Casing String Research Articles

ОПЫТ ПРИМЕНЕНИЯ ТЕХНОЛОГИИ СПУСКА ОБСАДНОЙ КОЛОННЫ С ПРОРАБОТКОЙ И ПЕРСПЕКТИВЫ РАЗВИТИЯ

ОПЫТ ПРИМЕНЕНИЯ ТЕХНОЛОГИИ СПУСКА ОБСАДНОЙ КОЛОННЫ С ПРОРАБОТКОЙ И ПЕРСПЕКТИВЫ РАЗВИТИЯ

ПОДЪЕМ ПРОДУКЦИИ ПО ЭКСПЛУАТАЦИОННОЙ КОЛОННЕ В НЕФТЕДОБЫВАЮЩИХ СКВАЖИНАХ МАЛОГО ДИАМЕТРА

ПОДЪЕМ ПРОДУКЦИИ ПО ЭКСПЛУАТАЦИОННОЙ КОЛОННЕ В НЕФТЕДОБЫВАЮЩИХ СКВАЖИНАХ МАЛОГО ДИАМЕТРА

Спуск потайной обсадной колонны в горизонтальные стволы большой протяженности многозабойных скважин в условиях возникновения дифференциального прихвата

Спуск потайной обсадной колонны в горизонтальные стволы большой протяженности многозабойных скважин в условиях возникновения дифференциального прихвата

Изменение высоты устья скважин по технологии нарезания резьбы на обсадных колоннах на устье скважин

Изменение высоты устья скважин по технологии нарезания резьбы на обсадных колоннах на устье скважин

A review on casing while drilling technology for oil and gas production with well control model and economical analysis

Abstract The extraction of petroleum fluids from sub-surface accumulations mandates the drilling of a well into the formation containing the accumulation. The drilling techniques have evolved over time to overcome several challenges while some of the issues still prevail with the currently used drilling practices like loss circulation, large tripping time to change bottom hole assembly, stuck pipe problems and low well bore stability, to name a few. These decrease the drilling efficiency and increase the Non-Productive Time (NPT) of this highly capital-intensive industry encouraging the Petroleum Industry to look for new technology. Casing while Drilling (CwD) is a technique of drilling which has been proven to alleviate many of the problems faced while drilling. In this method, drilling and casing of a well bore is carried out simultaneously, which improves the drilling efficiency by reducing the NPT. It has proven to be beneficial in controlling loss circulation and improving wellbore stability by ‘Plastering’ effect, high quality cement job and increased rig floor safety. It uses smaller rig and less fuel thereby reducing carbon footprint in the environment. This paper studies comprehensive well control and casing string design consideration. Economics encourages its application that has been discussed in the paper. A case study on the application of CwD in Malay basin for top hole drilling is presented. Finally, the paper briefly outlines the technical challenges that need attention to get better results from CwD.

Functional Justiciability and the Existence of a Dispute: A Means of Jurisdictional Avoidance?

In the recent Obligations concerning Negotiations relating to Cessation of the Nuclear Arms Race and to Nuclear Disarmament string of cases the International Court of Justice declined jurisdiction by holding that there was no dispute between the parties. This Article examines the Court’s treatment of the existence of a dispute (“EoD”) jurisdictional objection; it does not purport to analyze the Court’s broader reliance on jurisdictional doctrines as a general means of avoiding cases. From a doctrinal perspective, this Article argues that the Court’s interpretation of the EoD objection in those cases is unpersuasive. Instead, the Article contends that the Court has relied on the existence of a dispute objection as a covert or functional justiciability doctrine. That is, as a ground for discretionarily declining jurisdiction or, to borrow a term from private international law, as an escape device. The Article considers that such jurisdictional avoidance may be justified, doctrinally and normatively, as a form of principled avoidance. Normatively, the decision to rely on a procedural technicality to avoid going into the merits of a potentially explosive case may be seen as a valid exercise of judicial self-restraint – and one that can aid the Court navigate the tensions created by increased skepticism of international adjudication. And policy-wise, avoiding a case on a sensible subject-matter that touches on core aspects of defense and national security could be accepted as a way of side-stepping potential backlash.

