Author:
Wang Mingchun,Deng Jingen,Li Zhong,Li Mengbo,Xing Zixiao,Zhang Zhe,Yan Chuanliang
Abstract
Introduction: Salt formations are complex and pose significant risks during oil and gas drilling. Creep behavior in salt formations under geostress can jeopardize drilling safety.Methods: This study analyzes the shrinkage behavior of boreholes drilled through salt formations in West Africa’s Block B, with emphasis on the differential creep rates in two horizontal principal stress directions and the evolution of wellbore shape over time. The impact of drilling fluid density on shrinkage rates is also investigated.Results: After drilling through salt formations, the creep rates differ between the two horizontal principal stress directions. Shrinkage is faster in the direction of minimum horizontal principal stress and slower in the direction of maximum horizontal principal stress. Over time, shrinkage rates converge, resulting in a transition from elliptical to circular wellbore shape. Higher drilling fluid density leads to reduced shrinkage rates.Discussion: These findings contribute to the theoretical guidance for drilling fluid density selection in salt formations.
Reference23 articles.
1. Constitutive equations with internal state variables for the inelastic behavior of soft rocks;Aubertin;Appl. Meeh. Rev. ASME.,1994
2. Elasticity and strength of natural rock salts;Fokker,1981
3. A data-driven hyperspectral method for sampling of diagenetic carbonate fabrics-A case study using an outcrop analogue of Jurassic Arab-D reservoirs, Saudi Arabia;Gairola;Mar. Petroleum Geol.,2024
4. Improvement of design of storage cavity in rock salt by using the Hou/Lux constitutive model with consideration of creep rupture criterion and damage;Hou;Chin. J. Geotechnical Engineeing,2003
5. True triaxial tests on cubic rock salt samples-experimental methods and results, finite in elastic deformations-theory and applications;Hunsche,1992