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GB/T 9109.5-2017 English PDF (GB/T 9109.5-2009, GB/T 9109.5-1988)

GB/T 9109.5-2017_English: PDF (GB/T9109.5-2017)
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GB/T 9109.5-2017English500 Add to Cart 0--9 seconds. Auto-delivery Petroleum and liquid petroleum products dynamic measurement -- Part 5: Calculation of oil quantities Valid GB/T 9109.5-2017
GB/T 9109.5-2009EnglishRFQ ASK 6 days [Need to translate] Petroleum and liquid petroleum products -- Calculation of oil quantities -- Dynamic measurement Obsolete GB/T 9109.5-2009
GB/T 9109.5-1988EnglishRFQ ASK 3 days [Need to translate] Dynamic measurement of crude oil--Calculation of oil quantities Obsolete GB/T 9109.5-1988


BASIC DATA
Standard ID GB/T 9109.5-2017 (GB/T9109.5-2017)
Description (Translated English) Petroleum and liquid petroleum products dynamic measurement -- Part 5: Calculation of oil quantities
Sector / Industry National Standard (Recommended)
Classification of Chinese Standard E98
Classification of International Standard 75.180.30
Word Count Estimation 33,352
Date of Issue 2017-05-12
Date of Implementation 2017-12-01
Older Standard (superseded by this standard) GB/T 9109.5-2009
Quoted Standard GB/T 260; GB/T 1884; GB/T 1885-1998; GB/T 4756; GB/T 6531; GB/T 8170; GB/T 8929; GB/T 21450; GB/T 27867
Adopted Standard ISO 4267-2-1988, NEQ
Drafting Organization China National Petroleum Corporation, China Petroleum and Natural Gas Co., Ltd. Jinzhou Petrochemical Company, China National Petroleum Corporation Xinjiang Oilfield Co., Ltd., China Petroleum and Natural Gas Co., Ltd., China Petroleum and Natural Gas Co., Ltd.
Administrative Organization National Standardization Technical Committee for Oil and Gas (SAC/TC 355)
Proposing organization China National Petroleum Corporation
Issuing agency(ies) General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China, China National Standardization Administration Committee
Summary This standard specifies the oil and liquid petroleum products (hereinafter referred to as oil) dynamic measurement of oil calculation method, the definition of oil dynamic measurement of oil used in the calculation of the terms and symbols, given the different measurement instruments equipped with air In the weight or in the standard reference conditions of the volume of oil calculation formula, and provides the amount of oil involved in the calculation of the relevant measurement parameters, the correction coefficient and the corresponding formula and the number table. This standard applies only to the dynamic measurement of single-phase oil. This standard does not apply to the calculation of liquefied petroleum gas and stable light hydrocarbon.

BASIC DATA
Standard ID GB/T 9109.5-2009 (GB/T9109.5-2009)
Description (Translated English) Petroleum and liquid petroleum products. Calculation of oil quantities. Dynamic measurement
Sector / Industry National Standard (Recommended)
Classification of Chinese Standard E08
Classification of International Standard 75.180.30
Word Count Estimation 33,336
Date of Issue 2009-03-16
Date of Implementation 2009-10-01
Older Standard (superseded by this standard) GB/T 9109.5-1988
Adopted Standard ISO 4267-2-1988, NEQ
Drafting Organization China National Petroleum Corporation, Institute of Measurement and Testing
Administrative Organization National Standardization Technical Committee of Petroleum and Natural Gas
Regulation (derived from) National Standard Approval Announcement 2009 No.2 (Total No.142)
Proposing organization National Standardization Technical Committee of Oil and Gas (SAC/TC 355)
Issuing agency(ies) Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China; Standardization Administration of China
Summary This standard specifies the method of calculating fuel oil and liquid petroleum products (hereinafter referred to as oil) dynamic measurement. Defines and explains the dynamic measurement of fuel oil computing terminology and symbols used in the calculation of the provisions of measuring instruments with different weight of oil in the air or in the standard reference conditions the volume of oil formula, and gives the oil involved in calculating the relevant measurement parameters and their corresponding correction factor formula and several tables. This standard applies only to the dynamic measurement of single-phase oil. This standard provides a dynamic fuel calculations. Does not include liquefied petroleum gas and light hydrocarbons stable fuel calculations. Standard reference conditions of the standard fuel used in the calculation are: the temperature is 20��C, the pressure is 101. 325kPa.

