Thermodynamics and Energy Systems Analysis: Volume 2, Solved Problems and ExercisesThis book illustrates the basic concepts of phenomenological thermodynamics and how to move from theory to practice by considering problems in the fields of thermodynamics and energy-systems analysis. Many subjects are handled from an energetics or exergetics angle: calorimeters, evaporators, condensers, flow meters, sub or supersonic nozzles, ejectors, compressors, pumps, turbines, combustion processes, heaters, smoke stacks, cooling towers, motors, turbo-reactors, heat pumps, air conditioning, thermo-electrical generators, energy storage, and more. |
Other editions - View all
Thermodynamics and Energy Systems Analysis: From Energy to Exergy Lucien Borel,Daniel Favrat Limited preview - 2010 |
Thermodynamics and Energy Systems Analysis: Solved Problems and Exercises Lucien Borel,Daniel Favrat No preview available - 2012 |
Thermodynamics and Energy Systems Analysis: From Energy to Exergy Lucien Borel,Daniel Favrat No preview available - 2010 |
Common terms and phrases
ˆTa according to Table accounting atmosphere bar ˆT1 Calculate the exergy Calculate the heat Calculate the specific carbon dioxide changes of kinetic combustion chamber combustion gases compression compressor condenser cooling cycle Data Description Consider Description Let dissipation energies are negligible entropy exergy balance exergy efficiency expansion final temperature finally fluid fuel given heat of air heat power heat transfer helium humidity ratio hypotheses Initial thermodynamic inlet internal energy isentropic process Isobaric specific heat Isochoric specific heat kg/kmol kg/s kilomoles kinetic and potential kJ/(K kg kJ/kg kmol Lower heating value mass fiow mass flow mechanical energy mixture Molar mass N2/kmol nitrogen nozzle oxygen partial pressure perfect gas polytropic process potential energies power effectiveness process 1-2 Questions relative enthalpy saturation Solution specific Specific constant specific heat energy Steady-state operation steam T-s diagram thermally insulated transformation exergy turbine vapor