【正文】 本 科 畢 業(yè) 論 文（ 翻 譯 ） 英文標(biāo)題 Continuous circulation drillingsystem 學(xué)生姓名 學(xué) 號(hào) 教學(xué)院系 專業(yè)年級(jí) 指導(dǎo)教師 職 稱 單 位 輔導(dǎo)教師 職 稱 單 位 完成日期 2022 年 04 月 1 Continuous Circulation Drill String Sub Abstract There is an increasing need to drill difficult reservoirs in a cost effective way. Over the past few years Managed Pressure Drilling (MPD) has made it possible to drill reservoirs which have a narrow window between pore and fracture pressure gradients. Before the introduction of MPD techniques, safely drilling and pleting these formations was very costly and not always successful. Cycling the mud pumps off and on for connections affects the pressure and is a major problem for and equipment have been developed to make a connection while continuing to circulate the drilling mud to maintain constant pressure. Since 2022, the Continuous Circulation System (CCS) has allowed continuous circulation during connections with traditional jointed drill pipe, by using a chamber around the connection. Several panies have developed continuous circulation subs which are threaded between tool joints to achieve continuous circulation without a pressure chamber. These have had varying degrees of success from both an operational and safety standpoint. This paper describes the current MPD market and describes the philosophy adopted for a new sideentry sub. Introduction History was made in July of 2022, when the first continuous circulation chamber was tested in prototype form on a land rig. Jointed drill pipe was separated inside a sealed chamber, which was filled with drilling fluids provided by the mud pumps. The drill string was separated, another joint added, and drilling continued without ever shutting down the mud pumps. After its introduction in 2022, many operators have begun using the continuous circulation chamber as a way to drill undrillable wells, specifically those having “tight” pore pressure and fracture pressure windows. This means that the bottomhole pressure must be very closely controlled at all times (even during connections) to avoid either fracturing the formation, or allowing an influx. The system has worked reliably for the last six , many operators cannot easily acmodate the dedicated crew required to operate the continuous circulation operators weighed the benefits against the increase in drill crew, the obvious solution was to provide the same continuous circulation functionality, with a streamlined package that reduced the footprint on the rig operations. There have been many attempts to create a continuous circulation sub which allows the mud flow into pipe sitting inslips without flowing through the top 2 drive. Many of these attempts have been successful, but have introduced a major safety concern. When looking at continuous circulation chambers, the barrier to prevent fluid from erupting out of the separated connection is typically a gate valve, with replaceable rubber seals. This barrier is replaceable and inspectable before exposing the crew to a potential leak. The recently introduced continuous circulation subs have all introduced a nonreplaceable, noninspected barrier. The rig crew is also responsible for attaching high pressure connections to the sub during all these points in mind, existing continuous circulation subs have presented major safety concerns and reliability new continuous circulation sub is focused on safety, reliability, and being part of the drilling process. The design does not place rig personnel near the highpressure drilling between the highpressure drilling mud and atmosphere is easily removed and inspected between every connection. Each connection is checked for seal integrity before separation. This ensures reliability of the barrier, regardless of how long the sub has been in operation. The entire system is designed with the idea that the driller and existing crew will operate the equipment just as easily as existing floor equipment (ie, iron roughnecks, pipe rackers, etc). The solution aims to bee a standard part of the drilling process。 some key contributing features will be described. With the initial testing phase pleted, the results will also be presented and discussed. The Concept The new continuous circulation sub has been designed with the same attention to detail as the original continuous circulation chamber. It has handsfree connection of the mud bypass, a replaceable barrier, automated connection integrity checks, and integration into the drilling process with the rig crew. Hands free connection – When using the continuous circulation chamber, the drill pipe was fed through several ram type Blow Out Preventer (BOP) style seals. This provided a sealed chamber around the connection. These seals were positioned at well center and were always in position, simply retracted when not in use. This posed a problem during operation, the floor was not clear for access. It is desired to improve the access to the well center when drilling ahead or otherwise not continually circulating. A method of connecting the mud pumps to the side entry sub is no easy task. Some have tried using industry accepted hammerunions, even though blunt force and subsequent sparks should be avoided with high pressure containment and in potentially explosive environments. Others have used threaded plugs, or clampon housings. All of these are potentially exposing the rig crew to increased danger. The new continuous circulation sub is a totally handsfree unit for this reason. The mud is transported from the standpipe using industry accepted swivel joints and piping, to allow movement. The sub is converted from drilling mode to side entry mode using very simple, easy to visually inspect, movements. The