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In this note analytical equations are presented that describe the separation obtained for binary batch distillation. Formulas are obtained for both the constant distillate composition and constant reflux methods of operation. The results are strictly for distillation with an infinite number of stages ( corresponding to minimum reflux) however, it is shown that the equations derived closely describe the operation with a small finite number of stages. 相似文献
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夹紧区是精馏塔内出现的浓度几乎不变的区域,对于三元物系来说,根据夹紧区在塔内出现的位置可分为:上、中和下加紧区.在无穷板数和任一瞬时釜浓下选择不同的回流比可使分批精馏处于不同夹紧区下操作.文中讨论了三元恒回流比分批精馏过程中夹紧区的演变,在Rayleigh方程的基础上建立了应用夹紧区原理确定多元恒回流比分批精馏最小回流比的方法.该方法并不要求相对挥发度为常数,并且能准确计算顶浓,克服了通常所采用的Underwood公式法的缺陷,为多元分批精馏的简捷设计奠定了基础. 相似文献
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Raymond C. Waggoner 《Chemical Engineering Communications》1990,90(1):1-21
An analog of the Rayleigh Equation has been applied for many years to describe batch distillation with rectification for binary mixtures. A solution is obtained by iterative graphical computations followed by numerical integration. When the batch distillation algorithm is stated in terms of distillate composition a computational non-iterative soluton may be obtained. For a binary separation this expression may be solved on a programmable calculator and the integral may be obtained in segments to describe the progress of the operation expressed in terms of the quantity remaining in the still-pot. This variable is not a linear function of time since even at constant reboiler duty the boil-up rate varies as the still-pot composition changes. If the time rate of the operation is to be determined, this effect must be considered. Procedures have been developed to describe the time-responses of the plate compositions and temperatures, the boil-up rate as well as the conventional variable, the volume remaining in the still-pot
Application of this procedure is illuatrated by evaluating operating strategies for batch distillation. A capacity factor is based on the time required to make a complete separation so that both the distillate product and the heel meet specific composition and disposition of a slop cut (if any) is accounted for. The reboiler is specified to operate at capacity but it is recognized that the boil-up rate will then drop off as the still-pot material becomes heavier and warmer. The distillate composition profiles and the boil up profiles are used to designate changes in objectives during the over-all runs.
Batch processing. The chemical processing industry has been using batch operations increasingly during recent years and these procedures have been drawing increasing attention in chemical engineering publications. Batch distillation is often selected as a significant purification in these processes and has likewise enjoyed a resurgence in investigations and reported advances and results.
Major companies have reported a broad use of batch processing. Chowdhury (1988) has reported that DuPont and Rohm and Haas operate numerous processing lines for hundreds of product variations. Professor G.V. Reklaitis of Purdue has developed a simulation program for designing, scheme selection, and scheduling batch processes and has founded a company, Batch Processing Technologies, Inc. to distribute results from his program.
Batch processing units are most often used in one of two ways. A sequence of equipment may be required to manufacture several different products. This method is often encountered when the products are based on various formulations and rely primarily on mixing and purification to meet customer requirements. Batch processing may also be specified when a particular product is produced from different raw materials and through various processing routes. In either case the same equipment is used repeatedly to perform similar but different operations and is scheduled to operate almost continuously by rapid turnarounds between functions to minimize downtime. 相似文献
Application of this procedure is illuatrated by evaluating operating strategies for batch distillation. A capacity factor is based on the time required to make a complete separation so that both the distillate product and the heel meet specific composition and disposition of a slop cut (if any) is accounted for. The reboiler is specified to operate at capacity but it is recognized that the boil-up rate will then drop off as the still-pot material becomes heavier and warmer. The distillate composition profiles and the boil up profiles are used to designate changes in objectives during the over-all runs.
Batch processing. The chemical processing industry has been using batch operations increasingly during recent years and these procedures have been drawing increasing attention in chemical engineering publications. Batch distillation is often selected as a significant purification in these processes and has likewise enjoyed a resurgence in investigations and reported advances and results.
