GB/T 29820.1-2013 English PDF

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GB/T 29820.1-2013: Assessment of uncertainty in calibration and use of flow measurement devices -- Part 1: Linear calibration relationships
Status: Valid

Standard ID	USD	BUY PDF	Lead-Days	Standard Title (Description)	Status
GB/T 29820.1-2013	669	Add to Cart	5 days	Assessment of uncertainty in calibration and use of flow measurement devices -- Part 1: Linear calibration relationships	Valid

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Basic data

Standard ID: GB/T 29820.1-2013 (GB/T29820.1-2013)
Description (Translated English): Assessment of uncertainty in calibration and use of flow measurement devices -- Part 1: Linear calibration relationships
Sector / Industry: National Standard (Recommended)
Classification of Chinese Standard: N12
Classification of International Standard: 17.120.01
Word Count Estimation: 29,233
Quoted Standard: GB/T 17611-1998; GB/T 27759-2011; ISO 772-1996; ISO/TR 7066-2-1988
Adopted Standard: ISO/TR 7066-1-1997; MOD
Regulation (derived from): National Standards Bulletin No. 22 of 2013
Issuing agency(ies): General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China, Standardization Administration of the People's Republic of China
Summary: The standard provides: access to a variety of closed pipe or open channel flow measurement method Calibration graph and evaluate such calibration uncertainty process. This standard also gives the advantage of assessing measurement uncertainty calibration

GB/T 29820.1-2013: Assessment of uncertainty in calibration and use of flow measurement devices -- Part 1: Linear calibration relationships

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Assessment of uncertainty in calibration and use of flow measurement devices.Part 1. Linear calibration relationships ICS 17.120.01 N12 National Standards of People's Republic of China Assessment and use of flow measurement device calibration Uncertainty Part 1. Linear calibration relationship Part 1. Linearcalibrationrelationships (ISO /T R7066-1.1997, MOD) Issued on. 2013-11-12 2014-03-15 implementation Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China Standardization Administration of China released

Table of Contents

Introduction Ⅲ 1 Scope 1 2 Normative references 1 3 Terms, definitions and symbols 1 4 General 4 5 independent measurements of the Class A and Class B standard uncertainty assessment 4 Analyzing linear calibration graph 5 6 67 linearization data 8 best linear fit 7 9 9 optimal weighting curve fitting 10 When the evaluation method is independent of y when x 9 11 A class of computing standard uncertainty 9 12 Class B standard uncertainty and reporting procedures 10 Extrapolated values 10 13 14 single-flow measurement using the fitted line in Figure 11 Uncertainty Calculation Appendix A (normative) General function of the variance 13 Annex B (informative) Example 14 Open Channel Calibration Annex C (informative) determined in closed conduits calibration uncertainty Example 19

