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UN IV ER SID AD D E AN T IOQU IA FAC U L TAD D E IN G EN I ER ÍA DEPARTAMENTO DE INGENIERÍA QUÍMICA SITUATIONS TO ANALYZE - TERMODINÁMICA I – IQU 700 PROFESSOR: MAURICIO ESTEBAN SÁNCHEZ; SEMESTER 2011-1 Problems analysis and Equations Of State (EOS) Discuss and write any question you have about those situations in order to analyze it in the class 1. What pressure, a 0.16 m3 vessel should be filled with 42 kg of ethylene, in order to get a temperature of 40°C? 2. A tank is filled with3 moles of n-pentane at 60 bar and 285°C. Determine the deviation percentaje for volume calulation compare with an ideal gas for each of the equations: virial, compressibility factor (2 and 3 parameters), Peng_Robinson, Soave Redlich Kwong and Patel- Teja. Compare against Peng Robinson equation. What is the tank volume in liters? 3. What is an uncompressible substance.? Explain it in a phase diagram. 4. An open end mercurial manometer shown below in the figure is connected to a gas tank. The mercury meniscus in the left leg of the manometer is opposite 33.8 cm on the meter stick; in the right leg it is opposite 16.2 cm. Atmospheric pressure is 747 mm Hg. Find the pressure of the gas. 2 5. A piston weighs 4.3 kg and has a cross sectional area of 450 mm . Determine the pressure that is exerted by this piston on the gas in the chamber. If the gas is water, what is it saturation temperature? 6. A pressure cooker has the lid screwed on tight. A small opening with A = 0.0075 in2 is covered with a petcock that can be lifted to let steam escape. How much mass should the petcock have to allow boiling at 250°F with an outside atmosphere at 15 psia? If the cooker volume is 6L and is charged with 1.0 kg of water, ¿how much water has to be evaporated? 7. En nuestro país se viene adelantando un programa de masificación de gas natural dentro del cual se fomenta la conversión de los vehículos de gasolina a gas natural (GNV); para tal propósito debe implementarse un nuevo tanque para almacenar el metano a alta presión. Si se sabe que 140 ft3 de metano a 60°F y 1.0 atm de presión equivale a 1.0 galón de gasolina, ¿cual será el volumen del tanque requerido para almacenar un equivalente a 10 galones de gasolina como gas natural a 3000 psia en Medellín? 1
UN IV ER SID AD D E AN T IOQU IA FAC U L TAD D E IN G EN I ER ÍA DEPARTAMENTO DE INGENIERÍA QUÍMICA SITUATIONS TO ANALYZE - TERMODINÁMICA I – IQU 700 PROFESSOR: MAURICIO ESTEBAN SÁNCHEZ; SEMESTER 2011-1 8. A spherical helium balloon of 30 ft in diameter is at ambient T and P, 60 F and 14.69 psia. How much helium does it contain? It can lift a total mass that equals the mass of displaced atmospheric air. How much mass of the balloon fabric and cage can then be lifted? 9. A substance is at 70°F and 300 lbf/in2 in a 10 ft3 tank. Estimate the mass from the compressibility chart if the substance is a) air, b) butane or c) propane. Discuss. 10. Air in a car tires a -10°Cand 2 bar. After the car is driven for some miles the temperature rises to 12°C. What is the new pressure?. Make your own assumptions. 11. A two-phase liquid–vapor mixture of H2O with an initial quality of 25% is contained in a piston–cylinder assembly as shown. The mass of the piston is 40 kg, and its diameter is 10 cm. The atmospheric pressure of the surroundings is 1 bar. The initial and final positions of the piston are shown on the diagram. As the water is heated, the pressure inside the cylinder remains constant until the piston hits the stops. Heat transfer to the water continues until its pressure is 3 bar. Friction between the piston and the cylinder wall is negligible. Determine the total amount of heat transfer, in J. 12. One kilogram of air, initially at 5 bar, 350 K, and 3 kg of carbon dioxide (CO2), initially at 2 bar, 450 K, are confined to opposite sides of a rigid, well- insulated container. The partition is free to move and allows conduction from one gas to the other without energy storage in the partition itself. The air and carbon dioxide each behave as ideal gases. Determine the final equilibrium temperature, in K, and the final pressure, in bar, assuming constant specific heats. 2