Thermal wellbore strengthening through managed temperature drilling – Part I: Thermal model and simulation

This paper is the first part of a two-part series introducing a new and innovative managed temperature drilling technique for strengthening the wellbores of challenging oil and gas wells. This technique relies on heat generation within the borehole to increase the effective fracture gradient of near-wellbore zones in oil and gas wells. By releasing heat at exactly the right time and at the right location, the temperature in a near-wellbore zone can be raised, which in turn raises thermal stresses in this zone. This results in “thermal wellbore strengthening”, i.e. an increase in near-wellbore fracture initiation and propagation pressure that can be exploited to prevent or minimize induced mud losses during drilling, cementing and completion operations. As shown in Part II of this series, the heat-release is preferably achieved in a delayed fashion through the use of exothermic “heat-releasing” particles that are circulated to the zone(s) of interest in a dedicated carrier fluid.Part I describes a new computational thermal model for the proposed technique. Using finite volume techniques for an axisymmetric cylindrical geometry including a drillstring/workstring with internal and external fluid spaces, a casing string and a cementing layer (if present), and the rock formation, the model calculates the near-wellbore formation temperature as well as annulus and drill string temperature when a time-dependent and location-dependent heat generation source is acting. Model validation was conducted by comparing the simulation results from the model to analytical solutions as well as results obtained with a commercial software package for simplified cases (1D along the wellbore) with no heat source. Subsequently, near-wellbore temperature distributions were calculated for varying heat generation rates and fluid circulation times, and passed on to a geomechanical model to estimate the magnitude of the thermal strengthening effects on the fracture gradient. Results show that meaningful increases in near-wellbore stress can be obtained by the technique.The thermal wellbore strengthening technique, supported by the new thermal model described here, can be used to minimize lost circulation events and associated well trouble time and cost during drilling, cementing and completion operations, and may be particularly suited for wells with low drilling margins such as (ultra-)deepwater wells.

Safety evaluation of casing string based on BP artificial neural network

In the traditional safety assessment of casing string, some influencing factors are ignored for modelling convenience, which makes the casing string safety assessment effect of oil and gas well not very ideal. For complexity and randomness of casing load and its properties parameters in complex well conditions, BP artificial neural network is created in MATLAB based on the analysis of the influencing factors of casing string security. Casing string section whose safety assessment is more mature is taken as a sample to train the BP neural network. The trained network is applied to make case assessment. At the same time, GUI interface is applied to implement the visualization. The results show that safety evaluation of the casing string can be achieved by using BP neural network. The accuracy of the casing string network safety evaluation is high. It will realize the visualization of safety evaluation and provide more accurate and effective reference for the design of casing string.

Hyperlinking under the lens of the revamped right of communication to the public

For more than a decade now, the right of communication to the public has been developed and interpreted by the CJEU, leading to a complex set of criteria that must be analysed on a case-by-case basis. When confronted with the copyright status of hyperlinking, the Court built upon that background in a string of cases that ended up reshaping the traditional contours of the exclusive right. The practice of linking, an essential element of the Internet and a crucial tool for any online activity carried out by entities and individuals, is now affected by the new scope of the communication to the public right, with direct consequences on the liability hyperlinkers may incur. This article will examine the status of the Court's case law to provide insights that may facilitate its interpretation and application. It will consider in particular how hyperlinkers are exposed to liability and which duties of care result from the Court's approach. It will also examine how the new understanding of hyperlinks from a copyright perspective may be relevant in the context of the proposed Directive on Copyright in the Digital Single Market.

