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本文(ASTM D7720-2011(2017) 7500 Standard Guide for Statistically Evaluating Measurand Alarm Limits when Using Oil Analysis to Monitor Equipment and Oil for Fitness and Contamination《用油分.pdf)为本站会员(lawfemale396)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!

ASTM D7720-2011(2017) 7500 Standard Guide for Statistically Evaluating Measurand Alarm Limits when Using Oil Analysis to Monitor Equipment and Oil for Fitness and Contamination《用油分.pdf

1、Designation: D7720 11 (Reapproved 2017)Standard Guide forStatistically Evaluating Measurand Alarm Limits when UsingOil Analysis to Monitor Equipment and Oil for Fitness andContamination1This standard is issued under the fixed designation D7720; the number immediately following the designation indica

2、tes the year oforiginal adoption or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon () indicates an editorial change since the last revision or reapproval.1. Scope1.1 This guide provides specific requirements to

3、 statisticallyevaluate measurand alarm thresholds, which are called alarmlimits, as they are applied to data collected from in-service oilanalysis. These alarm limits are typically used for conditionmonitoring to produce severity indications relating to states ofmachinery wear, oil quality, and syst

4、em contamination. Alarmlimits distinguish or separate various levels of alarm. Fourlevels are common and will be used in this guide, though threelevels or five levels can also be used.1.2 A basic statistical process control technique describedherein is recommended to evaluate alarm limits when mea-s

5、urand data sets may be characterized as both parametric and incontrol. A frequency distribution for this kind of parametricdata set fits a well-behaved two-tail normal distribution havinga “bell” curve appearance. Statistical control limits are calcu-lated using this technique. These control limits

6、distinguish, at achosen level of confidence, signal-to-noise ratio for an in-control data set from variation that has significant, assignablecauses. The operator can use them to objectively create,evaluate, and adjust alarm limits.1.3 A statistical cumulative distribution technique describedherein i

7、s also recommended to create, evaluate, and adjustalarm limits. This particular technique employs a percentcumulative distribution of sorted data set values. The techniqueis based on an actual data set distribution and therefore is notdependent on a presumed statistical profile. The technique maybe

8、used when the data set is either parametric ornonparametric, and it may be used if a frequency distributionappears skewed or has only a single tail. Also, this techniquemay be used when the data set includes special cause variationin addition to common cause variation, although the techniqueshould b

9、e repeated when a special cause changes significantlyor is eliminated. Outputs of this technique are specific mea-surand values corresponding to selected percentage levels in acumulative distribution plot of the sorted data set. Thesepercent-based measurand values are used to create, evaluateand adj

10、ust alarm limits.1.4 This guide may be applied to sample data from testingof in-service lubricating oil samples collected from machinery(for example, diesel, pumps, gas turbines, industrial turbines,hydraulics) whether from large fleets or individual industrialapplications.1.5 This guide may also be

11、 applied to sample data fromtesting in-service oil samples collected from other equipmentapplications where monitoring for wear, oil condition, orsystem contamination are important. For example, it may beapplied to data sets from oil filled transformer and circuitbreaker applications.1.6 Alarm limit

12、 evaluating techniques, which are not statis-tically based are not covered by this guide.Also, the techniquesof this standard may be inconsistent with the following alarmlimit selection techniques: “rate-of-change,” absolutealarming, multi-parameter alarming, and empirically derivedalarm limits.1.7

13、The techniques in this guide deliver outputs that may becompared with other alarm limit selection techniques. Thetechniques in this guide do not preclude or supersede limits thathave been established and validated by an Original EquipmentManufacturer (OEM) or another responsible party.1.8 This stand

14、ard does not purport to address all of thesafety concerns, if any, associated with its use. It is theresponsibility of the user of this standard to establish appro-priate safety and health practices and determine the applica-bility of regulatory limitations prior to use.1.9 This international standa

15、rd was developed in accor-dance with internationally recognized principles on standard-ization established in the Decision on Principles for theDevelopment of International Standards, Guides and Recom-mendations issued by the World Trade Organization TechnicalBarriers to Trade (TBT) Committee.1This

16、guide is under the jurisdiction of ASTM Committee D02 on PetroleumProducts, Liquid Fuels, and Lubricants and is the direct responsibility of Subcom-mittee D02.96.04 on Guidelines for In-Services Lubricants Analysis.Current edition approved May 1, 2017. Published July 2017. Originally approvedin 2011

17、. Last previous edition approved in 2011 as D7720 11.DOI:10.1520 D7720-11R17.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United StatesThis international standard was developed in accordance with internationally recognized principles on standard

