Prevention of Historically Challenging Sustained Casing Pressure from Shallow Gas Through Re-Engineered Cement Design and Execution Methodology

Abstract Sustained casing pressure (SCP) is a very costly event for any operator either at production phase or at the end of a well’s lifecycle. SCP is a result of incomplete hydraulic isolation across hydrocarbon bearing zone. In one of the gas fields in Malaysia, notoriously known for shallow gas hazard, drilled development wells which have reportedly been suffering SCP. In the past, various improvements in cement slurry design and placement methods were deployed in order to provide complete zonal isolation, especially at the shallow gas sand, yet SCP issue was encountered occasionally. In the current development campaign, different strategy to providing annulus sealing was adopted. This paper discusses proactive steps taken in the slurry design, fit together with the dual stage cementing approach, as a primary means of placing cement above the shallow hazard interval. During the design phase, essential key parameters that would lead to successful placement of cement in the annulus as well as unique slurry design that suits for two stage cementing methods were studied. Risk involved in first stage cementing is one of the most important steps that should be analyzed in detail and put mitigation measures in place to ensure the second stage cement job can be performed as planned. In addition to the slurry properties, such as fluid-loss value, gas-tightness, etc., thickening time and top of cement (TOC) of the lead slurry in the first stage cement job has become enormously critical in designing dual stage cementing job in order to assure cement ports in the stage collar are not covered with hard cement forcing the termination of second stage job prematurely. Besides cementing design, careful selection of the stage collar location and casing annulus packer in the string is also of significant importance in leading to successful two stage cement job. Two development wells with above approached has been delivered and no sustained casing pressure has been experienced. This proactive approach to use two stage cementing as primary plan has proven to successfully eliminate the risk of SCP, which was a frequent struggle in their sister wells drilled with primary cementing in the past in the same field. The risk analysis combined with careful considerations of critical cementing design parameters and selection of stage tool location have become a novel approach to combat against SCP in this gas field.

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Regression equation for selection of design parameters and operating regimes of hydrocyclones used to separate suspensions by dual-stage flotation

Chemical and Petroleum Engineering ◽

10.1007/s10556-007-0114-9 ◽

2007 ◽

Vol 43 (11-12) ◽

pp. 639-646

Author(s):

V. O. Yablonskii

Keyword(s):

Regression Equation ◽

Design Parameters ◽

Dual Stage ◽

Operating Regimes ◽

Selection Of

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A Breakthrough Approach to Solve Shallow Gas Hazards in Corrosive Carbon Dioxide Wells

10.2523/iptc-21301-ms ◽

2021 ◽

Author(s):

Yi Li ◽

Solim Ullah Mohammad ◽

Wu chang Ai ◽

Avinash Kishore Kumar ◽

Lau Chee Hen ◽

...

Keyword(s):

Carbon Dioxide ◽

Gas Flow ◽

Shallow Gas ◽

Security Issues ◽

Sustained Casing Pressure ◽

Zonal Isolation ◽

Primary Cementing ◽

Carbon Dioxide Co2 ◽

Casing Pressure

Abstract In offshore Malaysia field, several development wells were drilled and cemented in 2019. The presence of shallow gas zone directly below the surface casing shoe posed a significant challenge to isolate shallow gas flow. A High presence of carbon dioxide (CO2) also increased the complexity of the cementing jobs by potentially corroding the set cement sheath. Wells with sustained casing pressure due to poor cementing jobs would causelosses to hydrocarbon reserves, while polluting aquifers with hydrocarbon and well security issues. It was crucial to prevent remedial cementing work, due to unnecessary and costly non-productive time. The objective of primary cementing is to achieve long term zonal isolation across the gas reservoir. A bespoke engineered cementing solution was successfully developed in order to provide a solution to assure long term zonal isolation for shallow gas flow. This paper will describe in detail about the cementing method, how it fits the well situation, the methodology in the slurry design, and thevalidation process in the lab with a novel, uncommon method in the industry, capped off by the post-cementing results analysis. This technology was proven as a solution for shallow gas well cementing and long-term zonal isolation, which is a great referencefor the cementing industry.

