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JB/T 11880.2-2014 English PDF

JB/T 11880.2-2014 (JB/T11880.2-2014, JBT 11880.2-2014, JBT11880.2-2014)
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JB/T 11880.2-2014English270 Add to Cart 0--9 seconds. Auto-delivery Diesel engines. Selective catalytic reduction (SCR) systems. Part2: Urea solution tanks Valid JB/T 11880.2-2014
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BASIC DATA
Standard ID JB/T 11880.2-2014 (JB/T11880.2-2014)
Description (Translated English) Diesel engines. Selective catalytic reduction (SCR) systems. Part2: Urea solution tanks
Sector / Industry Mechanical & Machinery Industry Standard (Recommended)
Classification of Chinese Standard J93
Classification of International Standard 27.020
Word Count Estimation 24,232
Date of Issue 2014/7/9
Date of Implementation 2014/11/1
Quoted Standard GB/T 250; GB/T 1842-2008; GB/T 2828.1-2012; GB/T 16422.2; GB 18296; QC/T 417.1; QC/T 417.2; QC/T 417.3; QC/T 417.4; QC/T 417.5; QC/T 572; ISO 22241-3; ISO 22241-4-2009; SAE J2044
Drafting Organization Zhejiang Iron Horse Technology Co., Ltd.
Administrative Organization National Standardization Technical Committee combustion engine
Regulation (derived from) Ministry of Industry and Information Technology Notice No. 47 of 2014
Issuing agency(ies) Ministry of Industry and Information Technology of the People's Republic of China
Summary This Standard specifies the selective catalytic reduction (SCR) system, the terms and definitions urea solution tank, product type, technical requirements, test methods, inspection rules, marking, packaging, transportation and storage requirements. This s


JB/T 11880.2-2014 JB MECHANICAL INDUSTRY STANDARD OF THE PEOPLE’S REPUBLIC OF CHINA ICS 27.020 J 93 Filing number: 47526-2014 Diesel engines - Selective catalytic reduction (SCR) systems - Part 2: Urea solution tanks ISSUED ON: JULY 09, 2014 IMPLEMENTED ON: NOVEMBER 01, 2014 Issued by: Ministry of Industry and Information Technology of PRC Table of Contents Foreword ... 4  1 Scope ... 5  2 Normative references ... 5  3 Terms and definitions ... 6  4 Product model ... 7  5 Technical requirements ... 7  5.1 General technical requirements ... 7  5.2 Performance requirements ... 8  6 Test method ... 10  6.1 Specimen ... 10  6.2 Visual inspection ... 10  6.3 Inspection of dimensions and tolerances ... 10  6.4 Tightness test ... 10  6.5 Vibration durability test ... 10  6.6 Pressure resistance test ... 11  6.7 Low-temperature shock resistance test of plastic urea solution tank ... 11  6.8 Heat resistance test of plastic urea solution tank ... 11  6.9 Weather resistance test of plastic urea solution tank... 11  6.10 Environmental stress cracking resistance test of plastic urea solution tank 12  6.11 Chemical resistance test of plastic urea solution tank ... 12  6.12 Internal cleanliness test ... 12  6.13 Ventilation test ... 12  7 Inspection rules ... 12  7.1 Classification of inspections ... 12  7.2 Exit-factory inspection ... 13  7.3 Sampling inspection ... 13  7.4 Type inspection ... 13  8 Marking, packaging, transportation and storage ... 14  8.1 Marking ... 14  8.2 Packaging ... 14  8.3 Transportation and storage ... 15  Appendix A (Informative) Recommended materials for urea solution tank ... 16  Appendix B (Normative) Design requirements of filling port ... 17  Appendix C (Normative) Requirements for urea solution tank level and temperature sensor ... 25  Diesel engines - Selective catalytic reduction (SCR) systems - Part 2: Urea solution tanks 1 Scope This part of JB/T 11880 specifies the terms and definitions, product model, technical requirements, test methods, inspection rules, marking, packaging, transportation and storage of the urea solution tanks in the selective catalytic reduction (SCR) system. This part applies to SCR systems for diesel engines and vehicles. SCR systems for other purposes can also be implemented by reference. 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) are applicable to this standard. GB/T 250 Textiles - Tests for color fastness - Grey scale for assessing change in color GB/T 1842-2008 Plastics - Test method for environmental stress-cracking of polyethylene GB/T 2828.1-2012 Sampling procedures for inspection by attributes - Part 1: Sampling schemes indexed by acceptance quality limit (AQL) for lot-by-lot inspection GB/T 16422.2 Plastics - Methods of exposure to laboratory light sources - Part 2: Xenon-arc sources GB 18296 Safety property requirements and test methods for automobile fuel tank QC/T 417 (all parts) Road vehicles - connections for on-board electrical wiring harnesses QC/T 572 Directives for motor vehicle cleanliness - Measuring method 4 Product model The product model is compiled as follows: Example: NSG-35-475 refers to the urea solution tank with a rated volume of 35 L and a 475-type urea solution tank level and temperature sensor. 