目录第一章流体流动与输送机械·····················································(2)第二章非均相物系分离·························································(32)第三章传热···································································(42)第四章蒸发···································································(69)第五章气体吸收·······························································(73)第六章蒸馏···································································(95)第七章固体干燥·······························································(119)1第一章流体流动与输送机械1.某烟道气的组成为CO213%,N276%,H2O11%(体积%),试求此混合气体在温度500℃、压力101.3kPa时的密度。解:混合气体平均摩尔质量∴混合密度2.已知20℃时苯和甲苯的密度分别为879kg/m3和867kg/m3,试计算含苯40%及甲苯60%(质量%)的混合液密度。解:混合液密度3.某地区大气压力为101.3kPa,一操作中的吸收塔塔内表压为130kPa。若在大气压力为75kPa的高原地区操作该吸收塔,且保持塔内绝压相同,则此时表压应为多少?解:4.如附图所示,密闭容器中存有密度为900kg/m3的液体。容器上方的压力表读数为42kPa,又在液面下装一压力表,表中心线在测压口以上0.55m,其读数为58kPa。试计算液面到下方测压口的距离。解:液面下测压口处压力2题4附图5.如附图所示,敞口容器内盛有不互溶的油和水,油层和水层的厚度分别为700mm和600mm。在容器底部开孔与玻璃管相连。已知油与水的密度分别为800kg/m3和1000kg/m3。(1)计算玻璃管内水柱的高度;(2)判断A与B、C与D点的压力是否相等。解:(1)容器底部压力(2)6.为测得某容器内的压力,采用如图所示的U形压力计,指示液为水银。已知该液体密度为900kg/m3,h=0.8m,R=0.45m。试计算容器中液面上方的表压。解:如图,1-2为等压面。则容器内表压:7.如附图所示,水在管道中流动。为测得A-A′、B-B′截面的压力差,在管路上方安装一U形压差计,指示液为水银。已知压差计的读数R=180mm,试计算A-A′、B-B′截面的压力差。已知水与水银的密度分别为1000kg/m3和13600kg/m3。解:图中,1-1′面与2-2′面间为静止、连续的同种流体,且处于同一水平面,因此为等压面,即3BDh1h2AC题5附图题6附图12,又所以整理得由此可见,U形压差计所测压差的大小只与被测流体及指示液的密度、读数R有关,而与U形压差计放置的位置无关。代入数据8.用U形压差计测量某气体流经水平管道两截面的压力差,指示液为水,密度为1000kg/m3,读数R为12mm。为了提高测量精度,改为双液体U管压差计,指示液A为含40%乙醇的水溶液,密度为920kg/m3,指示液C为煤油,密度为850kg/m3。问读数可以放大多少倍?此时读数为多少?解:用U形压差计测量时,因被测流体为气体,则有用双液体U管压差计测量时,有因为所测压力差相同,联立以上二式,可得放大倍数此时双液体U管的读数为9.图示为汽液直接混合式冷凝器,水蒸气与冷水相遇被冷凝为水,并沿气压管流至地沟排出。现已知真空表的读数为78kPa,求气压管中水4题7附图题9附图上升的高度h。解:水柱高度10.硫酸流经由大小管组成的串联管路,其尺寸分别为φ76×4mm和φ57×3.5mm。已知硫酸的密度为1830kg/m3,体积流量为9m3/h,试分别计算硫酸在大管和小管中的(1)质量流量;(2)平均流速;(3)质量流速。解:(1)大管:(2)小管:质量流量不变或:11.如附图所示,用虹吸管从高位槽向反应器加料,高...
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