Standard No.:	NB/T 47060-2017
English Name:	The rotary air preheater
Chinese Name:	回转式空气预热器
Professional Classification:	NB    Professional Standard - Energy
Issued by:	NEA
Issued on:	2017-12-27
Implemented on:	2018-6-1
Status:	valid
Language:	English
File Format:	PDF
Word Count:	9500 words
Price(USD):	285.0
Delivery:	via email in 1 business day

Codeofchina.com is in charge of this English translation. In case of any doubt about the English translation, the Chinese original shall be considered authoritative. This standard is developed in accordance with the rules given in GB/T 1.1-2009 Directives for standardization - Part 1: Structure and drafting of standards. This standard was proposed by and is under the jurisdiction of China Standardization Committee on Boilers and Pressure Vessels (SAC/TC 262). This standard is issued for the first time. The rotary air preheater 1 Scope 1.1 This standard specifies the requirements for model and parameters, materials, design, manufacturing, inspection and acceptance, painting, packaging and marking, transportation, lifting and storage, site installation and performance test of rotary air preheater. 1.2 This standard is applicable to rotary air preheater with flue gas inlet temperature lower than or equal to 450℃ and rotor diameter greater than 4,000mm and less than or equal to 24,000mm. 2 Normative references The following referenced documents are indispensable for the application of this document. For dated references, only the edition cited applies. For undated references, the latest edition (including any amendments) applies. GB/T 700 Carbon structural steels GB/T 706 Hot rolled section steel GB/T 1348 Spheroidal graphite iron castings GB/T 1804 General tolerances - Tolerances for linear and angular dimensions without individual tolerance indications GB/T 3087 Seamless steel tubes for low and medium pressure boiler GB/T 9437 Heat resistant iron castings GB/T 9439 Grey iron castings GB/T 10184 Performance test code for utility boiler GB/T 11352 Carbon steel castings for general engineering purpose GB/T 12467.4 Quality requirements for fusion welding of metallic materials - Part 4: Elementary quality requirements GB/T 13237 Cold rolled quality carbon structural steel sheets and strips GB/T 13790 Cold rolled low carbon steel sheets and strips for vitreous enamelling GB/T 31567 Regenerative, enamelled and packed panels for air-gas and gas-gas heat exchangers GB/T 34348 Specification for utility boiler system JB/T 5000.8 Heavy mechanical general techniques and standards - Part 8: Forging JB/T 10045.3 Thermal cutting - Quality and dimensional deviation in the gas cutting NB/T 47013.3 Nondestructive testing of pressure equipments - Part 3: Ultrasonic testing NB/T 47013.4 Nondestructive testing of pressure equipments - Part 4: Magnetic particle testing NB/T 47013.5 Nondestructive testing of pressure equipments - Part 5: Penetrant testing NB/T 47014 Welding procedure qualification for pressure equipment NB/T 47043 Technical specification for manufacture of boiler steel structures NB/T 47055 Painting and packing specification of boiler 3 Model and parameters 3.1 Model 3.1.1 Model preparation method The model of rotary air preheater consists of four parts, i.e. manufacturer code, category code, model code and section number, which are connected by dash in the following form: 3.1.2 Model preparation example For a rotating-rotor air preheater manufactured by ××, which has a production model code of 24.0, section number of III, it’s model is ××-H-24.0-III. 3.2 Parameters See Table 1 for model code and common parameter series of rotary air preheater.   Table 1 Model code and common parameter series S.N. Model code Reference section number Rotor diameter reference value/mm 1 19.0 24 4,200 2 19.5 24 4,350 3 20.0 24 4,550 4 20.5 24 4,800 5 21.0 24 5,000 6 21.5 24 5,200 7 22.0 24 5,500 8 22.5 24 5,800 9 23.0 24 6,100 10 23.5 24 6,300 11 24.0 36, 48 6,600 12 24.5 36, 48 6,900 13 25.0 36, 48 7,200 14 25.5 36, 48 7,600 15 26.0 36, 48 7,900 16 26.5 36, 48 8,300 17 27.0 36, 48 8,650 18 27.5 36, 48 9,000 19 28.0 36, 48 9,500 20 28.5 36, 48 10,000 21 29.0 48 10,400 22 29.5 48 11,000 23 30.0 48 11,300 24 30.5 48 11,800 25 31.0 48 12,400 26 31.5 48 13,000 27 32.0 48 13,500 28 32.5 48 14,300 29 33.0 48 15,000 30 33.5 48 15,700 31 34.0 48 16,400 32 34.5 48 17,300 33 35.0 48, 60 18,100 34 35.5 48, 60 19,000 35 36.0 48, 60, 96 19,900 36 36.5 48, 60, 96 21,000 37 37 48, 60, 96 22,000 38 37.5 48, 60, 96 23,000 39 38 48, 60, 96 24,000 4 Materials 4.1 For the materials used to manufacture rotary air preheater, carbon steel shall meet the requirements of GB/T 700 and GB/T 706, steel sheet shall meet the requirements of GB/T 13237, pipe material shall meet the requirements of GB/T 3087, iron casting shall meet the requirements of GB/T 1348, GB/T 9437 and GB/T 9439, steel casting shall meet the requirements of GB/T 11352 and forging shall meet the requirements of JB/T 5000.8. 