Major companies have reported a broad use of batch processing. Chowdhury (1988) has reported that DuPont and Rohm and Haas operate numerous processing lines for hundreds of product variations. Professor G.V. Reklaitis of Purdue has developed a simulation program for designing, scheme selection, and scheduling batch processes and has founded a company, Batch Processing Technologies, Inc. to distribute results from his program.
Batch processing units are most often used in one of two ways. A sequence of equipment may be required to manufacture several different products. This method is often encountered when the products are based on various formulations and rely primarily on mixing and purification to meet customer requirements. Batch processing may also be specified when a particular product is produced from different raw materials and through various processing routes. In either case the same equipment is used repeatedly to perform similar but different operations and is scheduled to operate almost continuously by rapid turnarounds between functions to minimize downtime. 相似文献
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描述多组份精馏塔要用众多的方程式,数字仿真是求得它的动态响应的有效方法,如果有J个组份,不是理论板,非恒分子流,在一块加料板上有气、液混合进料,并假设回流R及再沸器供热量Q_B恒定,在这样的条件下本文编排了仿真程序,仿真结果与文献[1]提供的数据一致,稍加更动后也可仿真其他情况。 相似文献
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引 言在以往的研究中 ,间歇精馏塔的模型大部分建立在平衡模型的基础上[1] ,系统初值的选取基于伪热初始状态 ,即每层塔板上有足够的积液量 ,塔板温度在泡点温度以上的汽液平衡状态 .多数间歇精馏过程的仿真模拟软件中使用伪热状态作为初始状态[2 ] ,例如 ,HYSYS R○ (Hyprotech )、BATCHFRACTM (Aspentech )和CC -BATCH R○(CHEMCAD) .它们都是通过稳态和平衡计算为微分代数方程组提供了满足一致性要求的初始值 .间歇精馏过程的一个特点就是精馏塔频繁地从冷状态启动 ,初始状态会因再… 相似文献
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提出一个适用于多组分理想或非理想物系以及伴随反应的精馏过程级效率的新定义式.该式克服了Murphree定义式当物系为非理想性很强的多组分时各组分的级效率值所表现的奇异性.本文还推导出计算级效率的方程,并用文献数据和作者所测得的反应精馏过程的实验数据验证了所得的理论方程. 相似文献
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分批精馏中持液影响塔内的动态过程,因此许多学者一直致力于分批精馏过程中持液作用的研究,但由于研究缺乏系统性,持液的作用一直是学术上争论的热点.本文提出用全过程分离难度系数关联各参数对分离过程的影响,并建立了分批精馏的恒摩尔持液模型,用全过程的分离难度系数研究了分批精馏的持液作用,结果表明:塔顶持液对分离不利,但塔身持液在一定条件下增多可使所需回流比降低;塔内持液量与釜液量之比为一个因子,当q<0.7时,确定的分批精馏塔存在最佳投料量.采用甲苯-乙苯二元物系对最佳投料量进行了实验验证,实验结果与模拟结果吻合较好. 相似文献
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一种改进的多元精馏塔动态模型 总被引:3,自引:0,他引:3
综合了精馏塔的物料及能量平衡、塔板水力学方程、塔板效率及再沸器动态特性,给出一种改进的非理想多元物系精馏塔通用动态数学模型.增加了汽液平衡计算,从而弥补了文献[1]所提出的动态模型的缺陷,提高了其精度和通用性.模型仿真算法采用Gear积分方法,稳定性好,对解刚性比很高的精馏塔微分方程组十分有效.通过对某丙烯腈萃取精馏塔的仿真表明,该动态模型能够较好地反映对象的动态形为. 相似文献
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Pot distillation of rice mash and the methods for automation were investigated. The vapor temperature at the entrance to the condenser was found to be the most appropriate variable to be monitored for the purpose of the microcomputer control of the pot distillate. Experimental measurements show that vapor temperature of 94.5°C is the dividing point for fragrant and pungent distillates. A program for the control of distillate streams according to compositions has been proposed. 相似文献
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间歇恒沸精馏法从异丙醇水溶液中回收异丙醇 总被引:1,自引:0,他引:1
采用单塔间歇恒沸精馏法将异丙醇与水分离,从含水12.6%左右的醇溶液可制得含水小于0.5%的异丙醇产品,醇的回收率达97.0%。对恒沸剂选择、用量,流程和操作要点作了推荐及说明 相似文献
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带中间贮槽的间歇精馏塔由2个分离段及其中间的贮槽组成。假定液体持液量和待分离的体系的相对挥发度均保持不变,建立了该塔的一个简化的模型,由此得到各组分在整个塔中的分布情况。在此基础上,又考察了各个操作参数对分离效果的影响。 相似文献