BASIC DATA
Standard ID GB/T 9109.5-1988 (GB/T9109.5-1988)
Description (Translated English) Dynamic measurement of crude oil--Calculation of oil quantities
Sector / Industry National Standard (Recommended)
Classification of Chinese Standard E08
Classification of International Standard 75.2
Word Count Estimation 114,114
Date of Issue 1988/4/22
Date of Implementation 1989/1/1
Quoted Standard GB 1884��1885; GB 4756; GB/T 8927; GB/T 8929
Regulation (derived from) Announcement of Newly Approved National Standards 2009 No. (No. 142 overall) 2


GB/T 9109.5-2017 GB NATIONAL STANDARD OF THE PEOPLE’S REPUBLIC OF CHINA ICS 75.180.30 E 98 Replacing GB/T 9109.5-2009 Petroleum and liquid petroleum products dynamic measurement - Part 5: Calculation of oil quantities (ISO 4267-2:1988, Petroleum and liquid petroleum products - Calculation of oil quantities - Part 2: Dynamic measurement, NEQ) ISSUED ON: MAY 12, 2017 IMPLEMENTED ON: DECEMBER 01, 2017 Issued by: General Administration of Quality Supervision, Inspection and Quarantine of PRC; National Standardization Administration. Table of Contents Foreword ... 3 Introduction ... 5 1 Scope ... 6 2 Normative references ... 6 3 Terms, definitions, symbols... 7 4 Significant digits of measurement parameters and numerical rounding ... 10 5 Preparation of basic data ... 12 6 Fuel quantity calculation formula ... 13 7 Measurement bills ... 19 8 Calculation method of oil quantity ... 22 Appendix A (Normative) Measurement data reading rules ... 32 Appendix B (Normative) Calculation method of oil volumetric pressure correction factor ... 35 Appendix C (Normative) Hydrocarbon compressibility factor ... 37 Appendix D (Normative) Conversion of petroleum and liquid petroleum products from 20 °C density to 15 °C density ... 38 Appendix E (Informative) Air buoyancy correction factor table ... 40 Appendix F (Informative) Format and content of measurement bills ... 41 Appendix G (Normative) Conversion factor from 15 °C density to barrel/t ... 42 Petroleum and liquid petroleum products dynamic measurement - Part 5: Calculation of oil quantities 1 Scope This Part of GB/T 9109 specifies the oil quantity calculation method for dynamic measurement of petroleum and liquid petroleum products (hereinafter referred to as oil); defines the terms and symbols used in the dynamic measurement of oil products; gives the weight in air under different measurement methods using different measuring instruments, OR the formula for calculating the oil quantity under standard reference conditions; provides the relevant measurement parameters, correction factors, corresponding formulas and tables, which are involved in the calculation of the oil quantity. This Part only applies to the dynamic measurement of single-phase oil products. This Part does not apply to the oil quantity calculation of liquefied petroleum gas and stable light hydrocarbons. 2 Normative references The following documents are essential to the application of this document. For the dated documents, only the versions with the dates indicated are applicable to this document; for the undated documents, only the latest version (including all the amendments) is applicable to this standard. GB/T 260 Test method for water in petroleum products - Distillation method GB/T 1884 Crude petroleum and liquid petroleum products - Laboratory determination of density - Hydrometer method GB/T 1885-1998 Petroleum measurement tables GB/T 4756 Method for manual sampling of petroleum liquids GB/T 6531 Crude petroleum and fuel oils - Determination of sediment - Extraction method GB/T 8170 Rules of rounding off for numerical values & expression and judgement of limiting values GB/T 8929 Crude petroleum - Determination of water - Distillation method 4.1.1 Depending on the density reading and density conversion, keep 1 decimal place, that is, 0.1 kg/m3. 4.1.2 Measurement of moisture content in oil (distillation method), round to two decimal places 0.01%. 4.1.3 Temperature readings shall be kept to one decimal place, which is 0.1 °C. The arithmetic mean of the measurement temperature is rounded to 0.25 °C. 4.1.4 When the pressure reading is in kPa, take an integer. When it is in MPa, take two decimal places. The measurement pressure is rounded to 50 kPa (gauge pressure). 