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5.2.2.4. Analysis of binary distillation by Ponchon-Savarit Method 

Background Principle: 
The method is concerned with the graphical analysis of calculating the theoretical stages by enthalpy balance required for desired separation by distillation process (Hines and Maddox, 1984). In this method, the enthalpy balances are incorporated as an integral part of the calculation however it is not considered in the analysis separation by distillation process by McCabe-Thele method. This procedure combines the material balance calculations with enthalpy balance calculations. This method also provides the information on the condenser and reboiler duties. The overall material balance for the distillation column is as shown in Figure 5.11:
Analysis Of Binary Distillation By Ponchon Savarit Method | Mass Transfer - Chemical Engineering                        (5.39)
For any component the material balance around the column can be written as:
Analysis Of Binary Distillation By Ponchon Savarit Method | Mass Transfer - Chemical Engineering        (5.40)
Overall enthalpy balance for the column yields
Analysis Of Binary Distillation By Ponchon Savarit Method | Mass Transfer - Chemical Engineering                    (5.41)
where H is the enthalpy of the liquid stream, energy/mol, QR is the heat input to the reboiler, J/s and QC is the heat removed from condenser, J/s. The heat balance on rearrangement of Equation (5.41) gives
Analysis Of Binary Distillation By Ponchon Savarit Method | Mass Transfer - Chemical Engineering             (5.42)
The Equation (5.41) is rearranged as Equation (5.42) for the convenience to plot it on the enthalpy-concentration diagram. The points represented by the feed, distillate and bottom streams can be plotted on the enthalpy-concentration diagram as shown in Figure 5.21.
Analysis Of Binary Distillation By Ponchon Savarit Method | Mass Transfer - Chemical Engineering
Figure 5.21: Representation of feed, distillate and bottom streams on the enthalpy-concentration 

Substituting the Equation (5.39) into the Equation (5.40) and (5.42) we get
Analysis Of Binary Distillation By Ponchon Savarit Method | Mass Transfer - Chemical Engineering                                       (5.43)
Analysis Of Binary Distillation By Ponchon Savarit Method | Mass Transfer - Chemical Engineering               (5.44)

From the Equations (5.43) and (5.44) one can write
Analysis Of Binary Distillation By Ponchon Savarit Method | Mass Transfer - Chemical Engineering                             (5.45)
The Equation (5.45) can also be written on rearrangement as:
Analysis Of Binary Distillation By Ponchon Savarit Method | Mass Transfer - Chemical Engineering                       (5.46)
Comparing the Equation (5.46) with the points plotted on Figure (5.21), it is found that the left hand side of the Equation (5.46) represents the slope of the straight line between the points (xB, HB-QR/B) and (xF, HF). The right hand side of the Equation (5.46) represents the slope of the straight line passing through the points (xF, HF) and (xD, HD-QC/D). From this it can be said that all three points are on a same straight line. The amount of distillate as per Equation (5.45) is proportional to the horizontal distance Analysis Of Binary Distillation By Ponchon Savarit Method | Mass Transfer - Chemical Engineering and the amount of bottoms is proportional to the horizontal distance Analysis Of Binary Distillation By Ponchon Savarit Method | Mass Transfer - Chemical Engineering  then from the overall material balance it can be interpreted that the amount of feed is proportional to the horizontal distance  Analysis Of Binary Distillation By Ponchon Savarit Method | Mass Transfer - Chemical Engineering This leads to the inverse lever rule. Based on this principle, the analysis of distillation column is called Enthalpy-composition analysis or Ponchon-Savarit analysis of distillation column.

Analysis of tray column 
Consider the theoretical stage shown in Figure 5.12 and the principle by which it operates is described in the enthalpy-composition diagram as shown in Figure 5.22.
Analysis Of Binary Distillation By Ponchon Savarit Method | Mass Transfer - Chemical Engineering
Figure 5.22: Operation principle of stage-wise binary distillation on enthalpy-concentration diagram

