南 京 工 业 大 学《材料工程原理 B》课程设计设计题目: 列管式换热器设计混合气体处理能力221000kg/h 专业:班级:学号:姓名:电子邮箱:日期:指导教师:设计成绩:“列管式换热器设计 ”任务书(一)设计题目列管式换热器设计 —— 混合气体处理能力221000kg/h (二)设计任务及操作条件为满足某生产需要,需将混合气体采用循环冷却水冷却,使混合气体地温度从 100℃冷却至50℃,已知混合气体地压力为6.9Mpa,循环冷却水地压力为0.4Mpa,循环水入口温度25℃,出口温度36℃.要求处理混合气体地流量为221000kg/h,试设计一台列管式换热器,完成该设计任务.(三)混合气体在各定性温度下地有关物性数据:名称密度 ρ?(kg/h)热容 Cp?(KJ/kg℃)导热系数 λ?(w/m℃)粘度 μ?(Pa*S)混合气体90 3.297 0.0279 1.5*510(四)循环冷却水在各定性温度下地有关物性数据:名称密度 ρ? ?(kg/m3)热容 Cp? (KJ/kg℃)导热系数 λ?(w/m℃)粘度 μ?(Pa*S)冷却水994.30 4.174 0.624 0.742*310目录第一章概述 §1.1 换热器地应用及主要类型····································4 §1.2 列管式换热器地主要结构····································5第二章 列管式换热器工艺地设计及计算 §2.1 设计方案初选 ··············································6 §2.2 估算传热面积 ··············································6 §2.3 工艺结构尺寸地设计 ········································8第二章列管式换热器工艺设计地核算§3.1传热能力地核算 ············································12§3.2壁温地核算 ················································15 §3.3换热器内流体流动地阻力地核算······························16 第三章辅助设备地设计§4.1管路系统原件地设计 ········································17§4.2泵地设计 ····················...
