ASTM D7520-2013 red 5210 Standard Test Method for Determining the Opacity of a Plume in the Outdoor Ambient Atmosphere《测定室外环境气压下烟羽不透明度的标准试验方法》.pdf

1、Designation: D7520 09D7520 13Standard Test Method forDetermining the Opacity of a Plume in the Outdoor AmbientAtmosphere1This standard is issued under the fixed designation D7520; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the

2、 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 test method describes the procedures to determine the opacity of a plume. plume, using digital imagery a

3、nd associatedhardware and software. The aforementioned plume is caused by particulate matter emitted from a stationary point source in theoutdoor ambient environment using digital imagery and associated software and hardware.environment.1.2 The opacity of emissions is determined by the application o

4、f a Digital Camera Opacity Technique (DCOT) that consists ofa Digital Still Camera, Analysis Software, and the Output Functions content to obtain and interpret digital images to determineand report plume opacity.1.3 This method is suitable to determine the opacity of plumes from zero (0) percent to

5、one hundred (100) percent.1.4 This test method is not applicable to stacks with internal diameters greater than 7.0 ft.ft (2.13 m).21.5 Conditions that shall be considered when using this method to obtain the digital image of the plume include the plumesbackground, the existence of condensed water i

6、n the plume, orientation of the Digital Still Camera to the plume and the sun (seeSection 8).1.6 This standard describes the procedures to certify the DCOT, hardware, software, and method to determine the opacity ofthe plumes.1.7 This standard does not purport to address all of the safety concerns,

7、if any, associated with its use. It is the responsibilityof the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatorylimitations prior to use.2. Referenced Documents2.1 ASTM Standards:3D1356 Terminology Relating to Sampling and Analy

8、sis of AtmospheresE691 Practice for Conducting an Interlaboratory Study to Determine the Precision of a Test Method2.2 U.S. Environmental Protection Agency (USEPA) Document:4USEPA Method 9 Visual Determination of the Opacity of Emissions from Stationary Sources, 40 CFR, Part 60, Appendix A-42.3 Inst

9、itute of Electrical and Electronics Engineers (IEEE) Document:5IEEE 12207-2008 Systems and Software EngineeringSoftware Life Cycle Processes (ISO/IEC 12207:2008(E), Edition: 2nd,Institute of Electrical and Electronics Engineers, 01-Feb-2008, 138 pages, ISBN: 97807381566372.4 Japanese Electronic and

10、Information Technology Industries Association (JEITA) Document:Exchangeable Image File Format (EXIF) for Digital Still Cameras: Joint Photographic Experts Group: JPEG file format version2.21, JEITA CP-3451-1 (English version) dated 2003-09; http:/www.jeita.or.jp/english/standard/list/list.asp?cateid

11、=1 b) produces opacity measurements from the combination of human interaction, openor proprietary calculations and algorithms, and image content viewing; c) and then output said opacity measurement along withAnalysis Softwares configuration, image source documentation and other environmental paramet

12、ers.3.2.2 certifiedfor the purpose of this standard, certified refers to achieving or excelling the requirements described in thismethod.3.2.3 DCOT certification packagefor the purpose of this standard, certification package refers to 300 images (150 whitesmoke and 150 black smoke) captured against

13、at least two different backgrounds.3.2.4 DCOT operatorrefers to the human operating the DCOTsystem who records the digital still images with the Digital StillCamera and then determines plume opacity with the Analysis Software.3.2.5 Digital Still Cameraan image capture device used to collect store an

14、d forward digital still images to the AnalysisSoftware for analysis as defined by the DCOT vendors certification documentation.3.2.6 image transfer filean electronic file that contains the image captured by the Digital Still Camera and its associatedenvironment documentation that is consistent with

15、EXIF 2.1 JPG (or higher) format and is input to the Analysis Software. All ofthe digital images obtained by a DCOT system shall be reviewed by a qualified human DCOT operator to assess if the digitalimages are acceptable (for example, no obvious errors in the digital images).3.2.7 opacitymeasurement

16、 of the degree to which particulate emissions reduce the intensity of transmitted photopic light andobscure the view of an object through an effluent gas stream of a given path length in ambient air.3.2.8 opacity sourceany source that produces emissions that are visible to the human eye.3.2.9 output

17、 functionhuman readable information documenting the image being analyzed and configuration of the AnalysisSoftware used, the opacity measurement and the other required environment variables defined (for example, view angle, winddirection).3.2.10 runFor the purpose of this standard, run or smoke scho

18、ol run refers to 50 consecutive images (25 white and 25 black).Smoke schools identify Runs with a number (normally 1-10), a date, and a location. Smoke schools may allow certificationbetween numbered runs (that is, black smoke from Run 1, and white smoke from Run 2.)4. Summary of Test Method4.1 A Di