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In this work, a dynamic model was developed to simulate the transient behaviour of a pilot scale, continuous, siagewise, 15 plate distillation column separating a mixture of ethanol, iso-propanol and isobutanol. The accuracy of the predictions was assessed by transient response data collected during experiments under step changes in reflux ratio, feed flow rate and feed composition.
Results demonstrated the feasibility of simulating multicomponent distillation under unsteady state conditions with fairly good success. Further improvements were suggested for a better accuracy 相似文献
Results demonstrated the feasibility of simulating multicomponent distillation under unsteady state conditions with fairly good success. Further improvements were suggested for a better accuracy 相似文献
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Michael D. Barrera Lawrence B. Evans M.A. Farrell Epstein Eng.Sc.D. 《Chemical Engineering Communications》1989,82(1):45-66
The economical design of continuous chemical processes to produce commodity products has reached an advanced state of development. Modern computer tools are used routinely to simulate and optimize these processes. This is not the case, however, for the manufacture of speciality products which must be made in batch operations. The continuing shift towards the production of higher value-added specialty products by the CPI has stimulated efforts aimed at developing good computer assisted design strategies for batch processes.
This paper discusses the formulation of the problem for the optimal design and operation of batch processes. The batch problem differs from the continuous one in a number of important ways. First, batch plants do not operate at steady state. There are important trade-offs between the processing time and the severity (intensity) of processing in single units. Cycle time and performance trade-offs also exist among the various units in the process. Second, batch plants produce multiple products in many cases. There is often a competition for shared resources (labor, utilities, and equipment) among the various products. This paper presents a hierarchical solution approach for the design and optimization of a batch process. The approach is demonstrated by solving an example problem which illustrates the fundamental economic trade-offs. 相似文献
This paper discusses the formulation of the problem for the optimal design and operation of batch processes. The batch problem differs from the continuous one in a number of important ways. First, batch plants do not operate at steady state. There are important trade-offs between the processing time and the severity (intensity) of processing in single units. Cycle time and performance trade-offs also exist among the various units in the process. Second, batch plants produce multiple products in many cases. There is often a competition for shared resources (labor, utilities, and equipment) among the various products. This paper presents a hierarchical solution approach for the design and optimization of a batch process. The approach is demonstrated by solving an example problem which illustrates the fundamental economic trade-offs. 相似文献
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介绍了丙烯精馏系统传统设计流程及改进设计流程,并对其流程特点进行了分析,明确指出了各自的优缺点。针对改进设计双塔流程,利用流程模拟计算PRO-Ⅱ软件平台,分别研究了无中间再沸器和设置中间再沸器两个流程方案,在能耗相同的条件下,计算出不同塔盘数时的丙烯损失,并对其增加塔盘数后的可实施性、投资增加与多回收丙烯的经济性进行了初步分析。无中间再沸器流程在投资及年收益方面均优于设置中间再沸器流程,在装置急冷水热量充足的情况下,应首先推荐应用。 相似文献