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本文(API RP 13D-2010 Rheology and Hydraulics of Oil-well Drilling Fluids (Sixth Edition)《油钻井液体的液流学和水力学.第6版[代替作废标准 API BULL 13D]》.pdf)为本站会员(appealoxygen216)主动上传,麦多课文库仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知麦多课文库(发送邮件至master@mydoc123.com或直接QQ联系客服),我们立即给予删除!

API RP 13D-2010 Rheology and Hydraulics of Oil-well Drilling Fluids (Sixth Edition)《油钻井液体的液流学和水力学.第6版[代替作废标准 API BULL 13D]》.pdf

1、Rheology and Hydraulics of Oil-well Fluids API RECOMMENDED PRACTICE 13D SIXTH EDITION, MAY 2010Rheology and Hydraulics of Oil-well Fluids Upstream Segment API RECOMMENDED PRACTICE 13D SIXTH EDITION, MAY 2010Special Notes API publications necessarily address problems of a general nature. With respect

2、 to particular circumstances, local, state, and federal laws and regulations should be reviewed. Neither API nor any of APIs employees, subcontractors, consultants, committees, or other assignees make any warranty or representation, either express or implied, with respect to the accuracy, completene

3、ss, or usefulness of the information contained herein, or assume any liability or responsibility for any use, or the results of such use, of any information or process disclosed in this publication. Neither API nor any of APIs employees, subcontractors, consultants, or other assignees represent that

4、 use of this publication would not infringe upon privately owned rights. API publications may be used by anyone desiring to do so. Every effort has been made by the Institute to assure the accuracy and reliability of the data contained in them; however, the Institute makes no representation, warrant

5、y, or guarantee in connection with this publication and hereby expressly disclaims any liability or responsibility for loss or damage resulting from its use or for the violation of any authorities having jurisdiction with which this publication may conflict. API publications are published to facilit

6、ate the broad availability of proven, sound engineering and operating practices. These publications are not intended to obviate the need for applying sound engineering judgment regarding when and where these publications should be utilized. The formulation and publication of API publications is not

7、intended in any way to inhibit anyone from using any other practices. Any manufacturer marking equipment or materials in conformance with the marking requirements of an API standard is solely responsible for complying with all the applicable requirements of that standard. API does not represent, war

8、rant, or guarantee that such products do in fact conform to the applicable API standard. Classified areas may vary depending on the location, conditions, equipment, and substances involved in any given situation. Users of this Recommended Practice should consult with the appropriate authorities havi

9、ng jurisdiction. Users of this Recommended Practice should not rely exclusively on the information contained in this document. Sound business, scientific, engineering, and safety judgment should be used in employing the information contained herein. API is not undertaking to meet the duties of emplo

10、yers, manufacturers, or suppliers to warn and properly train and equip their employees, and others exposed, concerning health and safety risks and precautions, nor undertaking their obligations to comply with authorities having jurisdiction. Information concerning safety and health risks and proper

11、precautions with respect to particular materials and conditions should be obtained from the employer, the manufacturer or supplier of that material, or the material safety data sheet. All rights reserved. No part of this work may be reproduced, translated, stored in a retrieval system, or transmitte

12、d by any means, electronic, mechanical, photocopying, recording, or otherwise, without prior written permission from the publisher. Contact the Publisher, API Publishing Services, 1220 L Street, NW, Washington, DC 20005. Copyright 2010 American Petroleum InstituteForeword Nothing contained in any AP

13、I publication is to be construed as granting any right, by implication or otherwise, for the manufacture, sale, or use of any method, apparatus, or product covered by letters patent. Neither should anything contained in the publication be construed as insuring anyone against liability for infringeme

14、nt of letters patent. Shall: As used in a standard, “shall” denotes a minimum requirement in order to conform to the specification. Should: As used in a standard, “should” denotes a recommendation or that which is advised but not required in order to conform to the specification. This document was p

15、roduced under API standardization procedures that ensure appropriate notification and participation in the developmental process and is designated as an API standard. Questions concerning the interpretation of the content of this publication or comments and questions concerning the procedures under

16、which this publication was developed should be directed in writing to the Director of Standards, American Petroleum Institute, 1220 L Street, NW, Washington, DC 20005. Requests for permission to reproduce or translate all or any part of the material published herein should also be addressed to the d

17、irector. Generally, API standards are reviewed and revised, reaffirmed, or withdrawn at least every five years. A one-time extension of up to two years may be added to this review cycle. Status of the publication can be ascertained from the API Standards Department, telephone (202) 682-8000. A catal

18、og of API publications and materials is published annually by API, 1220 L Street, NW, Washington, DC 20005. Suggested revisions are invited and should be submitted to the Standards Department, API, 1220 L Street, NW, Washington, DC 20005, standardsapi.org. iii iContents Page Foreword . iii 1 Scope .

