API TR 10TR1 : 2008

Superseded

Superseded A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.

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CEMENT SHEATH EVALUATION

Available format(s): Hardcopy, PDF

Superseded date: 13-05-2019

Language(s): English

Published date: 11-09-2008

Publisher: American Petroleum Institute

Table of Contents - (Show below) - (Hide below)

1 Introduction
2 Framework - Put Cement Sheath Evaluation in Perspective
3 A Brief Introduction to Cementing
   3.1 Importance of Cement
   3.2 Slurry and Set Cement Properties
   3.3 Mud Removal and the Cement Job
4 Cement Evaluation Tool Types 'Categories'
   4.1 Sonic (and Low-ultrasonic) Evaluation Tools
   4.2 Ultrasonic Evaluation Tools
5 Cement Bond Log (CBL)
   5.1 Amplitude and Attenuation Physics
   5.2 Waveform/Variable Density Physics
   5.3 Key Requirements
   5.4 CBL Presentation
   5.5 CBL Interpretation
   5.6 CBL Quality Control
   5.7 Limitations (Environmental Effects)
6 Compensated Bond Logging Tool (CBT)
   6.1 Attenuation Physics
   6.2 Waveform/Variable Density Physics
   6.3 Key Requirements
   6.4 Compensated Logging Tool Presentation
   6.5 Compensated Logging Tool Interpretation
   6.6 CBL Quality Control
   6.7 Limitations (Environmental Effects)
7 Segmented Bond Log
   7.1 Introduction
   7.2 SBT Physics
   7.3 Waveform/Variable Density Physics
   7.4 Key Requirements
   7.5 SBT Presentation
   7.6 SBT Interpretation
   7.7 SBT Quality Control and Recommendations
   7.8 Limitations (Environmental Effects)
8 Sector Bond Log
   8.1 Introduction
   8.2 SBL Physics
   8.3 SBL Waveform/Variable Density Physics
   8.4 Key Requirements
   8.5 SBL Presentation
   8.6 SBL Interpretation
   8.7 SBL Quality Control and Recommendations
   8.8 SBL Limitations (Environmental Effects)
9 Ultrasonic Cement Evaluation Tools
   9.1 Introduction
   9.2 Ultrasonic Tool Physics
   9.3 Key Requirements
   9.4 Ultrasonic Presentations
   9.5 Ultrasonic Interpretation
   9.6 Ultrasonic Quality Control and Guidelines
   9.7 Ultrasonic Limitations (Environmental Effects)
   9.8 Isolation Scanner Cased-hole Imager
10 The Power and Limitations of the Computer Packages
11 Pitfalls and Misconceptions in Cement Evaluation Practice
12 Tool Selection Criteria/Guidelines
   12.1 Tool Selection Based on the Cement Evaluation Objective
   12.2 Tool Selection Based on the Fluid Inside the Casing
   12.3 Tool Selection Based on the Fluid in the Casing Annulus
   12.4 Tool Selection Based on the Solid in the Casing Annulus
13 Zonal Isolation
   13.1 What is the Objective of the Cement Job?
   13.2 What Does the Other Available Information Suggest About
        Zonal Isolation Quality?
   13.3 What are the Limitations of the Cement Evaluation Took That
        is Being Run?
   13.4 What Remedial Action Will be Undertaken Based Upon the
        Evaluation?
Annex A - Jargon
Annex B - Examples
Annex C - References

Abstract - (Show below) - (Hide below)

Describes how to best incorporate log-interpretation and cementing data into an overall determination of zonal isolation.

General Product Information - (Show below) - (Hide below)

Development Note	Also available in RUSSIAN version, see API 10TR1 RUSSIAN. (03/2012) Also available in Kazakh version, see API 10TR1 KAZAKH. (09/2014)
Document Type	Technical Report
ISBN
Pages
Product Note	This product is unavailable in Cuba, Iran, North Korea, Syria
Published
Publisher	American Petroleum Institute
Status	Superseded
Superseded By	API TR 10TR6 : 2015
Supersedes	API 10TR1 : 1996

Standards Referenced By This Book - (Show below) - (Hide below)

15/30275410 DC : 0	BS EN ISO 16530-1 - PETROLEUM AND NATURAL GAS INDUSTRIES - WELL INTEGRITY - PART 1: LIFE CYCLE GOVERNANCE
API 65-2:2010	ISOLATING POTENTIAL FLOW ZONES DURING WELL CONSTRUCTION
16/30292328 DC : 0	BS ISO 27914 - CARBON DIOXIDE CAPTURE, TRANSPORTATION AND GEOLOGICAL STORAGE - GEOLOGICAL STORAGE
BS ISO 27914:2017	Carbon dioxide capture, transportation and geological storage. Geological storage
API STD 65-PART 2:2010(R2016)	ISOLATING POTENTIAL FLOW ZONES DURING WELL CONSTRUCTION
BS EN ISO 16530-1:2017	Petroleum and natural gas industries. Well integrity Life cycle governance
I.S. EN ISO 16530-1:2017	PETROLEUM AND NATURAL GAS INDUSTRIES - WELL INTEGRITY - PART 1: LIFE CYCLE GOVERNANCE (ISO 16530-1:2017)
API RP 1171 : 2015	FUNCTIONAL INTEGRITY OF NATURAL GAS STORAGE IN DEPLETED HYDROCARBON RESERVOIRS AND AQUIFER RESERVOIRS
ISO 27914:2017	Carbon dioxide capture, transportation and geological storage Geological storage
EN ISO 16530-1:2017	Petroleum and natural gas industries - Well integrity - Part 1: Life cycle governance (ISO 16530-1:2017)
API 96 : 2013	DEEPWATER WELL DESIGN AND CONSTRUCTION
API 90-2 : 2016	ANNULAR CASING PRESSURE MANAGEMENT FOR ONSHORE WELLS
API 100-1 : 2015	HYDRAULIC FRACTURING - WELL INTEGRITY AND FRACTURE CONTAINMENT
API HF1 : 2009	HYDRAULIC FRACTURING OPERATIONS - WELL CONSTRUCTION AND INTEGRITY GUIDELINES
ISO 16530-1:2017	Petroleum and natural gas industries — Well integrity — Part 1: Life cycle governance
CSA Z741 :2012	GEOLOGICAL STORAGE OF CARBON DIOXIDE
CSA Z741 : 2012 : R2017	GEOLOGICAL STORAGE OF CARBON DIOXIDE
API RP 1171:2022+ERR 1:2023	Functional Integrity of Natural Gas Storage in Depleted Hydrocarbon Reservoirs and Aquifer Reservoirs API RECOMMENDED PRACTICE 1171 SECOND EDITION, NOVEMBER 2022 ERRATA 1, SEPTEMBER 2023

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