热电厂300MW锅炉机组的结构设计和热力计算+CAD图纸
毕业论文关键词:结构设计; 300MW煤粉锅炉; 热力计算;
Design of a Power Plant Boiler
Abstract: boiler course is designed to "boiler Theory" Important Practice Teaching. Through curriculum design, students knowledge boiler theory courses has been consolidated, enrich and improve; thermodynamic calculation method to master the boiler unit and learn to use thermodynamic calculation related standards or guidelines, develop initial capacity considering the boiler unit design and layout ; students the ability to access to information and data analysis, to improve students' computing, graphics and other basic skills; students deal with engineering problems of serious and responsible attitude.This design is about 300MW boiler unit structure design and thermal calculation. Starting from fuel combustion and heat balance, according to the flow of flue gas boiler heating surface of each unit (furnace, platen superheater, convection superheater, reheater, economizer, air preheater) is calculated.
Key Words: structural design; 300MW pulverized coal boiler; thermodynamic calculat
目录
摘要. . i
Abstract .i
1 绪论 . 1
2 锅炉结构设计 . 2
2.1 锅炉整体布置 . 2
2.2 省煤器和水冷壁系统 . 2
2.2.1 省煤器和水冷壁系统流程 . 2
2.2.2 省煤器 . 3
2.2.3 水冷壁 . 3
2.3 燃烧系统 . 3
2.4 烟风系统 . 4
3 设计 . 5
3.1 概述 . 5
3.1.1 设计题目(300MW 煤粉锅炉设计计算) . 5
3.1.2 燃料的数据校核与判别 . 5
3.2 空气平衡 . 6
3.3 燃料的燃烧计算 . 7
3.4炉膛设计和传热计算 . 9
3.4.1 燃烧室尺寸的确定 . 9
3.4.2 炉膛的宽度和深度 . 9
3.4.3 煤粉燃烧器的型式和布置 . 11
3.4.4 燃烧室水冷壁的布置 . 11
3.5 后屏过热器 . 14
3.6 过热器与再热器 . 18
3.6.2 高温过热器 . 18
3.6.3 高温再热器计算 . 21
3.6.4 低温过热器计算 . 23
3.6.5 低温再热器 . 25
3.7 省煤器计算 . 27
3.8 空气预热器计算 . 30
3.9 锅炉热平衡校准 . 35
4 结论 . 37
致 谢 . 38
参考文献 . 39
附录 . 40
1 绪论 随着科学技术的进步和国家对节能、环保要求的提高,电力工业的发展日益受到资源和环境等因素的制约,以降低能源、减少污染物排放为目标的节能减排能力已成为衡量一个企业竞争力的首要标准。因此,针对新型锅炉的技术发展趋势以及新情况下对锅炉系统特殊要求,科技工作者在锅炉设计时应着重考虑一下几方面: