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本文(EN 14067-6-2010 1875 Railway applications - Aerodynamics - Part 6 Requirements and test procedures for cross wind assessment《轨道交通 空气动力学 第6部分 侧风评估用要求和试验程序》.pdf)为本站会员(figureissue185)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!

EN 14067-6-2010 1875 Railway applications - Aerodynamics - Part 6 Requirements and test procedures for cross wind assessment《轨道交通 空气动力学 第6部分 侧风评估用要求和试验程序》.pdf

1、BS EN14067-6:2010ICS 45.060.01NO COPYING WITHOUT BSI PERMISSION EXCEPT AS PERMITTED BY COPYRIGHT LAWBRITISH STANDARDRailway applications AerodynamicsPart 6: Requirements and testprocedures for cross wind assessmentCopyright European Committee for Standardization Provided by IHS under license with CE

2、NNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-This British Standardwas published under theauthority of the StandardsPolicy and StrategyCommittee on 28 February2010 BSI 2010ISBN 978 0 580 58233 2Amendments/corrigenda issued since publicationDate CommentsBS EN 140

3、67-6:2010National forewordThis British Standard is the UK implementation of EN 14067-6:2010.The UK participation in its preparation was entrusted to TechnicalCommittee RAE/1/-/4, Railway Applications - Aerodynamics.A list of organizations represented on this committee can be obtained onrequest to it

4、s secretary.This publication does not purport to include all the necessary provisionsof a contract. Users are responsible for its correct application.Compliance with a British Standard cannot confer immunityfrom legal obligations.Copyright European Committee for Standardization Provided by IHS under

5、 license with CENNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-BS EN 14067-6:2010EUROPEAN STANDARD NORME EUROPENNE EUROPISCHE NORM EN 14067-6 January 2010 ICS 45.060.01 English Version Railway applications - Aerodynamics - Part 6: Requirements and test procedures

6、 for cross wind assessment Applications ferroviaires - Arodynamique - Partie 6 : Exigences et procdures dessai pour lvaluation de la stabilit vis-vis des vents traversiers Bahnanwendungen - Aerodynamik - Teil 6: Anforderungen und Prfverfahren fr die Bewertung von Seitenwind This European Standard wa

7、s approved by CEN on 24 October 2009. CEN members are bound to comply with the CEN/CENELEC Internal Regulations which stipulate the conditions for giving this European Standard the status of a national standard without any alteration. Up-to-date lists and bibliographical references concerning such n

8、ational standards may be obtained on application to the CEN Management Centre or to any CEN member. This European Standard exists in three official versions (English, French, German). A version in any other language made by translation under the responsibility of a CEN member into its own language a

9、nd notified to the CEN Management Centre has the same status as the official versions. CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania

10、, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland and United Kingdom. EUROPEAN COMMITTEE FOR STANDARDIZATION COMIT EUROPEN DE NORMALISATION EUROPISCHES KOMITEE FR NORMUNG Management Centre: Avenue Marnix 17, B-1000 Brussels 2010 CEN A

11、ll rights of exploitation in any form and by any means reserved worldwide for CEN national Members. Ref. No. EN 14067-6:2010: ECopyright European Committee for Standardization Provided by IHS under license with CENNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-BS

12、EN 14067-6:2010EN 14067-6:2010 (E) 2 Contents Page Foreword 7Introduction .81 Scope 92 Normative references 93 Terms and definitions .94 Symbols and abbreviations 95 Methods to assess cross wind stability of vehicles . 135.1 General . 135.2 Applicability of cross wind methodologies for rolling stock

13、 assessment purposes 135.3 Determination of aerodynamic coefficients . 145.3.1 General . 145.3.2 Predictive equations . 145.3.3 Simulations by Computational Fluid Dynamics (CFD) . 165.3.4 Reduced-scale wind tunnel measurements . 185.4 Determination of wheel unloading 235.4.1 General . 235.4.2 Simple

14、 method using a two-dimensional vehicle model (three mass model) 235.4.3 Advanced quasi-static method 265.4.4 Time-dependent MBS method using a Chinese hat wind scenario . 295.5 Presentation form of characteristic wind curves (CWC) 375.5.1 General . 375.5.2 CWC presentation form for passenger vehicl

15、es and locomotives 375.5.3 CWC presentation form for freight wagons . 396 Method to acquire the needed railway line data 406.1 General . 406.2 Presentation form of railway line data 406.2.1 General . 406.2.2 Plan profile 406.2.3 Vertical profile . 416.2.4 Track design speed 426.2.5 Walls . 436.2.6 M

16、eteorological input data for line description . 436.2.7 Integrated line database . 446.2.8 Required minimum resolution/accuracy 467 Methods to assess the wind exposure of a railway line . 468 Methods to analyse and assess the cross wind risk 469 Required documentation . 479.1 General . 479.2 Assessm

