总装图 A0
F400固定管板式换热器设计
摘要
换热设备在很多行业部门都会有应用,而且极为广泛,比如炼油在炼油、石油化工等各领域,它可以适用于有关传热的各个方面。
F400固定管板式换热器也就是换热设备中的一种,其换热效率、设备所属体积大小以及对于金属的消耗比不上现今出现的新型换热器,但是它也有很多其他换热设备所不具有的各种优良品质,就比如在结构坚固、弹性大孝可靠性高、使用范围等方面,因此固定管板式换热器在各个行业得到广泛应用。
想要保证固定管板式换热器的强度和使用时间长短,就需要设计合理的结构,所以就需要在材料、压力、温度、壁温差、结垢情况、流体性质和维修与清洗等等各个因素上考虑来选取一种合理的结构。
因为使用的情况不同,就算是同一种形式的换热器也要使用不一样的的结构。我们在工程设计的时候,要尽可能的选取定性系列的产品,或者是按照一定的要求来设计,这样才能达到在工艺方面的条件(设计出在一定的情况下最优良最节省材料最实用也容易生产的换热器等)。
关键词:固定管板式换热器;使用范围;结构设计
ABSCHACT
Heat exchanger is widely used in many industries, such as refining, petrochemical and so on. It can be used in all aspects of heat transfer.
F400 fixed tube-plate heat exchanger is one of the heat exchangers. Its heat transfer efficiency, the size of the equipment, and the consumption of metals are not as good as those of the new type of heat exchangers. However, it also has many excellent qualities that other heat transfer equipments do not have, such as solid structure, elastic size, high reliability, application range and so on. Therefore, fixed-tube plate heat exchanger is widely used in various industries.
In order to ensure the strength and the use time of the fixed tube plate heat exchanger , it is necessary to design a reasonable structure , so it is necessary to select a reasonable structure on various factors such as material , pressure , temperature , wall temperature difference , scaling , fluid property and maintenance and cleaning .
Because of the different conditions, even the same type of heat exchanger has to use a different structure. When we design our projects, we should choose as many qualitative products as possible, or design them according to certain requirements. Only in this way can we meet the technological conditions (design the best, most economical, practical and easy to produce heat exchangers, etc.) under certain circumstances.
Key words:fixed tube-plate heat exchanger; scope of use; structural design
目录
1前言1
1.1概述1
1.1.1换热器的类型1
1.1.2换热器1
1.2设计的目的与意义2
1.3管壳式换热器发展的情况2
1.4壳层强化传热2
1.5管层强化传热3
1.6增加管壳式换热器传热能力的方式3
2换热器结构论述5
2.1换热器管形的设计5
2.2换热器管径的设计5
2.3换热管排列形式的设计5
2.4管、壳程分程设计5
2.5折流板的结构设计6
2.6管、壳程进、出口的设计6
2.7选材方法6
2.7.1管壳式换热器的选型6
2.7.2两种流体流径的选择9
2.7.3流速的选择9
2.7.4材质的选择10
2.7.5管程结构10
3管壳式换热器的热力计算11
3.1确定一般参数11
3.2传热量与水流热量11
3.3有效平均温差12
3.4结构初步设计12
3.5管程换热系数计算13
3.6壳程换热系数计算14
3.7总传热系数计算15
3.8管壁温度计算16
3.9管程压降计算16
3.10壳程压降计算17
4换热器的结构设计19
4.1换热器壳体壁厚计算及校核19
4.2换热器封头的选择及校核20
4.3容器法兰的选择20
4.4管板21
4.5管子拉脱力的计算22
4.6计算是否安装膨胀节23
4.7折流板设计25
5强度压力计算和校核28
5.1壳体厚度校核28
5.2管子拉脱力校核28
5.3开孔补强的计算30
小结31
参考文献32
致谢33
垫片 A4
浮动管板 A2
管板A1
管束A1
右端管箱
折流板A3
左侧管箱
鞍座 A3
字数统计
设计参数要求
字数统计
管壳式换热器的热力计算
壳程换热系数计算
摘要部分
设计目录
计算部分预览