4.1.5 The cumulative volume reading of the flowmeter is rounded to 0.001 m3. The continuous measurement of long-distance pipelines can be rounded to 1 m3. 4.1.6 The cumulative mass reading of the mass instrument can be rounded to 0.001 t; the continuous measurement of long-distance pipelines can be rounded to 1 t. Note: In order to ensure the consistency and accuracy of the oil quantity calculation results, the minimum requirements for the effective digits of each measurement parameter are given above. 4.2 Numerical rounding off 4.2.1 The numerical rounding off method shall comply with the provisions of GB/T 8170. In most cases, the number of decimal places used is affected by the data source. In the absence of other limiting factors, rounding off shall be performed, according to the decimal places specified in Table 2. However, the data in Table 2 are not the accuracy requirements of measuring instruments. When testing the consistency of the calculation method with this Part, the number of displayed digits shall not be less than 10. 4.2.2 MF, Ctl, Cpl, Csw, Fa shall be rounded to the fourth decimal place, in accordance with the provisions of GB/T 8170. 4.2.3 The oil quantity settlement value follows the requirements of GB/T 8170; the volume value is rounded to 0.001 m3; the mass value is rounded to 0.001 t. Example: Volume (m3): 88256.7885, rounded to 88256.788 Weight (t): 8332.5755, rounded to 8332.576 Flowmeter factor: 1.00165, rounded to 1.0016 1.00155, rounded to 1.0016 Density (kg/m3): 834.45, rounded to 834.4 5.3 Measuring temperature The measurement temperature of oil products shall be measured or recorded, using a mercury-in-glass thermometer, which has a graduation value of not less than 0.2 °C, OR other types of temperature transmitters, which are not lower than the same accuracy requirements. 5.4 Measuring pressure Oil measuring pressure shall be measured or recorded, using a 0.4 grade pressure gauge or other types of pressure transmitters, which are not lower than the same accuracy requirements. 5.5 Sampling Oil sampling shall be carried out, in accordance with the requirements specified in GB/T 4756 or GB/T 27867. 5.6 Density 5.6.1 Apparent density (ρt) Density of oil at test temperature. It is usually obtained by manual or automatic sampling, laboratory testing, OR through online measurement by a density measuring instrument. 5.6.2 Standard density (ρ20) Density of oil under standard reference conditions. It is usually calculated by looking up the Table in GB/T 1885. 5.6.3 Density at 15 °C (ρ15) The density of oil at 15 °C. It is usually converted from the density at 20 °C. 5.7 Moisture content It is measured according to GB/T 8929; it can also be measured according to GB/T 260 and GB/T 6531. With the agreement of both parties to the trade, it may also use other continuous automatic moisture content (or sediment) measuring instruments, which have an accuracy level equivalent to the above method. 6 Fuel quantity calculation formula 6.1 Method overview 6.1.1 The settlement basis for oil trade is divided into weight or volume in the air. Therefore, oil quantity calculation is also divided into two methods: gravimetric oil quantity calculation method and volumetric oil quantity calculation method. At present, domestically, the weight of oil products in the air is used as the basis for trade settlement. 6.1.2 The dynamic measurement of oil products is divided into two categories: basic error method and flowmeter factor method. The oil quantity transfer agreement, which is signed by both parties in the trade, determines whether the basic error method or the flowmeter factor method will be used in the calculation of oil quantity. The basic error method means that during the operation of the flowmeter, if the error is within the allowable basic error (±0.20%) limit, the flowmeter factor MF is regarded as 1.0000, that is, the flowmeter indication error is not corrected, meanwhile the measured oil quantity after correction of temperature, pressure, deducting moisture content, is the delivery quantity, which is recognized by both parties to the trade. The flowmeter factor method means that during the measurement period of the flowmeter, the volume measured by the flowmeter is multiplied by the flowmeter factor, after temperature and pressure correction, to obtain the gross standard volume. The gross standard volume is deducted by the moisture content, to obtain the net standard volume, which is used as the oil delivery quantity, as recognized by both parties to the trade. OR multiply the net standard volume of the oil product by the standard density of the oil product, then multiply it by the air buoyancy correction factor (Fa), to get the net weight of the oil product in the air, as the delivery quantity. Both parties shall clarify the specific determination method and use method of the flowmeter factor in the handover agreement. 