GB 1886.59-2015 English PDF

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GB 1886.59-2015: National Food Safety Standard -- Food Additives -- Petroleum ether
Status: Valid

Standard ID	USD	BUY PDF	Lead-Days	Standard Title (Description)	Status
GB 1886.59-2015	189	Add to Cart	3 days	National Food Safety Standard -- Food Additives -- Petroleum ether	Valid

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Basic data

Standard ID: GB 1886.59-2015 (GB1886.59-2015)
Description (Translated English): National Food Safety Standard -- Food Additives -- Petroleum ether
Sector / Industry: National Standard
Classification of Chinese Standard: X40
Word Count Estimation: 9,940
Date of Issue: 2015-09-22
Date of Implementation: 2016-03-22
Regulation (derived from): PRC National Health and Family Planning Commission 2015 No.8
Issuing agency(ies): National Health and Family Planning Commission of the People's Republic of China

GB 1886.59-2015: National Food Safety Standard -- Food Additives -- Petroleum ether

---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
(National food safety standards for food additives petroleum ether) National Standards of People's Republic of China National Food Safety Standard Food additives petroleum ether Issued on. 2015-09-22 2016-03-22 implementation People's Republic of China National Health and Family Planning Commission released National Food Safety Standard Food additives petroleum ether

1 Scope

This standard applies to natural petroleum fractions prepared food additive petroleum ether. The product is at a boiling point between 25 ℃ ~ 105 ℃ of Light petroleum products, mainly for mixed alkanes (n homogeneous and heterogeneous) and naphthenes.

2 Technical Requirements

2.1 Sensory requirements Sensory requirements shall comply with the requirements of Table 1. Table 1 Sensory requirements Project requires test methods Color colorless Transparent liquid state Odor similar to the smell of gasoline Take appropriate sample in a clean, dry colorimetric tube, in natural light By visually observe its color and status, olfactory odor 2.2 Physical indicators Physical and chemical indicators should be consistent with the provisions of Table 2. Table 2. Physical and chemical indicators Item Index Test Method Evaporation residue/(mg/100mL) ≤ 2 GB/T 6324.2 S/(mg/kg) ≤ 10 GB/T 6324.4 Benzene, φ /% ≤ 0.05 Appendix A A.4 Aromatic hydrocarbons (benzene), φ /% ≤ 0.3 Appendix A A.4 Bromine index/(mg/100g) ≤ 200 Appendix A A.5 Lead (Pb)/(mg/kg) ≤ 2.0 GB 5009.12 PAHs test by GB 7363