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Annular Barrier as an Alternative to Squeezes in Challenging Wells: Technology Review and Case Histories

10.2118/afrc-2583084-ms ◽

2016 ◽

Author(s):

Joseph Bagal ◽

Gbenga Onadeko ◽

Paul Hazel ◽

Vibjørn Dagestad

Keyword(s):

Hydraulic Pressure ◽

Case Histories ◽

Regulatory Requirements ◽

Pump Failure ◽

Advantages And Disadvantages ◽

Second Stage ◽

Well Integrity ◽

Open Hole ◽

Sustained Casing Pressure ◽

Casing Pressure

ABSTRACT The drilling industry has always relied on cement as a primary barrier. Although the cement represents about 5% of the well cost, when squeezes are required, cementing averages 17% of the well cost. Only 50% of the squeezes achieve the objective of establishing a barrier for well integrity. A little bit more than half of the failures can be attributed to operational challenges (pump failure, cement contamination), or design oversights (cement recipe, centralizers). However there are still cement failures with perfect design and field execution. These failures typically exhibit some of the following characteristics: high deviation, high pressure, washouts, natural fractures, long casing section, heterogeneous sands. For these specific conditions, it is beneficial to add an assurance that would maintain the integrity of the well even in case of bad cement. Some of the assurances used include port collars, external casing packers (ECP) and swell packers. Port collars allow a squeeze above the first stage cement, while ECP serves as a base for a second stage cement, and swell packers provides a baffle for sustained casing pressure. A more recent technology is the well annular barrier that can form a combined barrier with cement, and can also be used as a stand-alone primary barrier. The well annular barrier is a metal-expandable barrier that is expanded with hydraulic pressure. It is full bore, highly customizable, and qualified to ISO 14310. The metallurgy allows the packer to shape fit into either an open hole with irregular geometry or inside a casing to preclude annular pressure build up by giving a life-of-well reliable seal. The well annular barrier has been deployed in a variety of wells to achieve well integrity with and without cement, protect the B-annulus from sustained casing pressure, or serve as a barrier between reservoirs that cannot be commingled. This paper performs a review of the technologies used for cement assurance, their advantages and disadvantages. Case histories of well annular barrier deployments are presented, including a case where the well annular barrier was used as a stand-alone well barrier element without the need for dispensation. This paper also discusses how the well annular barrier fits into the regulatory requirements for well construction providing to the drilling industry an alternative to cement for the purpose of well integrity.

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METHOD OF SELECTION COWS FOR MILKING ON A ROBOTIC INSTALLATION

Scientific Notes Kazan Bauman State Academy of Veterinary Medicine ◽

10.31588/2413-4201-1883-245-1-210-214 ◽

2021 ◽

Vol 245 (1) ◽

pp. 210-214

Author(s):

R.R. Khisamov ◽

◽

L.R. Zagidullin ◽

R.R. Kayumov ◽

I.V. Lomakin ◽

...

Keyword(s):

Milk Yield ◽

Main Group ◽

New Method ◽

Economic Research ◽

Two Stage ◽

Second Stage ◽

Robotic Milking ◽

Selection Of

A new method of selecting cows for milking on a robotic milking installation is presented. The method includes a two-stage selection of first lactation cows. At the first stage, first-calf heifers are selected according to the optimal requirements for the udder. At the second stage, animals se-lected according to the number of voluntary milking. Animals that have this indicator less than the average for the herd by 1 sigma are rejected from the herd. Economic research has been carried out to test the method. It was found that 11 % of first-calf heifers were assigned to the cull group. They were milked 28.5 % less than animals of the main group. First-calf heifers of the main group surpass their peers in the culling group in terms of milk yield by 42.2 %.