19、 . 1 2 Normative references 2 3 Terms, definitions, symbols and abbreviations . 2 4 Fundamentals and fluid models . 6 4.1 Flow regime principle . . 6 4.2 Viscosity . 7 4.3 Shear stress . 8 4.4 Shear rate . 9 4.5 Relationship of shear stress and shear rate . 11 4.6 Fluid characterization 11 4.7 Newto

20、nian fluids 11 4.8 Non-Newtonian fluids 11 4.9 Rheological models . 12 5 Determination of drilling fluid rheological parameters 13 5.1 Measurement of rheological parameters 13 5.2 Rheological models . 15 6 Prediction of downhole behaviour of drilling fluids 18 6.1 Principle . . 18 6.2 Circulating te

21、mperature predictions in oil-well drilling . 18 6.3 Prediction of downhole rheology of oil-well drilling fluids . 20 6.4 Prediction of downhole density of oil-well drilling fluids 22 7 Pressure-loss modeling 25 7.1 Principle . . 25 7.2 Basic relationships 25 7.3 Surface-connection pressure loss . 26

22、 7.4 Drillstring and annular frictional pressure loss . 27 7.4.1 Principle . . 27 7.4.2 Section lengths for pressure-loss calculations . 27 7.4.3 Fluid velocity 27 7.4.4 Hydraulic diameter 27 7.4.5 Rheological parameters 28 7.4.6 Shear-rate geometry correction factors 28 7.4.7 Shear rate at the wall

23、 . 29 7.4.8 Shear stress at the wall (flow equation) 29 7.4.9 Flow regime . . 29 7.4.10 Critical flow rate . 31 7.4.11 Friction factor . 31 7.4.12 Frictional pressure loss . . 32 7.4.13 Special considerations 33 7.5 Bit pressure loss . . 34 7.6 Downhole-tools pressure loss . 34 7.7 Choke-line pressu

24、re loss 35 7.8 Casing pressure . 35 7.9 Equivalent circulating density (ECD) . 35 8 Swab/surge pressures 36 8.1 Principle . . 36 8.2 Controlling parameters . 36 ii 8.2.1 String speed 36 8.2.2 Displaced fluid 36 8.2.3 Compressibility . 36 8.2.4 Clinging factor . 37 8.2.5 Effective velocity . 37 8.2.6

25、 Pumps on . 37 8.2.7 Drilling fluid properties as a function of pressure and temperature . 37 8.2.8 Frictional pressure loss . 37 8.2.9 Acceleration pressure drop . 37 8.2.10 Breaking the gel 38 8.3 Closed-string procedure 38 8.4 Open-string procedure . 39 8.5 Transient swab/surge analysis 39 9 Hole

26、 cleaning . 40 9.1 Description of the challenge 40 9.2 How cuttings are transported 40 9.2.1 Vertical versus high angle . 40 9.2.2 Forces acting on cuttings 40 9.3 Review of modeling approaches . 41 9.3.1 Vertical and low-inclination wells . 41 9.3.2 High-angle wells 42 9.4 Recommended calculation m

27、ethods 43 9.4.1 Vertical and low-angle wells 43 9.4.2 High-angle wells 44 9.4.3 Impact of drillpipe rotation. 45 9.5 Recommended hole cleaning practices . 46 9.5.1 Guidelines on viscous / dense pills 46 9.5.2 Circulation prior to tripping . 46 9.5.3 Recommended drilling practices 47 9.6 Impact of cu

28、ttings loading on ECD . 47 9.6.1 Vertical and low-angle Wells . 47 9.6.2 High-angle wells 47 9.6.3 Calculation methods . 47 9.7 Barite sag . 47 10 Hydraulics optimization . 49 10.1 Optimization objectives 49 10.1.1 Principle of hydraulic optimization . 49 10.1.2 Maximizing HSI and impact force 49 10

29、.1.3 Maximizing jet velocity . 50 10.1.4 Annular velocity 50 10.2 Calculation . 50 10.3 Reaming while drilling with a pilot-bit configuration 52 10.4 Bit-nozzle selection 52 10.5 Pump-off pressure/force 52 11 Rig-site monitoring . 53 11.1 Introduction . 53 11.2 Measurement of annular pressure loss 5

30、3 11.2.1 Equivalent circulating density . 53 11.2.2 Pumps-off measurements 54 11.2.3 Data formats 54 11.2.4 Drillers logs . 55 11.2.5 Time-based log format. 55 11.3 Validation of hydraulics models 56 11.3.1 Principle . 56 11.3.2 Rigsite calibration . 56 11.3.3 Drillpipe rotation . 56 11.4 Interpreta

31、tion table for downhole pressure measurements . 57 iiiAnnex A . 59 A.1 Well information . 59 A.2 Drilling fluid information . 59 A.3 Wellbore temperature and profile 59 A.4 Wellbore schematic . 60 Annex B . 61 B.1 Downhole density modeling . 61 B.2 Downhole rheology modeling 62 B.2.1 Rheological pro

32、files 62 B.2.2 Results for rheological models 62 Annex C . 63 C.1 Input parameters . . 63 C.2 Pressure loss in drillstring . 63 C.3 Pressure loss in annulus 63 Annex D . 65 D.1 Input parameters . . 65 D.2 Closed-ended case . . 65 D.3 Open-ended case . 65 Annex E . . 67 E.1 Input parameters . . 67 E.

