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Page Title: Thermodynamic Systems and Processes Summary
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Throttling Process		Up
Thermodynamics Heat Transfer and Fluid Flow Volume 1 of 3		Next
CHANGE OF PHASE

THERMODYNAMIC SYSTEMS AND PROCESSES Thermodynamics The  theory  also  states  W  =  0.    Our  observations  again  confirm  this  to  be  true  as  clearly  no "work" has been done by the throttling process.   Finally, the theory states that an ideal throttling process  is  adiabatic.    This  cannot  clearly  be  proven  by  observation  since  a  "real"  throttling process is not ideal and will have some heat transfer. Summary The important information from this chapter is summarized below. Thermodynamic Systems and Processes Summary A thermodynamic system is a collection of matter and space with its boundaries defined in such a way that the energy transfer across the boundaries can be best understood. Surroundings are everything not in the system being studied. Systems are classified into one of three groups: Isolated system    - neither mass nor energy can cross the boundaries Closed system - only energy can cross the boundaries Open system - both mass and energy can cross the boundaries A control volume is a fixed region of space that is studied as a thermodynamic system. Steady state refers to a condition where the properties at any given point within the system are constant over time.   Neither mass nor energy are accumulating within the system. A thermodynamic process is the succession of states that a system passes through. Processes can be described by any of the following terms: Cyclic process -    a series of processes that results in the system returning to its original state Reversible process    -    a process that can be reversed resulting in no change in the system or surroundings Irreversible process  -    a process that, if reversed, would result in a change to the system or surroundings Adiabatic process -    a process in which there is no heat transfer across the system boundaries Isentropic process     -    a process in which the entropy of the system remains unchanged Polytropic process    -    the plot of Log P vs. Log V is a straight line, PVn = constant Throttling process     -    a process in which enthalpy is constant h1 = h2, work = 0, and which is adiabatic, Q=0. HT-01 Page 30 Rev. 0

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