Foreword

GB/T 29820 "and use of flow measurement calibration uncertainty of the evaluation unit" consists of the following components. --- Part 1. Linear calibration relationship; --- Part 2. non-linear calibration relationships. This section GB/T Part of 129,820. This section drafted in accordance with GB/T 1.1-2009 given rules. The partial modification of the use of ISO /T R7066-1.1997 "means the calibration and use of flow measurement uncertainty assessment - Part 1. Wire Calibration relationship. " This part of ISO /T R7066-1.1997 compared to the following technical differences in terms of these differences have been involved in through the outside Vertical singlet margin position (|) were marked. ISO /T R7066-1.1997 referenced ISO /T R5168.1998 has been ISO 5168.2005 replaced. And ISO /TR 5168. compared to 1998, ISO 5168.2005 has been a major change in the concepts and terms "random" and "system" components of uncertainty, "with Machine "and" system "uncertainty component is preferably no longer classified following two main reasons. 1) and GUM (ISO Guide to the Expression of Uncertainty Measurement method) consistent components of uncertainty due to random or systematic causes, The same treatment after the evaluation; 2) These terms may be ambiguous or confusing when in use. For these reasons, ISO 5168.2005 is no longer the uncertainty minutes Amount into "random component" or "system components", but according to the evaluation method of classification, the uncertainty components are divided into "A Class standard uncertainty" And "Class B standard uncertainty" were evaluated. To this end, section by ISO 5168.2005 made technical corrections. --- No longer use the "random effects lead to uncertainty" and "System error limit" concept, but according to the evaluation method of uncertainty into the Line classified into Class A and Class B standard uncertainty standard uncertainty; --- Normative references file to GB/T 27759-2011 (ISO 5168.2005, IDT) replace ISO /T R5168.1998; --- "Terms, definitions and symbols", press the uncertainty evaluation standard of the original random-effects lead to uncertainty and systematic error limit The term may be ambiguous or confusing when used to modify the Class A and Class B standard uncertainty standard uncertainty of terms Definitions; symbol u () "standard uncertainty in parentheses variables" instead of the symbol eR () "random uncertainty brackets variables Degree "and the symbol eS ()" system error limit brackets Variables "; added" 3.1.16 Precision Measurement "content; 3.2 Symbols, "θ influence coefficient" and GB/T 27759-2011 express agreement known as the "sensitivity factor"; --- 6.4 in GB/T 27759-2011 Annex D instead of ISO /T R5168.1998 Annex E; --- After 8.2.2 added a "note", describes the method of least squares to determine the correlation coefficient of linear correlation method; --- Chapter 11 from "Measurement uncertainty" with "Class A computing standard uncertainty," Chapter 12, limited by a "system error and reports Program "to" Class B standard uncertainty and reporting procedures "; --- Delete B.2 of the "note" that "Note. Many of the standards for flow measurement, A class standard uncertainty uA (Q) with the symbol 2smr , Where smr defined as the standard error of the mean Relations. "Because the current flow is no longer used in the standard notation, and And this article is not associated with the note back and forth in this section. After verification, ISO /T R7066-1. two examples of 1997 Appendices B and C is given, there are individual formula clerical error, the number of According to calculation errors and tables of individual header symbol writing errors, this section gives the calculation and verification of modification, as follows. a) Table B.1 of the header. Q rewritten as Qi; xy rewritten xiyi, x2 rewrite x2i; b) Table B.1 "observation No. 25" in, lnQi (yi) data from the 4.4096 to 4.2096 modification; c) Table B.2 of the header. Q Rewritten as Q i; lnQ (Y) is rewritten as lnQ i (y i); (yi-y) 2 is rewritten (yi-y i) 2; eR (lnQ )change Written uArel (lnQ i), and add the unit "%"; d) Table B.2 "observation No. 14" and "observation No. 15", the last one to modify the data from the 1.66 to 1.16; e) B.5, the equation (B.7). sR = ΣlnQi-lnQ () 2/n () [] -2 1/2 modify sR = ΣlnQi-lnQ () I 2/n () [] -2 1/2; f) B.6 formula (B.9) in. uArel (lnQ) is amended as uArel (lnQ i); g) B.7 in. uArel (lnQ), uArel (lnQi) is amended as uArel (lnQ i); h) C.4.1 in. (1/Red) 1/2 revised to 103/Red1/2; i) C.6.1 in. uA (1/Red) 1/2 = 8.1 × 10-7, uA (C) = 9.5 × 10-4 is amended as uA (1/Red1/2) = uArel (X) × X = 8.1 × 10-7, uA (C) = uArel (C) × C = 9.5 × 10-4; γ = 1144 as modified γ = 1173; j) C.6.2, in order to express clearly. Equation (C.7) by the C = 0.5827 8.2597/Red1/() 2 is amended as C = 0.5827 (8.2597 × 10-3) × 103/Red1/() 2; k) Table C.3. Value s2 (x) is modified by 1.087864 to 0.1087864; Cov (xy) by the value 8.985401 × 10-7 modification It was 8.985401 × 10-4; l) C.6.3 of 0.0082597 ± (2.06 × 0.0005007) is amended as 0.0082597 ± (2.06 × 0.0005109) m) C.6.4 in. sR = 8.42 × 10-4 is amended as sR = 8.26 × 10-4, uA (C ) = 3.469 × 10-3 modify uA (C ) = 3.399 × 10-4; n) C.6.5 in. U'RSS (C ) = (0.0352 0.752) 1/2% = 0.75% revised to U'RSS (C ) = (0.752 0.0342) 1/2% = 0.75%; o) C.6.6 in. U'RSS (C ) 0.0352 = 0.15 () 21/2% = 0.15% for the modified U'RSS (C ) 0.0342 = 0.15 () 21/2% = 0.15%; p) C.7.1 in. Equation (C.11) by the uA (X) = uA2 () [] v/4 uA2 () [] H '/ {} 8 1/2 amended as uA (X) = uA2 () [] v/4 uA2 () [] H '/ {} 16 1/2; q) C.7.4 in. Xk = 0.00112 amended as Xk = 1.12, uArel (X) = 0.5/81/2% = 0.18% revised to uArel (X) = (0.5) 2/16% = 0.125%; uBrel (X) = (0.25 0.125) 1/2% = 0.61% for the modified uBrel (X) = (0.25 0.0625)% = 0.56%; URSS (C ) = (0.5919 × 0.0016) = 9.4704 × 10-4 repair Instead URSS (C ) = (0.5919 × 0.0015) = 8.8785 × 10-4; U'RSS (C) = 9.4704 × 10 () -4 2 5.88 × 10 () [] -5 2 1/2/0.5919 = 0.16% for the modified U'RSS (C) = 8.8785 × 10 () -4 2 5.299 × 10 () [] -5 2 1/2/0.5919 = 0.13%; Formula URSS (C0) = 8.26 0.00112 × 0. () 0018 2 0.00112 × 0. () 0061 [] 2 1/2 = 5.88 × 10-5 in number It is a mistake to amend URSS (C0) = 8.26 × 10-3 1.12 × 0. () 00125 2 1.12 × 0. () 0056 [] 2 1/2 = 5.299 × 10-5. This section also made the following editorial changes. --- Canceled Chapter 1, section numbers, "range" within; --- Change the number of formulas in the Appendix. This part is proposed by China Machinery Industry Federation. This part of the measurement and control of Standardization Technical Committee (SAC/TC124) is administered by the National industrial processes. This section is drafted. Shanghai Industrial Automation Instrument Research Institute, Shanghai Automation Instrumentation system verification tests, China Metrology Research Institute, Beijing Institute of Metrology detection, Shanghai Institute of Measurement and Testing, Shanghai Polytechnic University, Shanghai Weier Tai Industrial Automation Copper Co., Ltd., Yuyao Yinhuan Traffic Instrument Co., Ltd., Central-day instrument Co., Ltd., Dandong Beit Automation Instrumentation has Limited. The main drafters of this section. Guo Aihua, Yangyou Tao, Meng Tao, Zhang Jinming, Shen Yu Ming, Xu Zhen, Zhu Jiashun, Zhang Liang, Zhu Xiaoguang. Assessment and use of flow measurement device calibration Uncertainty Part 1. Linear calibration relationship

