20 Jan Assigment
Please see attachment
Use excel to help with the assignment. assignment must be on word document and please show calculations for problem
1
ASSIGNMENT-1
PE 5663 Natural Gas Utilization
1- Calculate the Z-factors and the molar volumes for pure CO2 at 150ºC and pressures 10, 20, 40, 60, 100, 300, 400 and 500 bar. Use the RK EoS.
2- Plot the results for Z-factors and molar volumes of CO2 vs P. 3- Plot the gas formation volume factor of CO2 vs P. 4- On the plots, compare the results obtained for the Z-factor and Bg from the RK EoS with
those reported in literature and discuss on the discrepancies.
Experimental data for Z-factor for pure CO2 at 150ºC:
P/bar Z 10 0.985 20 0.970 40 0.942 60 0.913 100 0.869 300 0.762 400 0.824 500 0.910
,
1. Intro-Start Here
| Compressibility Factor Calculator – Choice of U.S. or S.I. Units | |||||||||||
| Workbook Contents | |||||||||||
| Click on tabs at the bottom of the screen to access the following: | NOTE: The cells containing formulas are locked (protected) to avoid the | ||||||||||
| possibility of inadvertently typing over any of the formulas. You may, | |||||||||||
| Tab 1. Contents (current tab) | however, adjust the number of decimal places for any of the cells. | ||||||||||
| Tab 2. Compressibility Factor Calculator – U.S. Units | |||||||||||
| Tab 3. Compressibility Factor Calculator – S.I. Units | Notes on the use of these worksheets: | ||||||||||
| 1. Each of the compressibility factor calculator worksheets allows the user | |||||||||||
| to either select a gas from a dropdown menu list of 21 gases or else enter | |||||||||||
| the critical temperature and critical pressure of a gas. In either case the user | |||||||||||
| must enter the temperature and pressure of the gas. | |||||||||||
| Copyright © McGraw-Hill Global Education Holdings, LLC. All rights reserved. | |||||||||||
| 2. The worksheet will calculate the compressibility factor of the gas at the | |||||||||||
| user specified temperature and pressure, using the Redlich-Kwong equation. | |||||||||||
| 3. For accurate calculation of the compressibility factor with the Redlich-Kwong | |||||||||||
| equation, the reduced pressure should be less than half of the reduced | |||||||||||
| temperature. That is: P/Pc < T/(2Tc). The worksheet checks on this requirement | |||||||||||
| and advises changing either P or T if the requirement is not met. | |||||||||||
2. U.S. Units
| 1. For calculations with one of the 21 gases listed in the table below, select the appropriate | |||||||||||||
| Calculation of Gas Compressibility Factor – U.S. Units | gas from the dropdown list in cell D12 and enter the gas temperature and pressure in | ||||||||||||
| the indicated yellow cells. The gas critical temperature and critical pressure will be | |||||||||||||
| shown below on this worksheet and those values will be used for calculation of the | |||||||||||||
| FLUID SELECTION | Either (i) select a Gas and enter its temperature and pressure in the indicated yellow cells | compressibility factor of the gas. | |||||||||||
| below, so that its critical temperature and critical pressure will be obtained and used, or else, | |||||||||||||
| (ii) enter those parameters in the yellow cells D35, & D50, and those values will be used. | 2. For calculations with some other gas, not listed in the table below, the user must enter | ||||||||||||
| values for the gas critical temperature and critical pressure in the indicated yellow | |||||||||||||
| Select a Gas and Enter Temp. and Pressure | (Enter Values in yellow cells only) | cells in column D. Those user entered property values will be used for calculation of | |||||||||||
| the compressibility factor of the gas. The gas temperature and pressure must be | |||||||||||||
| Click at right to Select Gas | Methane | entered in the yellow cells, D14 and D15. | |||||||||||
| NOTE: For accurate calculation of Z with | |||||||||||||