18、ization established in the Decision on Principles for theDevelopment of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.12. Referenced Documents2.1 ASTM Standards:2D445 Test Method for Kinematic Viscosity of Trans

19、parentand Opaque Liquids (and Calculation of Dynamic Viscos-ity)D664 Test Method for Acid Number of Petroleum Productsby Potentiometric TitrationD974 Test Method for Acid and Base Number by Color-Indicator TitrationD2896 Test Method for Base Number of Petroleum Productsby Potentiometric Perchloric A

20、cid TitrationD4378 Practice for In-Service Monitoring of Mineral Tur-bine Oils for Steam, Gas, and Combined Cycle TurbinesD4928 Test Method for Water in Crude Oils by CoulometricKarl Fischer TitrationD5185 Test Method for Multielement Determination ofUsed and Unused Lubricating Oils and Base Oils by

21、Inductively Coupled Plasma Atomic Emission Spectrom-etry (ICP-AES)D6224 Practice for In-Service Monitoring of Lubricating Oilfor Auxiliary Power Plant EquipmentD6299 Practice for Applying Statistical Quality Assuranceand Control Charting Techniques to Evaluate AnalyticalMeasurement System Performanc

22、eD6304 Test Method for Determination of Water in Petro-leum Products, Lubricating Oils, and Additives by Cou-lometric Karl Fischer TitrationD6439 Guide for Cleaning, Flushing, and Purification ofSteam, Gas, and Hydroelectric Turbine Lubrication Sys-temsD6595 Test Method for Determination of Wear Met

23、als andContaminants in Used Lubricating Oils or Used HydraulicFluids by Rotating Disc Electrode Atomic Emission Spec-trometryD6786 Test Method for Particle Count in Mineral InsulatingOil Using Automatic Optical Particle CountersD7042 Test Method for Dynamic Viscosity and Density ofLiquids by Stabing

24、er Viscometer (and the Calculation ofKinematic Viscosity)D7279 Test Method for Kinematic Viscosity of Transparentand Opaque Liquids by Automated Houillon ViscometerD7414 Test Method for Condition Monitoring of Oxidationin In-Service Petroleum and Hydrocarbon Based Lubri-cants by Trend Analysis Using

25、 Fourier Transform Infrared(FT-IR) SpectrometryD7416 Practice for Analysis of In-Service Lubricants Usinga Particular Five-Part (Dielectric Permittivity, Time-Resolved Dielectric Permittivity with Switching MagneticFields, Laser Particle Counter, Microscopic DebrisAnalysis, and Orbital Viscometer) I

26、ntegrated TesterD7483 Test Method for Determination of Dynamic Viscosityand Derived Kinematic Viscosity of Liquids by Oscillat-ing Piston ViscometerD7484 Test Method for Evaluation of Automotive EngineOils for Valve-Train Wear Performance in Cummins ISBMedium-Duty Diesel EngineD7596 Test Method for

27、Automatic Particle Counting andParticle Shape Classification of Oils Using a DirectImaging Integrated TesterD7647 Test Method for Automatic Particle Counting ofLubricating and Hydraulic Fluids Using Dilution Tech-niques to Eliminate the Contribution of Water and Inter-fering Soft Particles by Light

28、ExtinctionD7670 Practice for Processing In-service Fluid Samples forParticulate Contamination Analysis Using Membrane Fil-tersD7684 Guide for Microscopic Characterization of Particlesfrom In-Service LubricantsD7685 Practice for In-Line, Full Flow, Inductive Sensor forFerromagnetic and Non-ferromagne

29、tic Wear Debris De-termination and Diagnostics for Aero-Derivative and Air-craft Gas Turbine Engine BearingsD7690 Practice for Microscopic Characterization of Par-ticles from In-Service Lubricants by Analytical Ferrogra-phyE2412 Practice for Condition Monitoring of In-Service Lu-bricants by Trend An

30、alysis Using Fourier TransformInfrared (FT-IR) Spectrometry3. Terminology3.1 Definitions:3.1.1 alarm, nmeans of alerting the operator that a par-ticular condition exists.3.1.2 assignable cause, nfactor that contributes to varia-tion in a process or product output that is feasible to detect andidenti

31、fy; also called special cause.3.1.3 boundary lubrication, ncondition in which the fric-tion and wear between two surfaces in relative motion aredetermined by the properties of the surfaces and the propertiesof the contacting fluid, other than bulk viscosity.3.1.3.1 DiscussionMetal to metal contact o

32、ccurs and thechemistry of the system is involved. Physically adsorbed orchemically reacted soft films (usually very thin) supportcontact loads. Consequently, some wear is inevitable.3.1.4 chance cause, nsource of inherent random variationin a process which is predictable within statistical limits; a

