毕 业 设 计 [论 文]题 目:焦炉煤气粗苯回收工艺设计〔煤气的处理量:40000 m3/h〕系 别: 专 业: 姓 名: 学 号: 指导教师: 某城建学院 年 月 日摘 要用洗油吸收或活性炭吸附等物理方法从焦炉煤气中回收粗苯其中洗油吸收粗苯法应用广泛焦炉煤气中粗苯含量一般为25~40g/m³,粗苯是有机化学工业的重要原料,回收粗苯具有较高经济效益 洗油吸收粗苯法是德国人卡罗(H.Caro)在1869 年创造的第一次世界大战期间得到开展,已被各国普遍采用洗油吸收粗苯工艺由洗油吸苯和富油脱苯工序组成洗油吸苯是用洗油洗涤煤气吸收苯族烃,吸收了苯族烃的洗油称为富油富油脱苯是用蒸汽蒸馏出溶解在富油中的苯族烃,因装置不同可以得到轻苯一种产品或轻苯和重苯两种产品,也可以得到轻苯、精重苯和萘溶剂油三种产品富油脱苯后的洗油称为贫油,贫油送吸苯工序循环使用活性炭吸附粗笨法是德国人恩格尔哈特( Engel- hardt)在1916年开发的,1918年应用于城市煤气厂,20年代后在英国、法国、荷兰和日本等国的一些小型煤气厂相继采用。
与洗油吸收法相比,活性炭吸附法设备投资少,动力消耗低,粗苯回收率高;但在运行过程中活性炭微孔容易被煤气中的焦油雾、萘、树脂化合物和元素硫等杂质堵塞,使吸附能力下降活性炭价格昂贵,50年代后工业上已很少采用AbstractWash oil with activated carbon adsorption or absorption of physical methods, such as coke oven gas from the crude benzene recovery. Wash oil which are widely used to absorb crude benzene Act. Crude benzene content in the coke oven gas is generally 25 ~ 40g / Bang, crude benzene is an important organic chemical industrial raw materials, crude benzene recovery with higher economic efficiency. Wash oil absorption of crude benzene is Carlo German (H. Caro) invented in 1869. Developed during the First World War, has been widely adopted countries. Crude benzol wash oil absorption process to wash the oil absorption by benzene and benzene-rich oil from the position process. Wash oil absorption of benzene is washed with wash oil group hydrocarbon gas absorption of benzene, benzene absorbed hydrocarbon group known as the wash oil-rich oil. Benzene-rich oil from steam distillation is dissolved in the oil-rich family of benzene hydrocarbons, due to the different devices can be a product of light of benzene or benzene and re-light the two products of benzene, benzene can also be light, precise weight of benzene and naphthalene solvent oil three products. After the benzene-rich oil from the wash oil as depleted oil and send the poor absorption of benzene oil recycling process. Activated carbon adsorption is a clumsy German Engelhardt (Engel-hardt) in 1916 developed the city gas used in 1918, after the age of 20 in the United Kingdom, France, the Netherlands and Japan and other countries have adopted a number of small-scale gas. And wash oil absorption pared to activated carbon adsorption equipment, low investment and low power consumption, high crude benzene recovery; but running easily microporous activated carbon gas in the fog of tar, naphthalene, resin pounds and elemental sulfur impurities, such as plug to decrease the adsorption capacity. The high cost of activated carbon, 50 post-industrial era have been rarely used.目 录摘 要 …………………………………………………………………………………2Abstract……………………………………………………………………………….31.总论………………………………………………………………………………61.1 概述…………………………………………………………………………61.2 文献综述……………………………………………………………………62.设计方案………………………………………………………………….13 2.1 用洗油吸收煤气中的苯族烃…………………….……………………13 2.2 富油脱苯……………………………………………………………….133.生产流程说明……………………………………………………………….143.1 吸收苯族烃的工艺流程………………………………….……...………143.2 富油脱苯工艺流程………………………………………………………144.设计任务和操作条件…………………………………………………………..164.1 设计任务………………………………………………….……...………164.2 操作条件…………………………………………………………………165.物料计算……………………………………………….………………………...17 5.1 煤气中苯族烃的的体积分数计算………………………………………17 5.2 粗苯回收率计算…………………………………………………………..17 5.3 焦炉煤气中粗苯含量……………………………………………………17 5.4 循环洗油量计算…………………………………………………………..18 5.5 计算依据…………………………………………………………………..19 5.6进入脱苯工序的富油量………………………………………………….20 5.7 富油组成…………………………………………………………………..20 5.8计算脱水后各组分留在液相中的分率…………………………………21 5.9富油进入脱苯塔闪蒸后与闪蒸前液相中各组分的比率计算……….…23 5.10在脱苯塔进口处各组分的蒸发量……………………………………….256.热量计算……………………………………………..…………………….26 6.1管式炉供应富油的热量………………………………………………...26 6.2 管式炉供应蒸气的热量………………………………………………….27 6.3 管式炉加热面积……………………………………………………………287. 主要设备工艺计算……………………………………………………………..29 7.1 塔径计算…………………………………………………………………......29 7.2 塔高计算……………………………………………………………………..298. 辅助设备的选型和计算………………………………………………………30 8.1洗油再生器……………………………………………………………………30 8.2 塔设备壁厚设计…………………………………………………………….32 8.3 封头、人孔选用及设计………………………………………………………349.稳定性及机械强度的计算..........................................................................35 9.1 圆筒的应力计算……………………………………………………………..35 9.2 塔设备的质量载荷…………………………………………………………..359.3 塔的风载荷…………………………………………………………………..3610.设计体会和收获………………………………………………………………3811.主要符号说明…………………………………………………………….3912.主要参考文献……………………………………………………………41致谢…………………………………………………………………………………421 总论1.1 概述 苯族烃是珍贵的化工原料,焦炉气一般含苯族烃25~40g/m3,因此。
经过脱氨后的煤气需进展苯族烃的回收并制取粗苯 从焦炉煤气中回收苯族烃采用的方法有洗油吸收法,活性炭吸收法和深冷凝结法其中洗油吸收法工艺简单,经济可靠,因此得到广泛应用 洗油吸收法依据操作压力分为加压吸收法,常压吸收法和负压吸收法加压吸收法的操作压力为800~1200kPa,此法可强化吸收过程,适于煤气远距离输送或作为合成氨厂的原料常压吸收法的操作压力稍高于大气压,是各国普遍采用的方法负压吸收法应用于全负压煤气净化系统 吸收了煤气中苯族烃的洗油称为富油富油的脱苯按操作压力分为常压水蒸气蒸馏法和减压蒸馏法按富油加热方式又分为预热器加热富油的脱苯法和管式炉加热富油的脱苯法各国多采用管式炉加热富油的常压水蒸气蒸馏法 因此,该设计对于化工生产来说也是一个很重要的课题通过毕业设计可以使我们初步掌握该工艺的根本原理,重要的工艺过程及设备的构造,使我们综合运用所学专业课知识独立解决实际问题的能力得到了提高,培养和提高我们的决策能力、计算能。