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Pelestarian Wayang Golek di Padepokan Giri Harja Jelekong Kabupaten Bandung Jawa Barat 2009-2018

Historia Madania: Jurnal Ilmu Sejarah ◽

10.15575/hm.v3i2.9176 ◽

2020 ◽

Vol 3 (2) ◽

pp. 201-213

Author(s):

Nitri Anhari Muflihatul Salma ◽

Tarpin Tarpin

Keyword(s):

Boarding School ◽

West Java ◽

Historical Method ◽

Second Stage ◽

The Third ◽

The Past ◽

Third Stage ◽

Parking Lot ◽

Puppet Show ◽

Selection Of

This study discusses Padepokan Giri Harja in wayang golek in West Java. The selection of Padepokan to be studied is very important because it has influence and role in the preservation of puppet shows in Jelekong village, West Java. The purpose of this study is the first to: find out the history and development of Padepokan Giri Harja, know Gait Asep Sunadar Sunarya in the development of Padepokan Giri Harja, and know Padepokan Giri Harja in preserving Wayang Golek The method used in this study is the historical method, which is a method that reconstructs history by studying events in the past. There are four stages in this method, the first stage of Heuristics is the search for sources, the second stage of criticism namely internal criticism and external criticism, the third stage of interpretation, i and the fourth stage of historiography. The results of this study indicate that the founder of Padepokan Pusaka Giri Harja was Abah Sunarya. This Padepokan is a place for puppet puppet puppetry course. This Padepokan is located in Jelekong village, Ciparay Subdistrict, Bandung Regency, West Java. Many of his students later became successful puppeteers, including his own children. Abeng Sunarya was once a member of the management of the Bandung Regency Pedalangan and Pepadi Foundation. After Abah Sunarya died, the heritage of Giri Harja was continued by her son, Asep Sunandar Sunarya, better known as Giri Harja 3 or Abah Asep. Abah Asep developed this Heritage of Giri Harja so well that he had the desire to build a hermitage to make it easier for people who wanted to practice puppet show. The presence of Padepokan Seni Padalangan Giri Harja is one of the icons of the art village. The permanent building with the shape of a typical gunungan roof of wayang golek stands majestically on Jalan Raya Laswi, across the Bandung-Majalaya region, West Java, which is equipped with a large parking lot. The famous puppeteer Asep Sunandar Sunarya (deceased) planned the building to become the Padepokan Seni Boarding School Padalangan that scored reliable puppeteers as well as a form of preservation and inheritance of puppet show art to the younger generation.

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Integrated FAHP-VIKOR model for green supplier selection in a Nickle coating SME

WEENTECH Proceedings in Energy ◽

10.32438/wpe.0602126 ◽

2020 ◽

pp. 133-139

Author(s):

Sanatan Ratna ◽

B Kumar

Keyword(s):

Staff Training ◽

Supplier Selection ◽

Fuzzy Ahp ◽

Research Work ◽

Supplier Evaluation ◽

Green Supplier Selection ◽

The Past ◽

Coating Industry ◽

Sustainability Issue ◽

Selection Of

In the past few decades, there has been lot of focus on the issue of sustainability. This has occurred due to the growing concerns related to climate change and the growing awareness about environmental concerns. Also, the competition at global level has led to the search for the most sustainable route in the industries. The current research work deals with the selection of green supplier in a Nickle coating industry based on certain weighted green attributes. For this purpose, a hybrid tool comprising of Fuzzy AHP (Fuzzy Analytical Hierarchy) and VIKOR (VlseKriterijumska Optimizacija I Kompromisno Resenje) is used. The Fuzzy AHP is used for assigning proper weights to the selected criteria for supplier evaluation, while VIKOR is used for final supplier selection based on the weighted criteria. The three criterions for green supplier selection are, Ecological packaging, Corporate socio-environmental responsibility and Staff Training. The outcome of the integrated model may serve as a steppingstone to other SMEs in different sectors for selecting the most suitable supplier for addressing the sustainability issue.

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