6.1.3 Taking the volume-weight method as an example (flowmeter factor method), during the measurement period, record the indicated volume (Vt), which is measured by the flowmeter under the measurement temperature and measurement pressure. Based on the flowmeter factor corresponding to the different operating flow rates of the flowmeter, multiply the indicated volume by the flowmeter factor MF, temperature correction factor Ctl, pressure correction factor Cpl, to obtain the gross standard volume. If water needs to be deducted from it, deduct it to obtain the net standard volume of the oil, as the measurement result. OR multiply the net standard volume of the oil product by the standard density of the oil product, then multiply it by the air buoyancy correction factor (Fa), to get the net weight of the oil product in the air, as the measurement result. It can also use the net standard volume of the oil, which is multiplied by the weight conversion factor (Fw), to get the net weight of the oil in the air. 6.2 Volume settlement 6.2.1 Calculation formula a) The gross standard volume in air is calculated according to formula (1): formula (22). Using the flowmeter factor method, the MF is calculated or looked up Table, according to the flowmeter factor table corresponding to the average mass during the flowmeter measurement period. Note that some mass flowmeter transmitters have MF configuration correction function. The transmitter configuration MF value shall be confirmed in advance (the original value shall be 1.0000), to prevent secondary MF correction of the flowmeter measurement value. 6.3.4 Calculation formula of oil moisture content msw is calculated according to formula (26): 7 Measurement bills 7.1 Measurement data requirements 7.1.1 Use standardized conditions and prescribed calculation procedures, to obtain consistent calculation results from the same set of oil quantity data; standardize the calculation rules for oil quantity (volume or mass). 7.1.2 The measurement bill is a written notice from the trading parties, confirming the quantity of oil products received or delivered (including the main quality indicators), which is the basis for the financial settlement of the trading parties. If the ownership or custody of the oil products changes during the transfer, the measurement bill will serve as a contract between the authorized representatives of the relevant parties for the measurement quantity and quality inspection of the transferred oil products. 7.1.3 Ensure that copies of measurement bills (including faxes) are clearly written, unless the relevant parties agree to make modification or deletion on the measurement bills. If this happens, it shall be explained and signed on this measurement bill. Otherwise, modification and deletion on the measurement bill are prohibited. 7.1.4 If there is an error in the measurement bill, the bill shall be marked "invalid" and a new bill shall be prepared. If the invalid measurement bill has a mechanically printed number, then this number can be printed on the new measurement bill; the invalid measurement bill must be clamped (or attached) to the new measurement bill, to prove the validity of the above-mentioned printed number. 