17、ent of cross wind stability of passenger vehicles and locomotives . 479.3 Assessment of cross wind stability of freight vehicles 479.4 Acquisition of railway line data . 48Annex A (informative) Application of methods to assess cross wind stability of vehicles within Europe 49Annex B (informative) Bl

18、ockage correction 53Annex C (normative) Wind tunnel benchmark test data for standard ground configuration 55Copyright European Committee for Standardization Provided by IHS under license with CENNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-BS EN 14067-6:2010EN 1

19、4067-6:2010 (E) 3 Annex D (informative) Other ground configurations for wind tunnel testing . 59Annex E (informative) Wind tunnel benchmark test data for other ground configurations 63Annex F (informative) Embankment overspeed effect 76Annex G (informative) Atmospheric boundary layer wind tunnel tes

20、ting . 77Annex H (informative) Five mass model . 83Annex I (normative) Mathematical model for the Chinese hat . 98Annex J (informative) Stochastic wind model . 105Annex K (informative) Stability of passenger vehicles and locomotives against overturning at standstill according to national guidelines

21、113Annex L (informative) Information on methods to assess the wind exposure of a railway line . 116Annex M (informative) Migration rule for this European Standard 119Annex ZA (informative) Relationship between this European Standard and the Essential Requirements of EU Directive 2008/57/EC 120Biblio

22、graphy 124Figures Figure 1 Sketch of the wind tunnel configuration single track ballast (front view, 1:1 scale) . 22Figure 2 Sketch of the wind tunnel configuration single track ballast (side and top view, 1:1 scale) . 22Figure 3 Illustration of three mass model . 24Figure 4 Illustration of contact

23、point . 28Figure 5 Example of the spatial distribution of the wind using a Chinese hat gust model . 30Figure 6 Illustration of wind decay within Chinese hat gust model . 32Figure 7 Application of Chinese hat wind scenario: Example of temporal wind distribution for vtr= 200 km/h, vW= 30 m/s, vehicle

24、length = 24 m 33Figure 8 Illustration of geometric approach considering the angle of attack . 36Figure 9 Illustration of geometric approach considering the angle of attack of CWC on straight track 37Figure C.1 Contour of a wind tunnel model of the ICE 3 endcar 55Figure C.2 Contour of a wind tunnel m

25、odel of the TGV Duplex powercar . 57Figure C.3 Contour of a wind tunnel model of the ETR 500 powercar . 58Figure D.1 Sketch of the wind tunnel configuration flat ground with 235 mm gap 59Figure D.2 Sketch of ballast geometry 60Figure D.3 Sketch of the embankment geometry . 60Figure D.4 Sketch of the

26、 wind tunnel configuration flat ground without gap . 61Figure D.5 Ballast and rail configuration for uncanted track in Great Britain . 62Figure D.6 Saw tooth canted ballast and rail in Great Britain . 62Figure F.1 Illustration of embankment overspeed effect . 76Figure G.1 Upper and lower limits for

27、mean velocity profiles . 78Figure H.1 Illustration of five mass model 84Copyright European Committee for Standardization Provided by IHS under license with CENNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-BS EN 14067-6:2010EN 14067-6:2010 (E) 4 Figure I.1 Coordin

28、ate system . 98Figure I.2 Dependency of f on Umeanand Umax. 100Figure J.1 Flow chart of the methodology 106Figure J.2 Parameters C and m as a function of z0for the calculation of xLu(Couninhan expression) 108Tables Table 1 Symbols .9Table 2 Application of cross wind methodologies for rolling stock a

29、ssessment 14Table 3 Parameter set for the standard ground configuration (standard gauge) 15Table 4 Method factor mf for UIC standard gauge (1 435 mm) for various vehicle types 24Table 5 Functions for the Chinese hat gust model 34Table 6 Form for CWC table for passenger vehicles and locomotives in no

30、n-tilting mode 38Table 7 Form for CWC table for trains in active tilting mode . 38Table 8 Form for CWC table for freight wagons 39Table 9 Layout for plan profile parameters 41Table 10 Layout for vertical profile parameters . 42Table 11 Layout for track design speed 42Table 12 Layout for wall . 43Tab

31、le 13 Layout for line database: meteorological part 44Table 14 Layout for integrated line database . 45Table 15 Required minimum resolution/accuracy . 46Table A.1 Application of methodological elements for rolling stock assessment purpose within Europe (aerodynamic assessment) 49Table A.2 Applicatio

32、n of methodological elements for rolling stock assessment purpose within Europe (vehicle dynamic assessment) 51Table C.1 Reference data for aerodynamic coefficients of the ICE 3 endcar model for the ground configuration “single track with ballast and rail“ according to 5.3.4.11 . 56Table C.2 Referen

33、ce data for aerodynamic coefficients of the TGV Duplex powercar model for the ground configuration “single track with ballast and rail“ according to 5.3.4.11 . 57Table C.3 Reference data for aerodynamic coefficients of the ETR 500 powercar model for the ground configuration “single track with ballas

