Ch 2. Pure Substances Multimedia Engineering Thermodynamics Phase PropertyDiagrams PropertyTables IdealGas
 Chapter 1. Basics 2. Pure Substances 3. First Law 4. Energy Analysis 5. Second Law 6. Entropy 7. Exergy Analysis 8. Gas Power Cyc 9. Brayton Cycle 10. Rankine Cycle Appendix Basic Math Units Thermo Tables Search eBooks Dynamics Statics Mechanics Fluids Thermodynamics Math Author(s): Meirong Huang Kurt Gramoll ©Kurt Gramoll

 THERMODYNAMICS - CASE STUDY Introduction Hot Air Balloon Ballooning is a sport and hobby for many people around the world. Three people were staring ballooning in a cool spring day. Alex, a 11 year old son of one of the ballooning person, was one of the audience. He is full of curiosity about the huge color ball. After his dad came home, he asked some questions about the ballooning. What is known: The balloon is approximately a sphere with a diameter of D = 20 m Local pressure Pa = 90 kPa Local air temperature Ta = 15 oC The mass of the empty balloon and the cage mb = 80 kg The mass of each person mp = 65 kg Questions Determine the mass of the hot air in the balloon when the balloon is still in the air Determine the average temperature in the balloon in order to keep the balloon still in the air What will happen if the local temperature increases to 30 oC? Approach Force Balance on The Balloon The force that lifts the balloon upward is:       FB = ρcool air g Vballon The forces that will be balanced by the force (FB) are : (1) The weight of the cage, the ropes, and the balloon materials (2) The mass of the hot air in the balloon (3) The weight of the people and other load in the cage