33、2 Hole cleaning in marine riser . 67 E.3 Hole cleaning in vertical casing . 67 E.4 Hole cleaning in open hole section . 68 Annex F 70 F.1 Input parameters . . 70 F.2 Maximum hydraulic impact 71 F.2.1 Maximum hydraulic impact method 71 F.2.2 Maximum hydraulic power method . 72 F.3 Comparison of optim

34、ization methods . 73 Bibliography 74 1 Rheology and hydraulics of oil-well drilling fluids 1 Scope 1.1 The objective of this Recommended Practice (RP) is to provide a basic understanding of and guidance about drilling fluid rheology and hydraulics, and their application to drilling operations. 1.2 T

35、he target audience for this RP covers both the office and wellsite engineer. The complexity of the equations used is such that a competent engineer can use a simple spreadsheet program to conduct the analyses. Given that the equations used herein are constrained by the spreadsheet limitation, more a

36、dvanced numerical solutions containing multiple subroutines and macros are not offered. This limitation does not mean that only the results given by the spreadsheet methods are valid engineering solutions. 1.3 Rheology is the study of the deformation and flow of matter. Drilling fluid hydraulics per

37、tains to both laminar and turbulent flow regimes. The methods for the calculations used herein take into account the effects of temperature and pressure on the rheology and density of the drilling fluid. 1.4 For this RP, rheology is the study of flow characteristics of a drilling fluid and how these

38、 characteristics affect movement of the fluid. Specific measurements are made on a fluid to determine rheological parameters under a variety of conditions. From this information the circulating system can be designed or evaluated regarding how it will accomplish certain desired objectives. 1.5 The p

39、urpose for updating the existing RP, last published in May 2003, is to make the work more applicable to the complex wells that are now commonly drilled. These include: High-Temperature/High-Pressure (HTHP), Extended-Reach Drilling (ERD), and High-Angle Wells (HAW). Drilling fluid rheology is importa

40、nt in the following determinations: a) calculating frictional pressure losses in pipes and annuli, b) determining equivalent circulating density of the drilling fluid under downhole conditions, c) determining flow regimes in the annulus, d) estimating hole-cleaning efficiency, e) estimating swab/sur

41、ge pressures, f) optimizing the drilling fluid circulating system for improved drilling efficiency. 1.6 The discussion of rheology in this RP is limited to single-phase liquid flow. Some commonly used concepts pertinent to rheology and flow are presented. Mathematical models relating shear stress to

42、 shear rate and formulas for estimating pressure losses, equivalent circulating densities and hole cleaning are included. 1.7 The conventional U.S. Customary (USC) unit system is used in this RP. 1.8 Conversion factors and examples are included for all calculations so that USC units can be readily c

43、onverted to SI units. Where units are not specified, as in the development of equations, any consistent system of units may be used. 2 RHEOLOGY AND HYDRAULICS OF OIL-WELL DRILLING FLUIDS 1.9 The concepts of viscosity, shear stress, and shear rate are very important in understanding the flow characte

44、ristics of a fluid. The measurement of these properties allows a mathematical description of circulating fluid flow. The rheological properties of a drilling fluid directly affect its flow characteristics and all hydraulic calculations. They must be controlled for the fluid to perform its various fu

45、nctions. 1.10 This revised document includes some example calculations to illustrate how the equations contained within the document can be used to model a hypothetical well. Due to space constraints, it has not been possible to include a step-by-step procedure for every case. However, the final res

46、ults should serve as a benchmark if the user wishes to replicate the given cases. 2 Normative references The following referenced documents are indispensable for the application of this document. For dated references, only the edition cited applies. For undated references, the latest edition of the

47、referenced document (including any amendments) applies. API Recommended Practice 13B-1/ISO 10414-1, Recommended Practice Standard Procedure for Field Testing Water-based Drilling Fluids API Recommended Practice 13B-2/ISO 10414-2, Recommended Practice Standard Procedure for Field Testing Oil-based Dr

48、illing Fluids API Recommended Practice 13D:2003, Recommended Practice on the Rheology and Hydraulics of Oil-well Drilling Fluids API Recommended Practice 13M/ISO 13503-1, Recommended Practice for the Measurement of Viscous Properties of Completion Fluids 3 Terms, definitions, symbols and abbreviatio

49、ns Symbol Definition Standard Units Conversion Multiplier SI Units A Numerator in Blasius form of friction-factor equation dimensionless - dimensionless A Surface area in 26.4516E+02 mm 2a 1Density correction coefficient for pressure lb m /gal 1.1983E+02 kg/m 3a 2Density correction coefficient for temperature lb m /gal/F 2.1569E+02 kg/m 3 /C A bBit cross-sectional area in 26.4516E+02 mm 2a pPipe acceleration ft/s 23.048E-01 m/s 2B Exponent in Blasius form of friction-factor equation dimensionless - dimensionless b 1Density correction coefficient for pressure lb m /gal/psi 1.7379E-02 kg/

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