5 Technical requirements 5.1 General technical requirements 5.1.1 Working temperature The operating temperature range of the urea solution tank is -40 °C ~ 85 °C. 5.1.2 Materials Selection of materials for the urea solution tank and its accessories shall meet the relevant requirements of the storage quality requirements of urea solution. Please refer to Table A.1 and Table A.2 for material selection. All materials that cannot be determined whether they are compatible with the urea solution need to be tested, to evaluate the material's possible impact on the quality of the urea solution product. 5.1.3 Structure 5.1.3.1 If the urea solution tank is formed by processing the plastic materials, the tank can be divided into natural color black color. If there are special requirements, it shall be negotiated and determined by the supplier and the buyer. 5.1.3.2 The design of the filling port of the urea solution shall meet the requirements of Appendix B. 5.1.3.3 In order to meet the requirements of the urea solution tank level and temperature sensor to test the urea consumption, the parameters of the urea level sensor shall have a corresponding relationship with the actual volume. Code of urea solution tank level and temperature sensor Rated volume Code of urea solution tank Carry out the test according to 6.6, the requirements are as follows: a) Leakage and cracking are not allowed, but permanent deformation is possible. b) At room temperature, the dimensional change rate of resistance to negative pressure is not more than 1%; at 50 °C, the dimensional change rate of resistance to negative pressure is not more than 3%. 5.2.4 Low-temperature shock resistance of plastic urea solution tanks After the test specified in 6.7, the urea solution tank is not allowed to leak. 5.2.5 Heat resistance of plastic urea solution tank Carry out the test according to 6.8, and the requirements are as follows: a) When filling liquid, the urea solution tank is not allowed to leak; b) When there is no liquid, there is no abnormal phenomenon such as deformation or discoloration by visual inspection. 5.2.6 Weather resistance of plastic urea solution tank After the test specified in 6.9, the comparison grade of the gray scale for discoloration of the plastic urea solution tank is grade 4 ~ grade 5. 5.2.7 Environmental stress cracking resistance of plastic urea solution tanks The environmental stress cracking time of the urea solution tank material is not less than 200 h. 5.2.8 Chemical resistance The urea solution tank has no abnormal phenomena such as dissolution, swelling, discoloration, or cracks. 5.2.9 Internal cleanliness The total amount of impurities in the urea solution tank assembly is less than 100 mg. 5.2.10 Ventilation Minimum ventilation of the air vent is not less than 2 L/min. 6.6 Pressure resistance test The urea solution tank is fixed on the test device in the simulated loading form. Keep the ambient temperature of 50 °C ± 2 °C. Fill the urea solution tank with water of rated volume at a temperature of 50 °C ± 2°C. Close the lid. Seal all inlets and outlets. Apply a pressure of 30 kPa to the tank. Hold the pressure for 5 hours. Seal all other inlets and outlets of the urea solution tank. Place the urea solution tank in a metal frame of standard size under the specified test conditions for the following two tests: a) Apply a negative pressure of 3.0 kPa to the urea solution tank at room temperature; measure the dimensional changes on each surface of the urea solution tank after maintaining the pressure for 20 minutes; b) After holding the temperature at 50 °C for 5 hours, add a negative pressure of 3.0 kPa to the urea solution tank at this temperature; measure the dimensional changes on each surface of the urea solution tank after maintaining the pressure for 20 minutes. 6.7 Low-temperature shock resistance test of plastic urea solution tank It is performed according to the requirements of GB 18296. 6.8 Heat resistance test of plastic urea solution tank According to the provisions of GB 18296, the urea solution tank is fixed on the test device in the form of simulated loading. Add 2/3 of the rated volume of water to the tank at room temperature. Place it at an ambient temperature of 85 °C ± 2 °C (such as placing it in 85 °C ± 2 °C water vapor medium) for 1 h. If not filled with liquid, place it at 85 °C ± 2 °C ambient temperature for 200 h. Observe the appearance change after taking it out. 6.9 Weather resistance test of plastic urea solution tank. Cut a specimen which has a size of 60 mm x 60 from the product. Put it into the xenon lamp weathering test box, with the outer surface facing the lamp tube. The blackboard temperature is 63 °C ± 3 °C and the relative humidity is 50% ± 5 %. According to the test specifications as specified in GB/T 16422.2, make it 7.2 Exit-factory inspection Before the product leaves the factory, it needs to be inspected by the company's quality inspection department in accordance with the provisions of this part. After passing the inspection, the product can be delivered only after the product inspection certificate is issued. The inspection items, requirements and test methods of the exit-factory inspection shall be implemented in accordance with Table 2. 