7.2 Calculation process of measurement parameters During the oil measurement and calculation process, the order of each measurement Appendix A (Normative) Measurement data reading rules A.1 Flowmeter reading A.1.1 For measuring stations (points) where the flowmeter is equipped with a glass density float meter, when the measuring time is not greater than 8 hours, only the starting and ending volume indication values of the flowmeter are recorded. When the measurement time is greater than 8 hours, the readings at the beginning and end of measurement and the flowmeter volume indication value every 8 hours need to be recorded. For some measurement stations (points), record the cumulative value of the flowmeter every 2 hours; settle it once every 8 hours. A.1.2 For measuring stations (points) where the flowmeter is equipped with an online density meter, the volume value indicated by the flowmeter head and the mass value displayed by the mass instrument shall be recorded, as required by A.1.1. For some metering stations (points), record the cumulative value of the flowmeter once every 2 hours; set it once every 8 hours. A.2 Temperature and pressure measurement A.2.1 The graduation value of the thermometer is not greater than 0.2 °C. The maximum allowable error of the temperature transmitter is better than ±0.2%. The accuracy level of the pressure gauge is not less than 0.4; the maximum allowable error of the pressure transmitter is better than ±0.2%. A.2.2 The temperature and pressure measurement points shall be selected closest to the outlet of the flowmeter. A.2.3 For loading measurement, the temperature and pressure shall be measured once, 10 minutes after the measurement starts (the oil in the tank flows through the flowmeter), 10 minutes before the measurement ends, and in the middle of the measurement. The arithmetic mean of the three temperatures and pressures shall be taken as average temperature and pressure of oil. A.2.4 For shipping measurement, the temperature and pressure shall be measured 10 minutes after the measurement starts (the oil in the tank flows through the flowmeter) and 10 minutes before the measurement ends, and once every 1 hour. Take the arithmetic mean of each measured temperature and pressure, within the measurement time, as the average temperature and pressure of the oil product. A.2.5 For continuous oil measurement in pipelines, temperature and pressure measurements shall be taken once every 2 hours. Take the arithmetic mean of four temperature and pressure measurements, within 8 hours, as the average temperature and pressure of the oil within 8 hours. A.3 Sampling A.3.1 Automatic sampling shall comply with the requirements of GB/T 27867. Manual sampling shall comply with the requirements of GB/T 4756. The sampling location shall be on the pipeline close to the outlet of the flowmeter. In case of dispute, the flow rate sample shall prevail. A.3.2 For loading measurement without automatic sampler, sampling shall be taken once at the beginning, middle and 10 minutes before the end of measurement; the samples shall be mixed into a combined specimen with equal volume (or mass). A.3.3 For shipment measurement without automatic sampler, sampling shall be done once the measurement starts and the oil in the tank flows to the sampler; then take sample once every 1 hour (shipping flow rate is greater than 2000 m3/h) or 2 hours (shipping flow rate is not more than 2000 m3/h). Mix the samples with equal volumes (or masses) into a combined specimen. A.3.4 For continuous oil measurement in pipelines, take sample once every 2 hours; blend it into a combined specimen every 4 hours. A.4 Determination of oil density using glass density float meter A.4.1 The measurement method shall comply with the provisions of GB/T 1884. A.4.2 For loading and shipping measurement, make a combined specimen during the entire measurement process, to measure the density. A.4.3 For continuous oil delivery measurement in pipelines, make a combined specimen once every 4 hours. Use the arithmetic mean of the test results of the secondary combined specimens within 8 hours as the 8-hour density measurement result. It may also densify the number of samples within 8 hours. A.5 Determination of moisture content in crude oil A.5.1 The determination of moisture content of crude oil shall comply with the provisions of GB/T 8929. A.5.2 Make a combined specimen for the entire measurement process of loading and shipping. A.5.3 For continuous oil measurement in pipelines, prepare a combined specimen once every 4 hours, to measure its volumetric (or mass) moisture content. Take the arithmetic mean of the measured results of the secondary combined specimens within 8 hours, as ......


