Vijay Saradhi scite author profile

It is a challenge to drill in highly deviated or horizontal holes across the highly depleted formations. Wellbore instability, differential sticking and mud loss are frequently encountered problems while drilling a depleted reservoir in deep HTHP wells in Kuwait. Long-term production caused formation pressures to be highly depleted, and drilling became more challenging with considerable non-productive time. Therefore, it is necessary to identify a fluid’s solution when other options with casing zone isolation are not viable. Traditionally, oil-based mud (OBM) was used while drilling these formations with limited success. A customized fluid system was designed to overcome the issue of high overburden pressure in depleted formations targeting effective bridging, minimizing pore pressure transmission and strengthening the wellbore. A nano-size deformable synthetic polymer, along with sized calcium carbonate and graphite, was identified to effectively plug the pore throats and minimized the fluid invasion, which was confirmed by particle plugging tests. A well section was identified to comingle the highly depleted and pressurized formations. This was the first attempt on a high-angle well with deep drilling operations in Kuwait and was performed to facilitate the successful drilling of the reservoir. Traditional OBM was converted to a customized fluid system using a nano-size polymer and sized bridging additives based on proprietary software selection and series of laboratory tests. Drilling, coring and logging were successfully performed for the first time in the commingle section without incident. There was no wellbore instability or differential sticking tendencies, less torque and drag, as well as enhanced wellbore cleaning in the high-angle sections. This paper also presents the some of the successful applications of the nano-size deformable polymer in OBM to drill highly depleted formations in HTHP wells managing upto 3500 psi overbalalnceacross highly permeable formations.

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Back propagation algorithm using ANFIS controller for wind-DG microgrid

Liyakhath¹,

Reddy²,

Saradhi³

et al. 2017

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Modeling of Laser assisted machining process using Artificial Neural Network

Shashank

Saradhi

Jagadesh

2019

J. Phys.: Conf. Ser.

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Decomposition of Current Through Active Power Filter for Compensating Harmonics Current and Reactive Currents

Saradhi¹

2012

IJRET

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APFs have now become an alternative solution to harmonic filtering technology. APF is to compensate the harmonic currents due to the non linear load .This paper mainly deals with shunt active power filter which has been widely used for harmonic elimination and supplying reactive currents. We can monitor the load continuously by using active power filter. The proposed scheme decomposes the load current into positive and negative sequence fundamental frequency active components, reactive component and harmonic components in modified PQ theory. Estimating reference current signal nonlinear loads, especially power electronics converters based adjustable speed drives, computer power supplies, furnaces etc,by using PQ theory.

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Vijay Saradhi

Prediction of surface roughness and material removal rate in laser assisted turning of aluminium oxide using fuzzy logic

Nanotechnology Improves Wellbore Strengthening and Minimizes Differential Sticking Problems in Highly Depleted Formation

Back propagation algorithm using ANFIS controller for wind-DG microgrid

Modeling of Laser assisted machining process using Artificial Neural Network

Decomposition of Current Through Active Power Filter for Compensating Harmonics Current and Reactive Currents

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