Advancements in Annular-Pressure-Buildup Mitigation for Thunder Horse Wells

SummaryA wide variety of annular-pressure-buildup (APB) -mitigation techniques has been deployed in the past 2 decades. In the early 2000s, BP focused efforts on the development and implementation of rupture disks, nitrified foam spacers, syntactic-foam modules, and vacuum-insulated tubing (VIT). Initiatives to simplify operations while maintaining well integrity have led to innovative techniques that expand the APB-mitigation toolkit.BP's Gulf of Mexico (GOM) Thunder Horse drilling team recently pursued three APB-mitigation techniques. One method is to fully cement the annulus, thereby removing the fluid that is subject to thermal expansion in a trapped annulus. A second method uses a qualified port collar to equalize pressure across a casing string. The third method focuses on better acquisition and use of mud pressure/volume/temperature (PVT) data for a more precise prediction of the APB-design loads.These methods and techniques have led to the removal of syntactic foam from some wells in the Thunder Horse field. The design change reduces installation time and operational complexity during well construction and abandonment.This paper provides a description and technical details concerning the planning and job execution for the fully cemented annulus and the use of port collars for pressure equalization. It also discusses the motivation behind acquiring PVT data specific to a particular mud system, and provides interpretation of laboratory data. The work may be useful for other operators as they plan and execute wells subject to the potential for APB.

Laboratory research on the influence of swelling clay on the quality of borehole cementing and evaluation of clay-cutting wellbore tool prototype

Abstract Swelling clay phenomenon is frequently observed during oil and gas drilling operations and has a significant impact on the quality of cementing procedure. Certain types of clayey minerals increase their volume in contact with water-based drilling fluids. After drilling is completed, borehole remains unsupported and filled with water-based drilling fluids for several hours, before a casing string is inserted and secured with cement. In the period of time between completing the drilling and inserting the casing string the clay can expand hindering proper cementing or blocking the casing string in a wellbore. Filling the annular space between a casing pipe and wellbore walls with cement is crucial for further exploitation of a well. An improper performance of displacement work (primary cementing) may cause both financial losses and environmental damage. The aim of this study is to describe the impact of distorted annular space geometry on cement sheath quality and to examine the possibility of improving the distorted geometry with a prototype wellbore tool. The tool was designed to be mounted as a first pipe section on the casing string (cementing shoe/reamer shoe). Two test stands were designed and constructed. The first one simulates the well cementing process, while the second one simulates the downward movement of the casing pipe in the well (run in hole process) drilled in expansive clay. Six distorted annular space sections were cemented using the first test stand. The sections were scanned with μXCT (computed micro-tomography) to locate discontinuities in the cement sheath. This research has confirmed an adverse influence of annular space obstructions on the cement sheath quality, thus the necessity of removing them before cementing. The obstructions can be removed by means of newly designed clay cutting wellbore tool. Therefore, the prototype of such a tool was tested on the second test stand. The experiment allowed to evaluate an influence of a swollen clay obstruction on the force needed to push the prototype tool through the obstruction. The same experiment was conducted with a standard cementing shoe in order to obtain comparative data. Hole geometry improvement, ability to fragment and remove clay cuttings have been observed. The research has confirmed that the prototype tool efficiently improves the borehole geometry and, consequently, improves the cement sheath quality.

MODERN METHODS OF DRILLING WASTE RECYCLING

The article is devoted to the urgent problem of developing new methods of drilling waste recycling. There described the currently known methods of drilling waste recycling, such as physical, chemical, physicochemical, thermal and biological. Advantages and disadvan-tages of drilling wastes recycling methods used in Russian Federation and abroad are con-sidered. It is shown that the most prospective methods for drilling wastes recycling are methods combining various ways of cleaning and neutralization. There are presented the results of studies of drilling wastes recycling method by obtaining encapsulated materials based on calcium oxide and oil sludge as a hydrophobic agent, recommended for use when plugging casing strings of oil and gas wells. The optimum components ratio is as follows: calcium oxide - 70-80 % by weight, oil sludge - 20-30 % by weight. Also researches results on possibility of application of drilling wastes as the stimulator of plants growth are given. The investigations were carried out both on model solutions of the well drilling fluid and on real drilling waste. Lepidium sativum (cress-salad) was used as a test object for assess-ing the effect of biostimulation. The results obtained show that drilling waste at a concen-tration of 0.5 % by weight can be used as a mineral fertilizer to stimulate the growth of plants, in particular, for industrial enterprises territories detoxification within the bounda-ries of the control zone, as well as for roadside zone arrangement.

