38吨普碳钢连续加热炉的设计+CAD图纸
毕业论文关键词:普碳钢连续加热炉;热量;温度
Design of Pusher Type Continuous Reheating Furnace
Abstract: With the rapid development of China's national economy, especially in recentyears, increasing demand for energy exploitation of our domestic energy depleting,increasingly serious energy crisis, which also had a serious environmental crisis, but China'senergy use is still lagging behind, especially in the industrial furnace, while China is themajor industrial countries and the world of processing plants, industrial furnaces annuallyspent large amounts of fuel, improve the fuel utilization rate of industrial furnaces, hasbecome an important way of saving energy and important task of the industrial furnacedesign improvements have been listed as the 12th five Year Plan a step by step.Energy-saving and low consumption of industrial furnaces will become the futuremainstream of industrial furnaces, this paper describes the 38 tons of pusher type continuousreheating furnace design, including the calculation of fuel and combustion; billet heatingcomputing; furnace size; bottom the design of the water-cooled components; furnacemasonry materials and sizes to determine the steel frame structure; furnace heat balance andthe determination of the amount of fuel; heat exchanger design, the design of piping systems;smoke control system design.
KeyWords:pusher type continuous reheating furnace;energy;temperature
目 录
摘要.i
Abstract.i
目 录. ii
1 绪论. 1
1.1 加热炉概念.. 1
1.2 加热炉分类.. 1
1.3加热炉的一般组成部分.. 1
1.3.1炉膛 1
1.3.2炉墙 1
1.3.3炉顶 2
1.3.4炉底 2
1.3.5排烟系统.3
1.4 汽化冷却系统.4
1.5炉子的绩效评估4
1.5.1热效率.. 4
1.5.2热损失.. 4
1.5.3减少热损失措施 5
1.6 高效炉的特性.6
1.8 设计的目的和意义..7
2 燃料燃烧计算9
2.1 已知条件.. 9
2.2 空气需要量和燃烧产物量及其成分的计算.9
2.1.1理论空气需要量 9
2.1.2实际空气需要量 9
2.1.3燃烧产物量9
2.3 燃烧产物密度计算..11
2.4 理论燃烧温度的计算 11
2.4.1理论燃烧温度的确定:.11
2.4.2实际燃烧温度:. 12
2.5 一炉钢坯数及出钢间隔.. 13
3钢坯加热时间计算.. 14
3.1确定炉子主要尺寸15
3.1.1.炉宽. 15
3.1.2炉高: 15
3.1.3各段内表面面积. 15
3.2有效射线行程:.16
3.3各段炉气温度:.17
3.4 O 2 2 H CO 和 的分压:. 17
3.5各段炉气黑度:.17
3.6各段炉壁对金属表面的角系数:. 18
3.7 各段炉壁对金属表面的综合辐射系数:19
3.8 各段传热系数:19