34、t and rail“ according to 5.3.4.11 . 58Table E.1 Benchmark data for aerodynamic coefficients of ICE 3 endcar on flat ground with gap, measured by DB AG on a 1:7-scale model at 80 m/s in DNW wind tunnel 63Table E.2 Benchmark data for aerodynamic coefficients of ICE 3 endcar on the windward side on the

35、 double track ballast and rail, measured by CSTB on a 1:15-scale model at 50 m/s in CSTB wind tunnel . 64Table E.3 Benchmark data for aerodynamic coefficients of ICE 3 endcar on the leeward side on the double track ballast and rail, measured by CSTB on a 1:15-scale model at 50 m/s in CSTB wind tunne

36、l . 65Copyright European Committee for Standardization Provided by IHS under license with CENNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-BS EN 14067-6:2010EN 14067-6:2010 (E) 5 Table E.4 Benchmark data for aerodynamic coefficients of ICE 3 endcar on the windwar

37、d side of standard embankment of 6 m height, measured by CSTB on a 1:15-scale model at 50 m/s in CSTB wind tunnel 66Table E.5 Benchmark data for aerodynamic coefficients of ICE 3 endcar on the leeward side of the standard embankment of 6 m height, measured by CSTB on a 1:15-scale model at 50 m/s in

38、CSTB wind tunnel 67Table E.6 Benchmark data for aerodynamic coefficients of TGV Duplex powercar on flat ground with gap, measured by DB AG on a 1:7-scale model at 80 m/s in DNW wind tunnel . 68Table E.7 Benchmark data for aerodynamic coefficients of TGV Duplex powercar on the windward side on the do

39、uble track ballast and rail, measured by CSTB on a 1:15-scale model at 25 m/s in CSTB wind tunnel . 69Table E.8 Benchmark data for aerodynamic coefficients of TGV Duplex powercar on the leeward side on the double track ballast and rail, measured by CSTB on a 1:15-scale model at 25 m/s in CSTB wind t

40、unnel . 70Table E.9 Benchmark data for aerodynamic coefficients of TGV Duplex powercar on the windward side of the standard embankment of 6 m height, measured by CSTB on a 1:25-scale model at 40 m/s in CSTB wind tunnel . 71Table E.10 Benchmark data for aerodynamic coefficients of TGV Duplex powercar

41、 on the leeward side of the standard embankment of 6 m height, measured by CSTB on a 1:25-scale model at 40 m/s in CSTB wind tunnel . 72Table E.11 Benchmark data for aerodynamic coefficients of ETR 500 powercar on flat ground with gap, measured by Politecnico di Milano on a 1:10 -scale model at 12 m

42、/s in MPWT wind tunnel . 73Table E.12 Benchmark data for aerodynamic coefficients of ETR 500 powercar on the windward side of the standard embankment of 6 m height, measured by Politecnico di Milano on a 1:10-scale model at 12 m/s in MPWT wind tunnel . 74Table E.13 Benchmark data for aerodynamic coe

43、fficients of ETR 500 powercar on the leeward side of the standard embankment of 6 m height, measured by Politecnico di Milano on a 1:10 -scale model at 12 m/s in MPWT wind tunnel . 75Table H.1 Body parameters. 90Table H.2 Secondary suspension parameters 90Table H.3 Primary suspension parameters . 91

44、Table H.4 General parameters 91Table H.5 Aerodynamic coefficients 91Table H.6 Resulting CWC for example vehicle 1: vCWCin m/s depending on the vehicle speed and the unbalanced lateral acceleration aqat a yaw angle of W= 90 92Table H.7 Resulting CWC for example vehicle 1: vCWCin m/s depending on yaw

45、angle Wand the unbalanced lateral acceleration aqat vmax= 160 km/h 93Table H.8 Body parameters. 94Table H.9 Secondary suspension parameters 94Table H.10 Primary suspension parameters . 95Table H.11 General parameters 95Table H.12 Aerodynamic coefficients 95Table H.13 Resulting CWC for example vehicl

46、e 2: vCWCin m/s depending on the vehicle speed and the unbalanced lateral acceleration aqat a yaw angle of W= 90 96Copyright European Committee for Standardization Provided by IHS under license with CENNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-BS EN 14067-6:2

47、010EN 14067-6:2010 (E) 6 Table H.14 Resulting CWC for example vehicle 2: vCWCin m/s depending on the yaw angle Wand the unbalanced lateral acceleration aqat vmax= 200 km/h . 97Table I.1 Calculation example for Chinese hat gust scenario with Umax= 30,0 m/s, vtr= 200 km/h, vehicle length = 24 m . 102Table ZA.1 Correspondence between this European standard, the HS TSI RST, published in the Official Journal on 26 March 2008, and Directive 2008/57/EC 120Table ZA.2 Corresponde

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