7.3 Sampling inspection The sampling plan and the acceptance quality level AQL of the sampling inspection of the urea solution tank shall be implemented by the quality inspection department of the manufacturer in accordance with the relevant provisions of GB/T 2828.1. The inspection items, requirements and test methods of the sampling inspection shall be implemented in accordance with the provisions of Table 2. 7.4 Type inspection 7.4.1 Type inspection shall be carried out if one of the following situations occurs: a) Trial type approval of new products or old products after trans-plant production; b) There are major changes in structure, materials, and processes that may affect product performance; c) Production restoration after one year of suspension; d) The results of the exit-factory inspection are quite different from the results of the last type inspection; e) During normal production, once a year; f) The national quality supervision agency puts forward the requirements for type inspection. 7.4.2 The inspection items, technical requirements and test methods of type inspection shall be implemented in accordance with Table 2. Appendix B (Normative) Design requirements of filling port B.1 Scope Appendix B specifies the most basic functional requirements and geometric dimensions of the filling port of the urea solution tank as well as the compatibility conditions with the external filling system. B.2 Terms and definitions B.2.1 Filling port of urea solution tank Refers to the necessary device for filling the urea solution on the urea solution tank assembly, usually including a filler neck, an inlet adapter, a filler cap. B.2.2 Filler neck Refers to the connecting part of the urea solution tank where the solution is filled, the opening of which is the inlet adapter. B.2.3 Inlet adapter Refers to the part where the filler neck is connected to the external filling system. It has a specified geometric size interface and integrates a magnetic ring. This magnetic ring can prevent the urea solution from being added to the fuel tank by mistake. B.2.4 Filler cap Refers to the parts installed on the filler neck to prevent the urea solution from overflowing and prevent contamination. It can be temporarily opened or removed during filling. B.2.5 Open filling system Refers to an ordinary filling system that does not require air-tightness between the filling nozzle and the filler neck, such as using a small volume container to inject urea solution into the open filling system. B.2.6 Sealed filling system Refers to a special filling system that requires air tightness between the filling nozzle and the filler neck. system to establish the liquid pressure required for normal operation. C.2.2 Technical requirements C.2.2.1 Appearance The shape, size and tolerance of the sensor shall meet the requirements of the drawing. The plating and coating on the surface of the sensor shall be free of defects such as peeling, spots, blistering, cracks. The fasteners shall not be loose or damaged. The sign (or lettering) shall be clear and fastened firmly. C.2.2.2 Tightness (liquid heating only) After the test specified in C.3.2, no air bubbles are generated at each connection of the sensor. C.2.2.3 Insulation resistance After the test specified in C.3.3, the insulation resistance between any lead wire of the sensor and the housing shall be greater than 20 MΩ. C.2.2.4 Pressure resistance Carry out the test according to the provisions of C.3.4; the burst pressure of the pipeline where the sensor is subjected to positive pressure shall not be less than 3 MPa, so as to ensure that the sensor can work normally under a pressure of not more than 1 MPa. C.2.2.5 Output signal Measure the output signal of the sensor according to the provisions of C.3.5; the value shall meet the requirements of the drawing; the deviation of the resistance value is within ± 1%. C.2.2.6 Temperature resistance Perform the test according to the method specified in C.3.5; the performance of the sensor meets the requirements of C.2.2.3 and C.2.2.5. C.2.2.7 Internal cleanliness The internal impurity content of the urea inlet and outlet pipes of the sensor is less than 100 mg C.3 Test method C.3.1 Appearance inspection ......