19、gital Still Camera is used to capture a set of digital images of a plume against a contrasting background. Each imageis analyzed with software that determines plume opacity by comparing a user defined portion of the plume image where opacityis being measured in comparison to the background providing

20、 the contrasting values. The Analysis Software is used to averagethe opacities from the series of digital images taken of the plume over a fixed period of time. The software is also used to archivethe image set utilized for each opacity determination including the portion of each image selected by t

21、he operator.4.2 The following conditions must be followed to make a valid opacity determination:4.2.1 The image must be captured in a JPEG format that adheres to the EXIF 2.1 (or higher) standard.4.2.2 The image must be captured with the sun located behind the Digital Still Camera and within a 140 s

22、ector directly behindthe Digital Still Camera (see Table 1 for schematic).4.2.3 The image must be captured perpendicular to the direction of plume travel.4.2.4 Digital enhancement capabilities of the Digital Still Camera (that is, flash, optical filters, digital zoom, and imagestabilization) shall n

23、ot be used. However, the Digital Still Cameras optical zoom may be used when capturing the digital stillimage.4.2.4 The ambient light must be sufficient to show a clear contrast between the plume and its background.4.2.5 The portion of the plume selected for opacity determination shall not contain c

24、ondensed water vapor.4.2.6 The selected portions of each image representing the visible plume and the uniform background must contrast sufficientlyfor the software to differentiate between the plume and its background.4.2.7 The portion of the plume selected for opacity determination shall represent

25、the part of the plume with the highest apparentopacity, excluding water vapor, as determined by the DCOT operator.4.2.8 The area of the digital image to be analyzed for opacity shall be centered in the digital image when taking the photograph.4.2.9 Each DCOT vendor shall provide training for operato

26、rs of their DCOT system. The training shall include the content ofthe “Principles of Visual Emissions Measurements and Procedures to Evaluate those Emissions Using the Digital Camera OpticalTechnique (DCOT)” (Annex A1) and a description of how to operate that specific DCOT system that passed smoke s

27、chool.D7520 1325. Significance and Use5.1 Air permits from regulatory agencies often require measurements of opacity from stationary air pollution point sources inthe outdoor ambient environment. Opacity has been visually measured by certified smoke readers in accordance with USEPA(USEPA Method 9).

28、DCOT is also a method to determine plume opacity in the outdoor ambient environment.5.2 The concept of DCOT was based on previous method development using Digital Still Cameras and field testing of thosemethods.7,8 The purpose of this standard is to set a minimum level of performance for products th

29、at use DCOT to determine plumeopacity in ambient environments.7 Du, K., Rood, M. J., Kim, B. J., Kemme, M. R., Franek, B. J., and Mattison, K., Quantification of Plume Opacity by Digital Photography, Environmental Science digital image; digital still camera; opacityANNEXESA1. PRINCIPLES OF VISUAL EM

30、ISSIONS MEASUREMENTS AND PROCEDURES TO EVALUATE THOSE EMISSIONS US-ING DIGITAL CAMERA OPTICAL TECHNIQUE (DCOT)A1.1 AbstractA1.1.1 This document was developed to provide background information pertaining to the principles of visual emissionmeasurement, United States Environmental Protection Agency (U

31、SEPA) Reference Method 9 requirements, ASTM StandardPractice for Competence ofAir Emission Testing Bodies, equipment needed to collect visual emission data for the Digital CameraOptical Technique (DCOT), documentation needed when measuring visual emissions with DCOT, and the certification andduratio

32、n of certification of DCOT. DCOT was developed as a possible alternative to Method 9 and this document providesbackground information about Method 9 that is also applicable to DCOT.A1.1.2 Anote about terminology: the term “observer” is used in this document when referring to Method 9 to describe the

33、 personwho is making a visual emission evaluation to determine plume opacity. However, “observer” is replaced with “Digital StillCamera” when referring to DCOT as the means to record digital still images that are then used to determine plume opacity. Theterm “operator” is used when referring to DCOT

34、 to describe the operation of the Digital Still Camera that obtains the digital stillimages and the collection of supporting documentation that are needed to provide a complete dataset for DCOTto determine plumeopacity.A1.1.3 An extensive amount of the information provided below is from the student

35、manual for the “Visible Emission EvaluationProcedures Course,” Air Pollution Training Institute (APTI) Course 325, Final Review Draft (January 1995). The principal authorof the student manual is Thomas H. Rose with style and editing by Monica L. Loewy.A1.2 Table of ContentsAbstract A1.1Table of Cont

36、ents A1.2List of Figures A1.3Principles of Visual Emissions Measurement A1.4Ringelmann Method A1.4.1Equivalent Opacity A1.4.2Opacity and Transmission of Light A1.4.3Light and Particles A1.4.4Absorption A1.4.5Scattered Light A1.4.6Rayleigh Scattering A1.4.7Mie Scattering A1.4.8Particle Size A1.4.9D75

