Successful Case History of Drilling Through Major Loss Zone Using MPD/PMCD Techniques on a Santos Basin Well

Drilling fluids play great importance to the success of MPD (Managed Pressure Drilling) and MCD (Mud Cap Drilling) operations. On MPD projects, the correct design of the drilling fluids properties, such as, density, rheology, anchor point position and compatibility should be precisely adjusted in order to operate in good and safe performance, especially in a statically underbalance MPD projects. Exceptional importance should be addressed to the initial mud density to provide useful capacity to carry out a Dynamic Porous Pressure Test (DPPT). MCD operations require a suitable drilling fluid project due gas migrations, costs and cuttings transportation issues, related to LAM (light annular mud) and sacrificial (SAC) fluids. The objective of this paper is to present the lessons learned in drilling fluid projects during MPD and MCD operations in Brazil's offshore wells. The study will focus on desired properties, simulations, adjusted hydraulics models, formulations and involved costs, considering water and olefin based drilling fluids.

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Lessons Learned in Drilling Fluids Projects during MPD and MCD Operations in Brazil's Offshore Wells

Teixeira

Fabri

Almeida

et al. 2017

Day 1 Tue, March 28, 2017

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Strategic Evaluation of MPD Application on DP Rigs

Aranha

Fernandes

Vanni

et al. 2017

Day 1 Tue, March 28, 2017

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In recent years, PETROBRAS has been using MPD (SBP/MCD) technology in ultradeepwater scenarios at development and exploratory wells. Although MPD techniques are an advance over conventional drilling, it also brings more complexity to the operation and, in some cases, increases the duration and costs of the interventions when compared to conventional drilling. Ideally, the rigs equipped with MPD system should only be used in wells, or in specific phases of the well, that requires MPD to conclude or where the NPT associated with fluid losses is considerable. In these scenarios, the extra costs and extra time necessary are negligible, compared to the NPT avoided, and the alternative would be not to reach target depth or drill the well. Geomechanics, pore pressure estimation and loss zone identification are not an exact science. There is always an uncertainty in predicting MPD (SBP/MCD) demand, pushing the development of techniques and strategies to optimize the allocation of MPD rigs in wells where the NPT would be so high that the use of the MPD is advantageous, or, where MPD is an enabler of well construction. This paper describes a probabilistic analysis developed to support the determination of MPD (SBP/MCD) demand, calculating the optimum number of rigs to be equipped with MPD (SBP/MCD) and RCD system, and which intervention strategy is the most cost effective for a development campaign, based on historic results.

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Realizing Rig Integration: Implementing Deepwater MPD Technology in 6th Generation Ultra-Deepwater Drillships

Gouldin¹,

Lancaster

Boutalbi

et al. 2017

Day 1 Tue, March 28, 2017

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Technology integration is not complete without ownership. In light of the numerous challenges associated with deepwater plays all over the world, the most recent generation of ultra-deepwater drillships have more thoroughly considered the integration of managed pressure drilling (MPD) technology into the rigs. In the interest of accelerating technology integration of MPD in deepwater environments, essential equipment that enables the technique and its associated methodologies was recently offered for ownership by service companies to drilling contractors. Two (2) state-of-the-art dynamically positioned (DP3) drillships have successfully integrated MPD via ownership into their rig systems. This paper focuses on the process that was undertaken to realize rig integration for these drilling rigs, as well as on the challenges that were faced and the solutions developed to surmount them. More importantly, it discusses the outcome of the pioneering MPD rig integration projects and the lessons that were learned along the way, so that future projects are able to build on them. Lastly, it covers the substantial advantages and benefits that MPD equipment ownership, instead of traditional equipment rental, brings to the service companies, drilling contractors and operators.

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Successful Case History of Drilling Through Major Loss Zone Using MPD/PMCD Techniques on a Santos Basin Well

Cited by 13 publications

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Lessons Learned in Drilling Fluids Projects during MPD and MCD Operations in Brazil's Offshore Wells

Lessons Learned in Drilling Fluids Projects during MPD and MCD Operations in Brazil's Offshore Wells

Strategic Evaluation of MPD Application on DP Rigs

Realizing Rig Integration: Implementing Deepwater MPD Technology in 6th Generation Ultra-Deepwater Drillships

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