| Gas Temperature (oF): | -40 | the Redlich Kwong equation, the reduced | 3. For either a gas selected from the dropdown list or user entered gas properties, | ||||||||||
| Gas Pressure (psia): | 400 | pressure should be less than half of the | the gas compressibility factor is calculated with the Redlich-Kwong Equation | ||||||||||
| reduced temperature. That is: P/Pc < T/(2Tc) | For accurate results P and T values should be such that P/Pc < T/(2Tc). | ||||||||||||
| Check on Gas Temperature and Gas Pressure Values entered above: | The source for the Tc and Pc values in this table is: | ||||||||||||
| Table 2-13.2 in Perry's Chemical Engineers' Handbook, 9th Ed. | |||||||||||||
| Is P/Pc < T/(2Tc)? | YES | P/Pc = | 0.600 | ||||||||||
| T/2Tc = | 0.612 | ||||||||||||
| The entered values for T and P above are ok. | |||||||||||||
| Excel Vlookup results based on selected fluid: | |||||||||||||
| 343.0 | 667.0 | ||||||||||||
| CRITICAL TEMP. | Critical Temperature from above menu selection: | Tc, ºR | Pc, psi | ||||||||||
| 343.0 | oR | Acetylene | 554.9 | 890.2 | |||||||||
| Air | 238.4 | 547.4 | |||||||||||
| NOTE: If you want to use a gas from the menu | Ammonia | 730.2 | 1636 | ||||||||||
| above, then the yellow cell, D35, below must be blank. | Argon | 271.5 | 710.4 | ||||||||||
| Butane | 765.2 | 550.6 | |||||||||||
| Use the Critical Temperature value above, OR | Carbon Dioxide | 547.6 | 1071 | ||||||||||
| Carbon Monoxide | 239.3 | 507.5 | |||||||||||
| Enter a Critical Temperature obtained elsewhere | Chlorine | 750.9 | 1118 | ||||||||||
| Ethane | 549.6 | 706.6 | |||||||||||
| Critical Temperature (oR): | Ethylene | 508.2 | 731.1 | ||||||||||
| Helium | 9.36 | 33.00 | |||||||||||
| Critical Temp. Result: | 343.0 | oR | (from menu selection) | Hydrogen | 59.7 | 190.4 | |||||||
| (This is the Critical Temperature that will be used to calculate compressibility factor.) | Hydrogen Chloride | 584.4 | 1205.3 | ||||||||||
| Hydrogen Sulfide | 672.4 | 1300.0 | |||||||||||
| CRITICAL PRESSURE | Critical Pressure from above menu selection: | Methane | 343.0 | 667.0 | |||||||||
| 667.0 | psi | Nitric Oxide | 324.3 | 939.8 | |||||||||
| Nitrogen | 227.2 | 493.1 | |||||||||||
| NOTE: If you want to use a gas from the menu | Oxygen | 278.2 | 731.4 | ||||||||||
| above, then the yellow cell, D50, below must be blank. | Propane | 665.7 | 616.1 | ||||||||||
| Propylene | 656.7 | 667.2 | |||||||||||
| Use the Critical Pressure value above, OR | Sulfur Dioxide | 775.3 | 1143.5 | ||||||||||
| Enter a Critical Pressure obtained elsewhere | |||||||||||||
| Critical Pressure (psi): | For the Redlich-Kwong Equation of State (used to calculate the compressibility factor, Z) see: | ||||||||||||
| Handbook of Chemical Engineering Calculations, 4th Ed, Section 1.4. Redlich-Kwong Equation of State | |||||||||||||
| Critical Pressure Result: | 667.000 | psi | (from menu selection) | One form of the Redlich-Kwong Eqn of State is: | |||||||||
| (This is the Critical Pressure that will be used to calculate compressibility factor.) | Where: | ||||||||||||
| P = Gas pressure, atm | |||||||||||||
| COMPRESSIBILITY FACTOR | Calculation of Compressibility Factor of the Gas using the Redlich-Kwong Equation of State: | T = Gas temperature, K | |||||||||||
| Tc = critical temperature of gas, K | |||||||||||||
| (Note that P/Pc must be less than T/2Tc for accurate Redlich-Kwong Equation calculations.) | Pc = critical pressure of gas, atm | Note that the first and second forms of the R-K | |||||||||||
| V = molar volume of gas, cm3/gmole | equation require the S.I. units shown. The third | ||||||||||||
| R = Gas Law Constant, 82.05 atm cm3/gmole K | form uses only TR and PR, so either U.S. or S.I. | ||||||||||||
| Is P/Pc < T/(2Tc) ? | YES | If this answer is "NO", change P and/or T | units may be used. | ||||||||||
| in cell(s) D14 and/or D15 above. | A second form of the R-K Equation of State is: | ||||||||||||
| Where: | |||||||||||||
| Reduced Temperature, TR = | 1.2235 | Equation Constant, r = | 6.574E-03 | Z = Compressibility Factor | |||||||||