GB/T 9109.5-2009 Petroleum and liquid petroleum products. Calculation of oil quantities. Dynamic measurement ICS 75.180.30 E08 National Standards of People's Republic of China Replacing GB/T 9109.5-1988 Petroleum and liquid petroleum products - Calculation of oil Dynamic measurement (ISO 4267-2. 1988Petroleumandliquidpetroleumproducts- CalculationofoilquantitiesPart 2. Dynamicmeasurement, NEQ) Posted 2009-03-16 2009-10-01 implementation Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China Standardization Administration of China released Table of Contents Introduction Ⅲ Introduction Ⅳ 1 Scope 1 2 Normative references 1 3 Terms, definitions and symbols 1 4 measurement parameters of significant digits and rounding off 4 Preparing basic data 5 5 6 6 oil calculation method 7 measurement instruments 9 8 quantities of oil sample 10 Appendix A (informative) Measurement data reading rule 18 Appendix B (normative) the volume of oil pressure correction coefficient calculation method 19 Annex C (normative) hydrocarbon compression factor table 20 Annex D (normative) Petroleum and liquid petroleum products - 20 ℃ to 15 ℃ density density conversion table 22 Annex E (informative) air buoyancy correction coefficient table 24 Format and content of Annex F (informative) Measurement instruments 25 Annex G (normative appendix) 15 ℃ density to the tub/t coefficient conversion table 26 Foreword This standard ISO 4267-2. 1988 "Petroleum and liquid petroleum products - Calculation of oil quantities - Part 2. Dynamic measurement" degree of consistency Not equivalent. The standard reference to American Petroleum Institute (API) "oil metering Manual" (MPMS) Chapter 12, Section 2, "fuel gauge Operators --- dynamic measurement "and other standards of technical content. The main difference. "dynamic measuring oil and liquid petroleum products - Calculation of oil quantities - Part 2". This standard and ISO 4267-2 1988 as follows. --- Taking into account the calculated meter factor has made it clear in all types of meter verification procedures have been enacted in the country, so the standard delete We went ISO 4267-2. 1988 and API calculation method of oil metering Chapter 12 Section 2 meter coefficients and standard Quasi appliances such as volume control, calculation of standard metal gauges standard volume, only shows the specific use of the flowmeter coefficient. --- Oil based upon the calculation of the standard reference conditions GB/T 17291-1998 "Standard reference conditions and liquid petroleum gas measurement" Executive OK, did not use ISO 4267-2. 15 ℃ or 60 "standard temperature specified in the standard 1988, but in the example given 15 ℃. 101.325kPa lower volume and value calculation process. --- In ISO 4267-2 standard, fuel evaluates certain volume of the reference temperature, air buoyancy correction does not involve the quality or change Operators. The present standard fuel calculation includes not only the reference volume calculation also includes the weight of the air, thus involving And air buoyancy correction value or the (vacuum) to the air quality in terms of weight conversion factor. This standard provides a different repair Positive method for selecting different measurement methods. --- Combined with China's national conditions and actual usage, to adjust the standard part of the chapter, section, article structure. This standard replaces GB/T 9109.5-1988 "Dynamic measurement of crude oil computing", the main changes are as follows. --- Taking into account crude oil, foreign trade China's current status of the measurement, the fuel calculation method includes both existing domestic oil and liquid stone Oil product weight in air, further comprising a volume of internationally accepted calculation, in order to adapt to different business metering, billing party Style needs. --- The standard of refined oil products increased dynamic measurement of quantities of oil sample; also increased the calculation of barrels of oil into the air in terms of weight Examples. --- This standard adds to Appendix D, Appendix E, Appendix F, Appendix G. The Standard Appendix B, Appendix C, Appendix D, Appendix G is a normative appendix, Appendix A, Appendix E, Appendix F is informative appendix. The standard proposed by China National Petroleum Corporation. This standard by the National Standardization Technical Committee of Oil and Gas. This standard is drafted by. China National Petroleum