37、20 139Variables Influencing Opacity Observations A1.4.10Selecting the Background A1.4.11Method 9 Requirements A1.5Method 9 A1.5.1The Reference Method is one of Observation A1.5.2Opacity Variances A1.5.3Changes in USEPA Procedures A1.5.4Analysis of Error A1.5.5Averaging was Introduced to Increase Acc

38、uracy A1.5.6Sun Position became an Issue A1.5.7Slant-Angle Considerations were Introduced A1.5.8The Issue of Steam Source Plumes was Introduced A1.5.9Smoke Generators were Standardized A1.5.10Minor Changes to the Method A1.5.11Appearance and Controllable Observational Variables A1.5.12Appearance and

39、 Uncontrollable Observational Variables A1.5.13High-Contrast Backgrounds A1.5.14Low-Contrast Backgrounds A1.5.15Positive Error Defined A1.5.16Positive Observational Error A1.5.17Principle A1.5.18Applicability A1.5.19Procedures A1.5.20Observer Position Relative to the Sun Notes A1.5.21Observer Line o

40、f Sight A1.5.22Multiple Stacks A1.5.23Field Records A1.5.24Observation Point in the Plume A1.5.25Attached Steam Plumes A1.5.26Detached Steam Plumes A1.5.27Recording Observations A1.5.28Data Reduction A1.5.29Calculation of Opacity A1.5.30General Certification Requirements A1.5.31Period of Certificati

41、on A1.5.32Introduction to Digital Camera Opacity Technique (DCOT) A1.6Equipment to Determine Plume Opacity in the Field UsingDigital Camera Opacity TechniqueA1.7Introduction A1.7.1Digital Camera Opacity Technique (DCOT) A1.7.2Tripod A1.7.3Timer/Watch A1.7.4Direction Finder A1.7.5Rangefinder A1.7.6Cl

42、inometric Devices A1.7.7Anemometer A1.7.8Relative Humidity Sensor A1.7.9Documentation Needed to Determine Plume Opacitywith DCOTA1.8Company Name and Location A1.8.1Test Identification Number and Date A1.8.2Type and Operational Status of the Facility, ProcessUnit and Control DeviceA1.8.3Height of Emi

43、ssion Point and Estimation Method A1.8.4Description of Operator, DCOT and Digital Still Camera A1.8.5Source Layout Sketch A1.8.6Clock Time A1.8.7Cameras Location A1.8.8Environmental Conditions A1.8.9Plume Description A1.8.10Additional Information A1.8.11Operators Signature and Date A1.8.12Certificat

44、ion of DCOT A1.9Testing Requirements A1.9.1Grading A1.9.2Certification of DCOT and Certification Period A1.9.3Knowledgeable Users A1.10Testing Requirements A1.10.1Grading A1.10.2Certification of Digital Still Camera Operators A1.10.3D7520 1310A1.3 List of FiguresRingelmann Chart Fig. A1.1Electromagn

45、etic Spectrum Fig. A1.2Dependence of Slant Angle on Distance between the Observerand PlumeFig. A1.3Orientation of the Observer to the Plume and Sun Fig. A1.4Effect of Slant Angle on Path Length and Apparent Opacity Fig. A1.5Card-Type and Needle-Type Compasses Fig. A1.6Sling Psychrometer Fig. A1.7Sla

46、nt-Angle Determination Fig. A1.8A1.4 Principles of Visual Emissions MeasurementThis section describes concepts related to opacity and discusses the scientificprinciples associated with measuring opacity and the practical application of those principles.A1.4.1 Ringelmann Method:A1.4.1.1 Evaluation of

47、 visible emissions evolved from a concept developed by Maximillian Ringelmann during the late 1800s.Ringelmann used a chart of calibrated black grids on a white background to measure dark or black smoke emissions from coal-firedboilers. The grids ranged from approximately 20 % ink coverage for a Rin

48、gelmann #1 through 100 % ink coverage, or solid black,for a Ringelmann #5 (Fig. A1.1). The observer then compared the shade of the smoke with the shade of the card.A1.4.2 Equivalent Opacity:A1.4.2.1 During the early 1950s, the Ringelmann concept was expanded to include colors of smoke other than bla

49、ck byintroducing “equivalent opacity.” Equivalent opacity is the opacity equivalent to the obscuring power of black smoke characterizedby a specific Ringelmann grid. Thus, Ringelmann #1 was equivalent to 20 % opacity.A1.4.2.2 United States Environmental Protection Agency (USEPA) discontinued using Ringelmann numbers with USEPAsReference Method 9 procedures for New Source Performance Standards (NSPS).Although current procedures are based solely onopacity, some state regulations (notably Californias) still specify the use of the Ringelmann Chart to evaluate blac