1 Scope

GB/T 29820 in this section describes the access to a variety of tube closure or open channel flow measurement calibration charts and evaluate such calibration is not The process of determining the degree. The use of calibration charts to evaluate the measurement uncertainty of the process of this part are also given, as well as the same point repeatedly measuring the average flow rate Uncertainty value calculation program. This section only considers uncertainty estimate a linear relationship. Uncertainty nonlinear relationship discussed by the GB/T 29820.2. therefore, This section only applies to the following conditions. a) the relationship between two variables is itself a linear relationship; or, one or two variables through some form of conversion can be in two A linear relationship is established between those who, for example, using a logarithmic; Alternatively, the entire range is subdivided into several small range in each small area You may be within the relationship between two variables as a linear relationship. b) fit line calibration uncertainty and uncertainty in FIG single observation may be negligible compared. Note. The example of the principles of the portion shown in Appendices B and C.

2 Normative references

The following documents for the application of this document is essential. For dated references, only the dated version suitable for use herein Member. For undated references, the latest edition (including any amendments) applies to this document. GB/T 17611-1998 closed conduits measuring fluid flow terminology and symbols (ISO 4006.1991, IDT) GB/T 27759-2011 Fluid Flow Measurement Uncertainty assessment procedures (ISO 5168.2005, IDT) ISO 772.1996 areometry terminology and symbols (Hydrometricdeterminations-Vocabularyandsym- bols) ISO /T R7066-2. 1988 Flow measurement device calibration and use of assessment Uncertainty - Part 2. non-linear calibration relationship (Assessmentofuncertaintyinthecalibrationanduseofflowmeasurementdevices-Part 2. Non-line- arcalibration) 3 Terms, definitions and symbols GB/T 17611-1998 and ISO 772.1996 and the following defined terms, definitions and symbols apply to this section. 3.1 Terms and definitions 3.1.1 Calibration charts calibrationgraph According to point function in response to the flow meter and the coordinates obtained are plotted curve. 3.1.2 Confidence Limits confidencelimits Observations or calculated values (confidence) upper and lower limits. Uncorrectable assumed systematic error can be ignored, you can expect true value specified Probability is located in the upper and lower limits of the range determined. ......

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