Corp. Metrology Institute. Participated in the drafting of this standard. China National Petroleum Corporation Pipeline Company, Jinzhou Petrochemical Company, Xinjiang Oilfield points the company. The main drafters of this standard. Zheng Qi, Gao Jun, Wu Pan Pi Luo Yang again, Wude Gui, Gou Qing Yu, Gan Cong laugh. introduction National Standard GB/T 9109.5-1988 "Dynamic measurement of crude oil computing" since January 1, 1989 implementation, in promoting me Dynamic measurement technology development country's crude oil, oil normative calculation methods, has played a positive role in promoting. The past two decades, domestic liquid State hydrocarbons - Dynamic measurement of changes in technology and new standards took place, under the premise to adapt to China's specific national conditions, in order to promote hair liquid hydrocarbon measurement technology Exhibition and fuel metering mode with the international practice, it is necessary to GB/T 9109.5-1988 standard to be modified. Taking into account the standard of advanced technology, application and continuity, combined with the accumulation of the past decade in the oil dynamic measurement and petroleum products Experience and practices, referring to ISO 4267-2. 1988 "Petroleum and liquid petroleum products - Calculation of oil quantities - Part 2. Dynamic measurement Amount ", and refer to the API Petroleum Measurement Manual Chapter 12" Calculation of oil quantities - Part 2. Dynamic measurement "part of the standard is formulated, Dynamic measurement of the amount of oil on the oil and liquid petroleum products prescribed calculation method. Petroleum and liquid petroleum products - Calculation of oil Dynamic measurement 1 Scope This standard specifies the calculation of fuel oil and liquid petroleum products (hereinafter referred to as oil) dynamic measurement method, define and explain the oil Calculation of dynamic measurement of oil terminology and symbols used, the provisions of the measuring instruments with different weight of oil in the air or in the standard reference The volume of oil under the formula, and gives the relevant measurement parameters and the correction coefficient and its corresponding formula to calculate the amount of oil involved and Number of tables. This standard applies only to the dynamic measurement of single-phase oil. Dynamic Oil calculation method specified in this standard, excluding liquefied petroleum gas and Stable light hydrocarbon fuel calculations. Standard reference conditions of the standard fuel used in the calculations are. temperature of 20 ℃, pressure 101.325kPa. 2 Normative references The following documents contain provisions which, through reference in this standard and become the standard terms. Where dated references, which subsequently Some amendments (not including errata content) or revisions do not apply to this standard, however, encourage the parties to the agreement are based on research Study whether the latest versions of these documents. For undated reference documents, the latest versions apply to this standard. GB/T 260 Petroleum products - Determination of water content GB/T 1884 crude oil and liquid petroleum products - Laboratory determination of density (density meter method) GB/T 1885-1998 Petroleum Measurement Tables GB/T 4756 Petroleum liquids - Manual method sampling GB/T 6531 crude oil and fuel oils precipitate assay (extraction method) GB/T 8170 repair value expressed about the rules and limit values and judgment GB/T 8927 Petroleum and liquid petroleum products - Temperature measurements - Manual methods Determination of GB/T 8929 water content of crude oil distillation GB/T 21450 crude oil and petroleum products in the density 638kg/m3 ~ 1074kg/m3 range hydrocarbons compression factor SH/T 0604 crude oil and petroleum products densitometry (U-type vibration tube method) SY/T 5317 petroleum liquids pipeline automatic sampling 3 Terms, definitions and symbols The following terms, definitions and symbols apply to this standard. 3.1 Terms and Definitions 3.1.1 During measurement, the value of oil flow meter counter or other display unit displays, including all of the water through the meter and delivered Precipitate. 3.1.2 Indicates the volume or mass flow rate multiplied by the oil and the corresponding meter factors, the temperature and pressure parameters have not been corrected. ......

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