CONDITIONS OF A SINGLE INTAKE DESCENDING OF INTERMEDIATE CASING STRINGS OF AN EXCESSIVE WEIGHT COMPARED TO A DERRICK LOAD CAPACITY

The way of the intermediate casing string descending is considered. It allows overcoming the limits of derrick load capacity through the weight transferring descending intermediate casing string on the cemented string that is based on the foundation. In particular, technology is developed where the weight of each additional string, as it builds-up, is equivalent to additional friction forces which arise in the enlarged area. Such a descent technology does not depend on the load capacity of the derrick load capacity, does not create loads on the basis of derricks as well as additional tensile loads in the string with an increase in its length. It is proved that if such a condition is met, all known restrictions for the descent of intermediate columns of any length in a single intake are removed. Authors determined descending casing string weight that is distributed over the previously installed and cemented string. It is suggested to distribute casing string weight on existing and cemented string.

DEFINING THE PUBLIC GOOD IN THE U.S. GILDED AGE, 1883–1898: “FREEDOM OF CONTRACT” VERSUS “INTERNAL POLICE” IN THE TORTURED HISTORY OF EMPLOYMENT LAW AND REGULATION

Long recognized as a case that left tenement cigar workers in New York City unprotected from hazards to their health, the New York State high court'sIn re Jacobsruling in 1885 also raised anew disagreements regarding the extent of legislative powers known as “police” that were reserved to the states by the federal constitution. Upholding unfettered freedom of contract, theJacobsruling prevailed as a governing precedent through a string of related cases until its reversal inHolden v. Hardy, 1898, a working hours law for Utah miners and smelter workers. BetweenJacobsandHolden, new thinking emerged on the meaning of class, the role of government, and the drivers of the wealth of nations. InHolden, drawing fromMunn v. Illinois, the U.S. Supreme Court located a public interest in sustaining the health and strength of such workers on the grounds that the entire public depended on their productive capacity to ensure the public good of a strong and growing state economy. This precedent did not hold for New York State bakers inLochner v. New York, but it became controlling again inWest Coast Hotel v. Parish, which elevated the broadened conception of “police” fromHoldento the national level. As labor union membership along with other vital structures of the New Deal order have declined during the New Gilded Age, employment regulation has tended to relapse toward the individualist, contractarian regime of the Old Gilded Age announced inIn re Jacobs.

MULTISALT BIOPOLYMER MUD FOR WELL CONSTRUCTION AT FIELDS WITH TERRIGENOUS RESERVOIR IN EASTERN SIBERIA

The article presents the analysis of well construction at fields of Eastern Siberia. It contents the characteristics of geological profile, affecting qualities of well construction, especially drilling hazards during wellbore passage through casing string. On the basis of theoretical studies, lab researches and experience of well construction the new drilling mud providing natural permeability of productive formation B10 on theAlinskoe field was developed.

Analysis of Wellhead Uplift in Offshore Thermal Recovery by Using Finite Element Numerical Simulation

Pilot test of complex thermal fluid recovery technology was conducted in NB35-2 heavy oil field. Wellhead uplift was detected among some oil wells, and development of offshore thermal recovery technology could be restricted by the serious safety problems behind. This paper is based on the specific operating conditions of one oil well in the trial block, and the simulation calculation of casing elongation and wellhead uplift are conducted by using finite element analysis. The total casing elongation calculated is 4.2 cm, which is consistent with the field test results. According to the research, we concluded that the wellhead uplift is caused by upper casing elongation. 88% of the total elongation happens in the air and seawater sections. Elongation is lesser in strata and the casing string below 360 m can be considered as anchored.