33、lsocalled common cause.3.1.5 characteristic, nproperty of items in a sample orpopulation which, when measured, counted or otherwiseobserved, helps to distinguish between the items.3.1.6 data set, nlogical collection of data that supports auser function and could include one or more data tables, file

34、s,or sources.3.1.6.1 DiscussionHerein a data set is a population ofvalues for a measurand from within a particular measurand setand covering an equipment population.3.1.7 distribution, n as used in statistics, a set of all thevarious values that individual observations may have and thefrequency of t

35、heir occurrence in the sample or population.2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.org. For Annual Book of ASTMStandards volume information, refer to the standards Document Summary page onthe ASTM website.D7720 11 (2017)23

36、.1.8 measurand, nparticular quantity subject to measure-ment.3.1.8.1 DiscussionIn industrial maintenance a measurandis sometimes called an analysis parameter.3.1.8.2 DiscussionEach measurand has a unit of measureand has a designation related to its characteristic measurement.3.1.9 nonparametric, nte

37、rm referring to a statistical tech-nique in which the probability distribution of the constituent inthe population is unknown or is not restricted to be of aspecified form.3.1.10 normal distribution, nfrequency distribution char-acterized by a bell shaped curve and defined by two param-eters: mean a

38、nd standard deviation.3.1.11 outlying observation, nobservation that appears todeviate markedly in value from other members of the sampleset in which it appears, also called outlier.3.1.12 parametric, nterm referring to a statistical tech-nique that assumes the nature of the underlying frequencydist

39、ribution is known.3.1.13 population, nwell defined set (either finite or infi-nite) of elements.Statistical Process Control Technique Terms3.1.14 statistical process control (SPC), nset of tech-niques for improving the quality of process output by reducingvariability through the use of one or more c

40、ontrol charts and acorrective action strategy used to bring the process back into astate of statistical control.3.1.15 state of statistical control, nprocess conditionwhen only common causes are operating on the process.3.1.16 center line, nline on a control chart depicting theaverage level of the s

41、tatistic being monitored.3.1.17 control limits, nlimits on a control chart that areused as criteria for signaling the need for action or judgingwhether a set of data does or does not indicate a state ofstatistical control based on a prescribed degree of risk.3.1.17.1 DiscussionFor example, typical t

42、hree-sigma lim-its carry a risk of 0.135 % of being out of control (on one sideof the center line) when the process is actually in control andthe statistic has a normal distribution.3.1.18 warning limits, nlimits on a control chart that aretwo standard errors below and above the center line.3.1.19 u

43、pper control limit, nmaximum value of the con-trol chart statistic that indicates statistical control.3.1.20 lower control limit, nminimum value of the controlchart statistic that indicates statistical control.Cumulative Distribution Technique Terms3.1.21 cumulative distribution, nrepresentation of

44、the to-tal fraction of the population, expressed as either mass-,volume-, area-, or number-based, that is greater than or lessthan discrete size values.3.2 Definitions of Terms Specific to This Standard:3.2.1 alarm limit, nalarm condition values that delineateone alarm level from another within a me

45、asurand set; alsocalled alarm threshold.3.2.1.1 DiscussionWhen several alarm levels aredesignated, then a first alarm limit separates the normal levelfrom the alert level, and a second alarm limit separates the alertlevel from action level. In other words, measurand data valuesgreater than the first

46、 alarm limit and less-than-or-equal-to thesecond alarm limit are in the state of the second level alarm.3.2.1.2 DiscussionAn alarm limit, “X”, may be single-sided such as “greater than X” or “less than X”; or it may bedouble-sided such as “greater than X and less than X”. Alarmlimit values may repre

47、sent the same units and scale as thecorresponding measurand data set, or they may be representedas a proportion such as a percent. Alarm limit values may bezero-based, or they may be relative to a non-zero reference orother baseline value.3.2.1.3 DiscussionStatistical process control is used toevalu

48、ate alarm limits comparing a control limit value with analarm limit value. Statistical cumulative distribution is used toevaluate alarm limits by identifying a cumulative percentvalues corresponding with each alarm limit value and compar-ing those results, for example, percentages of a data set in e

49、achalarm level, with expected percentages of the data set typicallyassociated with each alarm level.3.2.2 alarm limit set, ncollection of all the alarm limits(alarm condition threshold values) that are needed for analarm-based analysis of measurands within a measurand set.3.2.3 critical equipment, ncategory for important produc-tion assets that are not redundant or high value or highlysensitivity or otherwise essential, also called critical assets orcritical machines.3.2.4 equipment population, nwell defined set of likeequipment operating under si

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