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Problems analysis and_eos_2011-1

  • 1. UN IV ER SID AD D E AN T IOQU IA FAC U L TAD D E IN G EN I ER ÍA DEPARTAMENTO DE INGENIERÍA QUÍMICA SITUATIONS TO ANALYZE - TERMODINÁMICA I – IQU 700 PROFESSOR: MAURICIO ESTEBAN SÁNCHEZ; SEMESTER 2011-1 Problems analysis and Equations Of State (EOS) Discuss and write any question you have about those situations in order to analyze it in the class 1. What pressure, a 0.16 m3 vessel should be filled with 42 kg of ethylene, in order to get a temperature of 40°C? 2. A tank is filled with3 moles of n-pentane at 60 bar and 285°C. Determine the deviation percentaje for volume calulation compare with an ideal gas for each of the equations: virial, compressibility factor (2 and 3 parameters), Peng_Robinson, Soave Redlich Kwong and Patel- Teja. Compare against Peng Robinson equation. What is the tank volume in liters? 3. What is an uncompressible substance.? Explain it in a phase diagram. 4. An open end mercurial manometer shown below in the figure is connected to a gas tank. The mercury meniscus in the left leg of the manometer is opposite 33.8 cm on the meter stick; in the right leg it is opposite 16.2 cm. Atmospheric pressure is 747 mm Hg. Find the pressure of the gas. 2 5. A piston weighs 4.3 kg and has a cross sectional area of 450 mm . Determine the pressure that is exerted by this piston on the gas in the chamber. If the gas is water, what is it saturation temperature? 6. A pressure cooker has the lid screwed on tight. A small opening with A = 0.0075 in2 is covered with a petcock that can be lifted to let steam escape. How much mass should the petcock have to allow boiling at 250°F with an outside atmosphere at 15 psia? If the cooker volume is 6L and is charged with 1.0 kg of water, ¿how much water has to be evaporated? 7. En nuestro país se viene adelantando un programa de masificación de gas natural dentro del cual se fomenta la conversión de los vehículos de gasolina a gas natural (GNV); para tal propósito debe implementarse un nuevo tanque para almacenar el metano a alta presión. Si se sabe que 140 ft3 de metano a 60°F y 1.0 atm de presión equivale a 1.0 galón de gasolina, ¿cual será el volumen del tanque requerido para almacenar un equivalente a 10 galones de gasolina como gas natural a 3000 psia en Medellín? 1
  • 2. UN IV ER SID AD D E AN T IOQU IA FAC U L TAD D E IN G EN I ER ÍA DEPARTAMENTO DE INGENIERÍA QUÍMICA SITUATIONS TO ANALYZE - TERMODINÁMICA I – IQU 700 PROFESSOR: MAURICIO ESTEBAN SÁNCHEZ; SEMESTER 2011-1 8. A spherical helium balloon of 30 ft in diameter is at ambient T and P, 60 F and 14.69 psia. How much helium does it contain? It can lift a total mass that equals the mass of displaced atmospheric air. How much mass of the balloon fabric and cage can then be lifted? 9. A substance is at 70°F and 300 lbf/in2 in a 10 ft3 tank. Estimate the mass from the compressibility chart if the substance is a) air, b) butane or c) propane. Discuss. 10. Air in a car tires a -10°Cand 2 bar. After the car is driven for some miles the temperature rises to 12°C. What is the new pressure?. Make your own assumptions. 11. A two-phase liquid–vapor mixture of H2O with an initial quality of 25% is contained in a piston–cylinder assembly as shown. The mass of the piston is 40 kg, and its diameter is 10 cm. The atmospheric pressure of the surroundings is 1 bar. The initial and final positions of the piston are shown on the diagram. As the water is heated, the pressure inside the cylinder remains constant until the piston hits the stops. Heat transfer to the water continues until its pressure is 3 bar. Friction between the piston and the cylinder wall is negligible. Determine the total amount of heat transfer, in J. 12. One kilogram of air, initially at 5 bar, 350 K, and 3 kg of carbon dioxide (CO2), initially at 2 bar, 450 K, are confined to opposite sides of a rigid, well- insulated container. The partition is free to move and allows conduction from one gas to the other without energy storage in the partition itself. The air and carbon dioxide each behave as ideal gases. Determine the final equilibrium temperature, in K, and the final pressure, in bar, assuming constant specific heats. 2