The vapor entering to the tray (n), Vn+1 is a saturated vapor of composition yn+1 wheras the liquid entering to the tray is Ln-1 of composition xn-1. The point P in the Figure 5.22 represents the total flow to the tray. The point P lies in a straight line joining xn-1 and yn+1. The distance Analysis Of Binary Distillation By Ponchon Savarit Method | Mass Transfer - Chemical Engineering proportional to the quantity Ln-1 and the distance Analysis Of Binary Distillation By Ponchon Savarit Method | Mass Transfer - Chemical Engineering proportional to the quantity Vn+1 as per lever rule. So 
Analysis Of Binary Distillation By Ponchon Savarit Method | Mass Transfer - Chemical Engineering            (5.47)
The sum of the liquid and vapor leaving the plate must equal the total flow to the plate. So the tie line must pass through the point P which represents the addition point of the vapor Vn and liquid Ln leaving the tray. The intersection of the tie line with the enthalpy-composition curves will represent the compositions of these streams. Around the tray n, the material balances can be written as:
Analysis Of Binary Distillation By Ponchon Savarit Method | Mass Transfer - Chemical Engineering                                (5.48)
Analysis Of Binary Distillation By Ponchon Savarit Method | Mass Transfer - Chemical Engineering          (5.49)

The enthalpy balance around the tray gives
Analysis Of Binary Distillation By Ponchon Savarit Method | Mass Transfer - Chemical Engineering                             (5.50)
Where HV is the enthalpy of the vapor and HL is the enthalpy of the liquid. From the material and enthalpy balance Equations above mean that the stream that added to Vn+1 to generate Ln is same to the stream that must be added to Vn to generate Ln-1. In the Figure 5.22, Δ represents the difference point above and below the tray. This point of a common difference point can be extended to a section of a column that contains any number of theoretical trays.

The document Analysis Of Binary Distillation By Ponchon Savarit Method | Mass Transfer - Chemical Engineering is a part of the Chemical Engineering Course Mass Transfer.
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FAQs on Analysis Of Binary Distillation By Ponchon Savarit Method - Mass Transfer - Chemical Engineering

1. What is the Ponchon-Savarit method for analyzing binary distillation?
The Ponchon-Savarit method is a graphical technique used to analyze binary distillation processes. It allows engineers to determine key operating parameters such as the number of theoretical stages, the feed stage location, and the composition profiles along the distillation column. The method involves constructing a graphical representation of the distillation process using the equilibrium curve and operating line. By analyzing the intersections of these lines, engineers can obtain valuable insights into the separation process.
2. How does the Ponchon-Savarit method help in designing distillation columns?
The Ponchon-Savarit method is a powerful tool in the design of distillation columns. It enables engineers to determine the optimal number of theoretical stages required for a given separation, as well as the location of the feed stage. By accurately analyzing the graphical representation of the distillation process, engineers can optimize the column's design to achieve the desired separation efficiency. This method helps in reducing costs by avoiding overdesign and ensuring that the column operates at its maximum efficiency.
3. What are the benefits of using the Ponchon-Savarit method over other distillation analysis techniques?
The Ponchon-Savarit method offers several advantages over other distillation analysis techniques. Firstly, it provides a graphical representation of the distillation process, making it easier to visualize and understand. This graphical approach allows engineers to quickly analyze and optimize the distillation column design. Additionally, the Ponchon-Savarit method can handle complex systems with non-ideal behavior, including azeotropic and extractive distillations. It also takes into account variations in feed conditions, allowing for a more accurate analysis of real-world scenarios.
4. How can the Ponchon-Savarit method be used to troubleshoot distillation column performance?
The Ponchon-Savarit method can be a valuable tool for troubleshooting distillation column performance. By comparing the actual operating line with the theoretical equilibrium curve, engineers can identify potential issues such as flooding, weeping, or maldistribution of liquid or vapor flows. Deviations between the two lines can indicate inefficiencies or improper column operation. By analyzing these deviations and the corresponding graphical representation, engineers can identify the root cause of the performance issues and take appropriate corrective measures.
5. Are there any limitations or assumptions associated with the Ponchon-Savarit method?
Yes, there are certain limitations and assumptions associated with the Ponchon-Savarit method. Firstly, it assumes ideal behavior of the system, which may not always hold true in real-world scenarios. It also assumes constant molar overflow in the rectifying and stripping sections of the column, which may not be accurate for all cases. Additionally, the method assumes constant relative volatility throughout the column, which may not be the case for systems with varying compositions. Despite these limitations, the Ponchon-Savarit method remains a valuable tool in the analysis and design of binary distillation processes.
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