| Reduced Pressure, PR = | 0.5997 | Equation Constant, q = | -1.105E-01 | T = Gas temperature, K | |||||||||
| Equation Constant, D = | 0.15481 | Equation Constant, f = | -2.228E-01 | P = Gas pressure, atm | |||||||||
| Equation Constant, E = | 0.04247 | Equation Constant, g = | -4.380E-02 | Tc = critical temperature of gas, K | |||||||||
| Calculated Value of C = | 7.006E-05 | Pc = critical pressure of gas, atm | |||||||||||
| Z = | 0.883 | A third form of the Redlich-Kwong | |||||||||||
| Equation of State is: | |||||||||||||
| Z1 = | |||||||||||||
| Equation Constant, f = | Z2 = | ||||||||||||
| Z3 = | |||||||||||||
| The third form of the Redlich-Kwong equation can be obtained by substituting V = ZRT/P (from the definition | |||||||||||||
| of the compressibility factor, Z = PV/RT) into the first form of the Redlich-Kwong equation given above. | |||||||||||||
| CALCULATION CHECK | Calculation of Z using the 2nd Form of the R-K Equation with the value of Z calculated above: | ||||||||||||
| The compressibility factor, Z, can be determined for specified gas temperature, pressure, critical temperature | |||||||||||||
| and critical pressure using either the second form or the third form of the Redlich-Kwong equation, however | |||||||||||||
| Equation Constant, A = | 0.0056893 | Equation Constant, B = | 0.0015606 | use of the second form requires an iterative calculation, while an explicit solution for Z can be obtained using | |||||||||
| Equation Constant, h = | 0.048078 | the third form of the R-K equation (as the maximum real root of the cubic equation in Z). | |||||||||||
| The value for Z is calculated here by finding the maximum real root of the third form of the | |||||||||||||
| Compressibility Factor, Z = | 0.883 | Redlich-Kwong equation as described at: www.polymath-software.com/ASEE2007/PDF1.pdf: | |||||||||||
| To find the maximum real root, first the parameter C is calculated, where C = (f/3)3 + (g/2)2, f = (-3q – 1)/3 | |||||||||||||
| Equations used for this | and g = (-27r – 9q – 2)/27. | If C > 0, there is one real root, Z = (-g/2 + C1/2)1/3 + (-g/2 – C1/2)1/3 + 1/3. | |||||||||||
| Calculation Check are: | |||||||||||||
| If C < 0, then there are three real roots, given by: Zk = 2(-f/3)1/2cos[(f/3) + 2p(k-1)/3] + 1/3, k = 1,2,3 | |||||||||||||
| with f = cos-1{[(g2/4)/((-f3)/27)]1/2} | |||||||||||||
| Note that the final calculation check made at the left using the more familiar second form of the Redlich-Kwong | |||||||||||||
| Copyright © McGraw-Hill Global Education Holdings, LLC. All rights reserved. | equation uses the value of Z calculated with the third form of the equation, so if the calculated value of Z is the | ||||||||||||
| same, no iteration is required. | |||||||||||||
http://www.accessengineeringlibrary.com/browse/handbook-of-chemical-engineering-calculations-fourth-edition/c9780071768047ch01 http://www.accessengineeringlibrary.com/browse/handbook-of-chemical-engineering-calculations-fourth-edition/c9780071768047ch01?utm_source=Compressibility%20Factor&utm_medium=Excel&utm_content=HBChemEngCalc%201.4&utm_campaign=USUnits http://accessengineeringlibrary.com/browse/perrys-chemical-engineers-handbook-eighth-edition/p200139d89972_420001 http://accessengineeringlibrary.com/browse/perrys-chemical-engineers-handbook-eighth-edition/p200139d89822_421001 http://www.accessengineeringlibrary.com/browse/perrys-chemical-engineers-handbook-9th-edition/c9780071834087ch02lev1sec13?q=Critical+Constants&book=Perry%27s+Chemical+Engineers%27+Handbook%2C+9th+Edition
3. S.I. Units
| 1. For calculations with one of the 21 gases listed in the table below, select the appropriate | ||||||||||||
| Calculation of Gas Compressibility Factor – S.I. Units | gas from the dropdown list in cell D12 and enter the gas temperature and pressure in | |||||||||||
| the indicated yellow cells. The gas critical temperature and critical pressure will be | ||||||||||||
