Handling High-Intensity Brine Influxes Using Flow-While-Drilling FWD Techniques in a Salt Formation in Chinarevskoye Field
Authors
Ato Aidoo; Valeriy Zenzin; Yuriy Kropochev; Konstantin Akulov; Evgenii Vitvitckii; Abylaikhan Arystan; Emil Juchiac; Peter-Joern Palten; Yerlan Amanbayev; Tim Higginson; Diana Amangeldiyeva; Aida Aliyeva
Publisher
IPTC - International Petroleum Technology Conference
Publication Date
March 16, 2021
Source
International Petroleum Technology Conference, March 23–April 1, 2021
Paper ID
IPTC-21407-MS
Abstract
This case study describes the approach taken when drilling an 11 5/8-in. hole section through a salt formation on the Chinarevskoye field in the West Kazakhstan Oblast region where high-intensity brine influxes and subsequent flow had been encountered. The intensity of the brine flow, when encountered, had ranged from 5,000 to 6,000 L/min at an equivalent kick density of 2.2 SG, and it is believed to be among the most intense brine flow experienced in the world during drilling operations.
Standard well control measures proved to be inefficient because of the narrow margin between pore pressure and fracture pressure gradients. Several techniques were applied to combat such influxes in a safe manner with minimum associated nonproductive time (NPT). The high-pressured formation in this hole section is associated not only with brine influxes, but also with losses and gas increase scenarios. As a result, the company adopted unconventional drilling techniques with a combination of planned flow-while-drilling (FWD) and mud-cap drilling techniques to reach total depth (TD).
These two techniques created a viable and cost-effective solution to mitigate such challenges, helped the company to drill to the planned section TD, and consequently complete the well within the defined authorization for expenditure (AFE) without associated NPT. The paper will cover and emphasize techniques, along with details on running casing and cementing the hole section, which required an unconventional approach for success. The paper will also briefly outline the equipment used, such as rotating control devices (RCDs), a choke manifold, and a separator when drilling this section and their limitations. Despite the complications, the well was successfully drilled, and this experience provided an opportunity for learning.
The marked improvements in well control, loss management, and cementation displayed that combining knowledge and experience can reduce the negative impact on well costs when drilling similar cases.