other, using *CONTACT_ERODING_SURFACE_TO_SURFACE to define the erosive face to face contact algorithm, using the keyword *CONSTRAINED_LAGRANGE_IN_SOLID and *SECTION SOLID ALE to define the fluid-solid coupling, using *CONTROL_TERMINATION and *CONTROL_TIMESTEP to define the simulation time and the output step of the model calculation [35].…”

Section: Modeling and Meshingmentioning

confidence: 99%

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Study of Downhole Shock Loads for Ultra-Deep Well Perforation and Optimization Measures

Qiao

Zhang

et al. 2019

Energies

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Ultra-deep well perforation is an important direction for the development of unconventional oil and gas resources, the security with shock loads is a difficult technical problem. Firstly, the theoretical analysis of perforated string is carried out, the dynamics models of which are established in the directions of axial, radial and circumferential. Secondly, the process of perforating with hundreds of bullets is simulated by using the software of LS-DYNA (ANSYS, Inc, Pennsylvania, USA). The propagation attenuation model of shock loads is established, and a calculation model to predict shock loads at different positions of the tubing interval has been fitted by considering multiple factors. The dynamic response of perforated string is studied, and the vulnerable parts of which are found out. Thirdly, the optimization measures are put forward for ultra-deep well perforation by the design of shock adsorption and safety distance of the packer. Finally, the field case of an ultra-deep well shows that the research method in this paper is practical, and the optimization measures are reasonable and effective. This study can provide important guidance to reduce shock damage and improve security for ultra-deep well perforation.

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Section: Computing Resultsmentioning

confidence: 99%

Section: Modeling and Meshingmentioning

confidence: 99%

Study of Downhole Shock Loads for Ultra-Deep Well Perforation and Optimization Measures

Qiao

Zhang

et al. 2019

Energies

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“…Assuming that a certain proportion of explosive energy will be converted into wellbore fluid internal energy, a certain increment of pressure can be produced in the wellbore. After perforation, the wellbore pressure is obtained as [23]:…”

Section: Empirical Formulas Of Perforation Pressurementioning

confidence: 99%

Numerical Investigation of Downhole Perforation Pressure for a Deepwater Well

Qiao

Zhang

et al. 2019

Energies

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During the production of deepwater wells, downhole perforation safety is one of the key technical problems. The perforation fluctuating pressure is an important factor in assessing the wellbore safety threat. Due to difficulty in describing the downhole perforation pressure by using the existing empirical correlations, a prediction model based on data fitting of a large number of numerical simulations has been proposed. Firstly, a numerical model is set up to obtain the dynamic data of downhole perforation, and the exponential attenuation model of perforation pressure in the wellbore is established. Secondly, a large number of numerical simulations have been carried out through orthogonal test design. The results reveal that the downhole perforation pressure is logarithmic to the total charge quantity, increases linearly to the wellbore initial pressure, shows an exponential relationship with downhole effective volume for perforation, and has a power relationship with the thickness of casing and cement as well as formation elastic modulus. Thirdly, the prediction of perforation peak pressure at different positions along the wellbore agrees well with the field measurement within a 10% error. Finally, the results of this study have been applied in the field case, and an optimization scheme for deepwater downhole perforation safety has been put forward.

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