| shown below on this worksheet and those values will be used for calculation of the | ||||||||||||
| FLUID SELECTION | Either (i) select a Gas and enter its temperature and pressure in the indicated yellow cells | compressibility factor of the gas. | ||||||||||
| below, so that its critical temperature and critical pressure will be obtained and used, or else, | ||||||||||||
| (ii) enter those parameters in the yellow cells D35, & D50, and those values will be used. | 2. For calculations with some other gas, not listed in the table below, the user must enter | |||||||||||
| values for the gas critical temperature and critical pressure in the indicated yellow | ||||||||||||
| Select a Gas and Enter Temperature | (Enter Values in yellow cells only) | cells in column D. Those user entered property values will be used for calculation of | ||||||||||
| the compressibility factor of the gas. The gas temperature and pressure must be | ||||||||||||
| Click at right to Select Gas | Methane | entered in the yellow cells, D14 and D15. | ||||||||||
| NOTE: For accurate calculation of Z with | ||||||||||||
| Gas Temperature (oC): | 20 | the Redlich Kwong equation, the reduced | 3. For either a gas selected from the dropdown list or user entered gas properties, | |||||||||
| Gas Pressure in Pipe (kPa abs): | 1013 | pressure should be less than half of the | the gas compressibility factor is calculated with the Redlich-Kwong Equation | |||||||||
| reduced temperature. That is: P/Pc < T/(2Tc) | For accurate results P and T values should be such that P/Pc < T/(2Tc). | |||||||||||
| Check on Gas Temperature and Gas Pressure Values entered above: | The source for the Tc and Pc values in this table is: | |||||||||||
| Table 2-13.2 in Perry's Chemical Engineers' Handbook, 9th Ed. | ||||||||||||
| Is P/Pc < T/(2Tc)? | YES | P/Pc = | 0.200 | |||||||||
| T/2Tc = | 0.288 | |||||||||||
| The entered values for T and P above are ok. | ||||||||||||
| Excel Vlookup results based on selected fluid: | ||||||||||||
| 190.6 | 4599.0 | |||||||||||
| CRITICAL TEMP. | Critical Temperature from above menu selection: | Tc, K | Pc, kPa | |||||||||
| 190.6 | K | Acetylene | 308.3 | 6138 | ||||||||
| Air | 132.45 | 3774 | ||||||||||
| NOTE: If you want to use a gas from the menu | Ammonia | 405.65 | 11280 | |||||||||
| above, then the yellow cell, D35, below must be blank. | Argon | 150.86 | 4898 | |||||||||
| Butane | 425.12 | 3796 | ||||||||||
| Use the Critical Temperature value above, OR | Carbon Dioxide | 304.21 | 7383 | |||||||||
| Carbon Monoxide | 132.92 | 3499 | ||||||||||
| Enter a Critical Temperature obtained elsewhere | Chlorine | 417.15 | 7710 | |||||||||
| Ethane | 305.32 | 4872 | ||||||||||
| Critical Temperature (K): | 508.2 | Ethylene | 282.34 | 5041 | ||||||||
| Helium | 5.2 | 227.5 | ||||||||||
| Critical Temp. Result: | 508.2 | K | (manual entry) | Hydrogen | 33.19 | 1313 | ||||||
| (This is the Critical Temperature that will be used to calculate compressibility factor.) | Hydrogen Chloride | 324.65 | 8310 | |||||||||
| Hydrogen Sulfide | 373.53 | 8963 | ||||||||||
| CRITICAL PRESSURE | Critical Pressure from above menu selection: | Methane | 190.56 | 4599 | ||||||||
| 4599.0 | kPa | Nitric Oxide | 180.15 | 6480 | ||||||||
| Nitrogen | 126.2 | 3400 | ||||||||||
| NOTE: If you want to use a gas from the menu | Oxygen | 154.58 | 5043 | |||||||||
| above, then the yellow cell, D50, below must be blank. | Propane | 369.83 | 4248 | |||||||||
| Propylene | 364.85 | 4600 | ||||||||||
| Use the Critical Pressure value above, OR | Sulfur Dioxide | 430.75 | 7884 | |||||||||
| Enter a Critical Pressure obtained elsewhere | ||||||||||||
| Critical Pressure (kPa): | 5066.25 | For the Redlich-Kwong Equation of State (used to calculate the compressibility factor, Z) see: | ||||||||||
| Handbook of Chemical Engineering Calculations, 4th Ed, Section 1.4. Redlich-Kwong Equation of State | ||||||||||||
| Critical Pressure Result: | 5066.3 | k
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