Appendix A

Testing method A.1 Warning Some test procedures prescribed test method can lead to dangerous situations. The operator shall take appropriate safety and health practices. A.2 General Provisions Unless otherwise indicated in the analysis using only recognized as analytical reagents and GB/T 6682 stipulated three water. Test Methods The standard titration solution, impurity measurement standard solution, preparations and products, did not indicate when the other requirements, according to GB/T 601, GB/T 602 Preparation and provisions GB/T 603; and the solution, unless otherwise indicated, are the solution. A.3 Identification Test Insoluble in water, soluble in ethanol. A.4 benzene and aromatics (benzene) Determination A.4.1 Method summary By gas chromatography under the selected chromatographic conditions, sample after vaporization separated by capillary column with flame ionization detector Detection with internal standard. A.4.2 Reagents and materials A.4.2.1 Hydrogen. the volume fraction of not less than 99.99%, silica gel and molecular sieves, purified. A.4.2.2 nitrogen. the volume fraction of not less than 99.99%, silica gel and molecular sieves, purified. A.4.2.3 Air. silica gel and molecular sieves, purified. A.4.2.4 isooctane. ≥99%, aromatic substance containing less than 0.05%. A.4.2.5 internal standard. n- decane and n- undecane, chromatography; or n- decane and n- dodecane, chromatography. A.4.2.6 standard solution A. 0.5% of the internal standard solution and 0.5% iso-octane benzene. A.4.2.7 Standard solution B. 0.5% of n- decane, 0.5% of the internal standard solution and 0.5% iso-octane benzene. A.4.3 Instruments and Equipment A.4.3.1 Gas chromatograph. with a capillary column injector device and a flame ionization detector. A.4.3.2 micro syringe. 10μL. A.4.4 columns and operating conditions The recommended standard chromatographic columns and the operating conditions are shown in Table A.1, n- decane can before the same degree of separation of the benzene peak column And chromatographic operating conditions can also be used. Table A.1 Recommended chromatographic columns and operating conditions Project Parameters Column pentaerythritol -β- cyanide ether capillary column Column length 30m × 0.25mm × column diameter Column temperature/℃ 95 Vaporization chamber temperature/℃ 275 Detector temperature/℃ 250 Carrier gas (nitrogen) flow rate/(mL/min) 3 Split ratio 100.1 Injection volume/μL 10 Determination of the internal standard response factor with respect to benzene A.4.5 Benzene with respect to the internal standard response factor to f expressed by the formula (A.1) Calculated. f = A1 × w w1 × A (A.1) Where. A1 --- internal standard peak area; w --- A standard solution mass fraction of benzene; W1 --- quality within the standard solution A standard material fraction; A --- benzene peak area. A.4.6 Analysis step Approximately 0.1mL internal standard into a 25mL volumetric flask, using analytical balance. With the test sample was dissolved and diluted to the mark. press Table A.1 given operating conditions inject 10μL sample containing internal standard. Before measuring the internal standard peak area and benzene, change the instrument failure Save to ensure that the peak of the peak of at least 25% of full scale. Measurement and benzene internal standard peak area. Paul and typical chromatograms of the components The residence time in Appendix B in Figure B.1 and Table B.1. A.4.7 Quantitative Analysis Using internal standard. A.4.8 Calculation Results The mass fraction of a measured component wi, according to equation (A.2) Calculated. wi = Ai × f × m1 A2 × m × 100% (A.2) Where. Ai --- a peak area of component being tested; f --- benzene with respect to the response factor of the internal standard; m1 --- added mass of the internal standard in grams (g); A2 --- internal standard peak area; M --- the quality of the sample, in grams (g). A.5 Determination of bromine index A.5.1 Method summary Aware of the large number of sample was dissolved by the standard bromide - bromate special solution titrate in. When there is the presence of free chlorine, causing the system A sudden change in conductivity, potentiometric titrator indicate the end. Bromine index refers 100g sample occurred under the test conditions of the reaction mass of bromine , And the unit of mg/100g. A.5.2 Reagents and materials A.5.2.1 mixed solvent. A 714mL glacial acetic acid, 134mL of carbon tetrachloride, 134mL of methanol and 18mL of sulfuric acid (15) were mixed. A.5.2.2 sodium thiosulfate standard titration solution. c (Na2S2O3) = 0.05mol/L. A.5.2.3 bromide - potassium bromate standard solution. c ( 6KBr-KBrO3 ) = 0.05mol/L. Weigh 5.1g 1.4g potassium bromide and potassium bromate, Diluted with water to 1000mL. 1mL to 50mL glacial acetic acid and hydrochloric acid test solution was added to 500mL iodine bottle. Cooled in an ice-water bath Possession of about 10min, and spinning iodine bottle, add 40mL ~ 50mL (accurate to 0.01mL) of bromide from 50mL burette - Bromate solution, speed control between 90s ~ 120s. Quickly covered with caps, mix a solution, and this placed in an ice water bath. In the iodine bottle The bottle plus 5.0mL15% potassium iodide solution. 5min after iodine bottle was removed from the ice water bath and remove the stopper, so that 15% of the iodide Potassium iodine solution is slowly flowing into the bottle. Mix well with clean water 100mL cork, bottle and the bottle wall, and immediately with sulfur 0.05mol/L of Sodium thiosulfate standard solution titration, near the end added starch test solution slowly titrated to a blue color disappears, is the end. Potassium bromide - potassium bromate standard solution concentration c1, according to formula (A.3) Calculated. c1 = V2 × c2 V1 (A.3) Where. V2 --- consumption volume of sodium thiosulfate standard titration solution, in milliliters (mL); Concentration c2 --- sodium thiosulfate standard titration solution, expressed in moles per liter (mol/L); V1 --- added potassium bromide - potassium bromate standard solution volume, in milliliters (mL). A.5.3 Instruments and Equipment A.5.3.1 titrator. A.5.3.2 titration vessel. capacity of about 150mL, and can be maintained with a glass casing 1 ℃ ~ 5 ℃ condensation plant. Two platinum electrodes Place the distance is not greater than 5mm, and depth below the liquid level. Mechanical or magnetic stirrer, and stirred sufficiently not cause the bubbles. A.5.3.3 dropper. capacity of 10mL and 50mL. A.5.3.4 iodine bottle. with a glass stopper, capacity 500mL. A.5.4 Analysis step With a suitable cooling fluid through the casing titration vessel, circulating cooling titration vessel maintained at 1 ℃ ~ 5 ℃. The mixture was added 110mL Co-solvent (A.5.2.1) and a sample of 8g ~ 10g. Open stirrer, stirring rate adjusted to the solution, but not from the whirlpool bubbles appropriate. The vessel was cooled to 0 ℃ ~ 5 ℃, and the temperature was maintained during the titration. With 10mL burette slowly added in small amounts of potassium bromide - potassium bromate Solution, until near the end of the detector display. 71/92 0.1mL potassium bromide - potassium bromate solution until a stable end point detector (End holding 30s). Blank test, was added potassium bromide - potassium bromate solution should be less than 0.1mL. A.5.5 Calculation Results W bromine index bromine, the reaction mass under specified conditions with bromine 100g sample, the unit is milligram per hundred grams (mg/100g), press Formula (A.4) Calculated. w = bromine (V3-V4) × c × M × 100 (A.4) Where. V3 --- sample consumption of potassium bromide - potassium bromate standard titration solution volume in milliliters (mL); V4 --- blank test consumption of potassium bromide - potassium bromate standard titration solution volume in milliliters (mL); c --- Potassium bromide - potassium bromate standard titration solution concentration, expressed in moles per liter (mol/L); Molar mass M --- elemental bromine, in units of grams per mole (g/mol), [M (Br) = 79.9]; 100 --- conversion factor; M --- the quality of the sample, in grams (g).

Appendix B

Retention time typical chromatograms benzene and aromatics content and determination of the components Typical chromatograms B.1 benzene and aromatics content determination Typical chromatograms of benzene and aromatics content determination Figure B.1. Explanation. 1 --- petroleum ether; 2 --- benzene; 3 --- n- decane; 4 --- toluene; 5 --- n- undecane; 6 --- ethylbenzene; 7 --- p-xylene; 8 --- xylene; . 9 --- o-xylene. A typical chromatogram Figure B.1 benzene and aromatics content determination Typical chromatograms B.2 benzene and aromatics content determination of the retention time of each component Typical chromatograms of benzene and aromatics content determination of the retention time of the components shown in Table B.1. A typical chromatogram Table B.1 benzene and aromatics content determination of the retention time of each component Ingredient name Retention time/min Benzene 6.1 Toluene 7.0 Ethylbenzene 8.0 Table B.1 (continued) Ingredient name Retention time/min 8.5 m-xylene and p-xylene Ortho-xylene 10.0 n- dodecane 6.5 ......

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