Design and Surveillance Tools Help Lower Integrity Risks for High-Temperature Wells

This article, written by Special Publications Editor Adam Wilson, contains highlights of paper SPE 184159, “Use of Technical Design and Surveillance Tools To Minimize Operating Integrity Risk in High-Temperature Wells,” by Mirko Zatka, SPE, Shell Canada Energy, prepared for the 2016 SPE International Heavy Oil Conference and Exhibition, Mangaf, Kuwait, 6–8 December. The paper has not been peer reviewed. Thermal-well operations come with significant additional complexity in regard to maintaining wellbore integrity and hydraulic isolation from other formations. This is because of the extreme loads that may be placed on the well casing and liners, caused by the wide set of operating temperatures and pressures the wellbores may experience. To ensure that the wellbores can fulfill their anticipated operating need safely, careful design of the casing, liners, connections, and cement during the project-development phase is an absolute requirement. Background Wells designed for heavy-oil thermal-recovery projects will be exposed to a potentially wide range of operating temperatures. These can exceed 340°C for the deepest heavy-oil-bearing formations and can be as low as 5°C during well workovers. Such a range of operating conditions will cause the casing to yield under compressive conditions, and most likely under tensile conditions also, as it undergoes thermal cycling from the heating and cooling requirements of well operations. A thermal cycle is defined here as the confined casing material being heated to the point that it yields and plastically deforms under a compressive load, followed at some later time by sufficient cooling to force it to yield and plastically deform under a tensile load. This is an operating requirement for which casing and liners are not normally designed in conventional applications but is frequently unavoidable in thermal operations. As a result, consideration of material properties of the tubulars requires a much deeper understanding of the chemistry, manufacturing, and heat-treating processes in order to select the optimal material. Similarly, casing connections play a key role in well integrity, based on their ability to withstand stress cycles in the casing or liner string. Casing-cement composition and placement procedures are also key design parameters because thermal cycling of the casing will expose the cement to very large stresses across the metal/cement bond and potentially can alter the cement properties themselves. In turn, the operating practices applied to wellbores and the operating envelopes used to determine safe limits become keys to long-term integrity and safety.

Опыт строительства скважин с эксплуатационной колонной, составленной из стеклопластиковых обсадных труб, в ПАО «Татнефть»

Опыт строительства скважин с эксплуатационной колонной, составленной из стеклопластиковых обсадных труб, в ПАО «Татнефть»

Анализ процесса бурения скважины под техническую колонну на месторождениях им. Р. Требса и А. Титова

Анализ процесса бурения скважины под техническую колонну на месторождениях им. Р. Требса и А. Титова

Buckling Analysis of Non-cementing Casing String in Borehole

This article is from the cooperation projects of Tarim Oilfield—the sidetracking feasibility analysis of lateral drilling. It analyzed the buckling behavior of non-cementing casing string in the borehole by means of theoretical analysis and modeling analysis. When free section of casing string occurs buckling, casing string bends along the sidewall, leads to additional force and additional bending moment. If casing string’s deformation is too large, it reduces the ability to resist broken of casing string. The study of non-cementing casing string buckling is important to the feasibility of lateral drilling. The free section of casing string is the research objective of this paper. Considering the factors such as self weight of casing string, fluid pressure inside and outside casing, downhole temperature and contact frictional force between casing and shaft lining, the differential equation of buckling is derived by the energy method. The solution of the buckling differential equation has been solved, and the analytical solution of the sinusoidal and spiral buckling of the casing string along the tube column has been obtained. This article analyzed the buckling behavior of non-cementing casing string in the borehole by means of theoretical analysis and finite element analysis. The results show that the difference of the analytical solution and simulation results of the buckling differential equation is <15%.