4.2 Where the flue gas temperature at inlet of rotary air preheater is higher than 430℃, the members at hot end shall be made of low alloy steel (Grade Q345), and the heat transfer element frame at cold end shall be made of corrosion-resistant low alloy steel based on the characteristics of fuel and flue gas. 4.3 The base material of enamelled heat transfer elements shall meet the requirements of GB/T 13790. 4.4 The raw materials may not be used for manufacturing until passing the factory acceptance, and shall be marked and transplanted according to relevant requirements so as to prevent mixing use of materials. Material substitution shall be approved according to standard procedures. 5 Design 5.1 The design of rotary air preheater shall include the following basic conditions: a) altitude for installation; b) flow, temperature and pressure of flue gas inlet; c) inlet temperature, outlet flow and outlet pressure of primary and secondary air; d) flow and mixing temperature of primary air entering into the coal mill; e) number and arrangement mode (vertical or horizontal) of rotary air preheaters and number of sections (generally, section II, III or IV) equipped for each boiler; f) limit requirements for parameters of rotary air preheater: smoke exhaust temperature (without air leakage correction), side resistance of flue gas and air leakage rate of rotary air preheater under assessment conditions; g) data of industrial analysis, elemental analysis and ash characteristic analysis on design and check fuel, coefficient of excess air at the flue gas inlet of rotary air preheater, or the composition of flue gas entering into rotary air preheater; h) protection means adopted for cold end of rotary air preheater, such as steam air heater or hot air recirculation. When necessary, SO2/SO3 conversion rate of denitrification system, ammonia escape concentration and inlet flow field distribution of flue gas and air of air preheater shall also be considered. 5.2 Type selection design of rotary air preheater shall be carried out based on the basic conditions to determine parameters such as diameter, heat exchange area, waveform of heat transfer element and height of enamelled heat transfer elements at cold end. 5.3 Structural design of rotary air preheater shall be carried out on the basis of type selection design to determine the overall dimension, driving or transmission mode and control system of air preheater. 5.4 Where a boiler is equipped with two rotary air preheaters, the output of a single rotary air preheater shall reach 60% the maximum continuous load of the boiler. 5.5 Central driving mode or shroud band transmission may be adopted for the rotary air preheater. The driving device of each rotary air preheater includes a set of main motor and a set of auxiliary motor, and soft start mode is adopted. The power of driving motor shall be provided with allowance and shall not be overloaded. When the main motor operates, the auxiliary motor shall not operate. When the main motor is out of operation, the auxiliary motor shall come into service through interlocking; when the main motor or auxiliary motor fails, the alarm device shall give an alarm. 5.6 The rotor of rotary air preheater shall be of modular compartment structure. Heat storage assemblies should be made into smaller ones for maintenance and replacement, and the influence of denitration shall be considered for heat storage assemblies at cold end. 5.7 The rotary air preheater shall be equipped with radial, axial and circumferential sealing systems. 5.8 The design of rotary air preheater shall meet the requirements that the heat transfer elements will not condense or clogged under various working conditions, and an effective soot blowing device shall be provided. The temperature of soot blowing steam source should be 300~350℃, and the steam flow of single barrel is generally greater than or equal to 5t/h; the outlet pressure of high-pressure water is generally 10~30MPa, and the water flow of a single barrel is generally 8~10t/h. 5.9 The rotary air preheater shall be equipped with hand-barring. A pneumatic motor may be configured as required by the user, and the noise at 1m away from the transmission device shall not exceed 85dB. 5.10 The rotary air preheater shall be provided with lighting peephole, effective and reliable fire alarm device, shutdown alarm device, fire-fighting system and cleaning system, and may also be equipped with dew point measuring device. 5.11 When the rotary air preheater is shut down, measures shall be taken to prevent deformation and smoke leakage. In case of double-row arrangement, isolation baffles shall be arranged in appropriate positions at the inlet of flue gas and air side, and the baffle shall be moved flexibly and reliably.

Foreword iii 1 Scope 2 Normative references 3 Model and parameters 4 Materials 5 Design 6 Manufacturing 7 Inspection and acceptance 8 Painting, packaging and marking 9 Transportation, lifting and storage 10 On-site installation 11 Performance test