Presentation is loading. Please wait.

Presentation is loading. Please wait.

ME 200 L26: Entropy Change for an Ideal Gas Kim See’s Office ME Gatewood Wing Room 2172 Please check your HW and Examination Grades on Blackboard Please.

Published byKathlyn Evans Modified over 8 years ago

Similar presentations

Presentation on theme: "ME 200 L26: Entropy Change for an Ideal Gas Kim See’s Office ME Gatewood Wing Room 2172 Please check your HW and Examination Grades on Blackboard Please."— Presentation transcript:

1 ME 200 L26: Entropy Change for an Ideal Gas Kim See’s Office ME Gatewood Wing Room 2172 Please check your HW and Examination Grades on Blackboard Please pick up all graded Home Work https://engineering.purdue.edu/ME200/ ThermoMentor © Program Spring 2014 MWF 1030-1120 AM J. P. Gore gore@purdue.edu Gatewood Wing 3166, 765 494 0061 Office Hours: MWF 1130-1230 TAs: Robert Kapaku rkapaku@purdue.edu Dong Han han193@purdue.edurkapaku@purdue.eduhan193@purdue.edu

2 Recall Ideal Gas, Substitute Entropy Definition into First Law ►Superheated Vapor may be treated as an Ideal Gas if: p/p c 2 ►Property relations derived from mass conservation, first law, and second law apply to all systems when derived from any system.

3 Entropy S kJ/K or BTU/ o R Change for Ideal Gases ►Remember Chapter 3 (State Principle, Property Relations for p, T, V, v, ρ, U, u, H, h)

4 Specific Entropy “s” (kJ/kg-K or BTU/lbm- o R) Change for Ideal Gases, Constant c p, c v ►Remember Chapter 3 (Property Relations). Divide by “m” kg

5 Specific Entropy “s” (kJ/kg-K or BTU/lbm- o R) Change for Ideal Gases, Variable c p, c v ►Remember Chapter 3 (Property Relations). Divide by “m” kg

6 Entropy Change for Air: Example 0.15 kg of Air at 700 K, 10 atm pressure is heated to 1200 K in a piston cylinder device at constant pressure, find heat added and change in entropy considering variable specific heat and properties from Table A-22. Solution: T, Ku, kJ/kgS o kJ/kg-K 700 512.332.57277 1200 933.333.17888

7 Entropy Change for Ideal Gases: Example 2 lbm of N 2 is heated at constant volume from 32 o F to 70 o F find heat added and change in entropy. Assume: Ideal Gas and variable specific heat with properties given in Table A23E Solution:

Download ppt "ME 200 L26: Entropy Change for an Ideal Gas Kim See’s Office ME Gatewood Wing Room 2172 Please check your HW and Examination Grades on Blackboard Please."

Similar presentations

ME 200 L39 Vapor Compression Cycle Read 10

ME 200 L39 Vapor Compression Cycle Read 10
ME 200 L36 Ground Transportation (Continued) (Air Standard Otto Cycle) 9.1 and 9.2 Kim See’s Office ME Gatewood Wing Room 2172 Examination and Quiz grades.

ME 200 L36 Ground Transportation (Continued) (Air Standard Otto Cycle) 9.1 and 9.2 Kim See’s Office ME Gatewood Wing Room 2172 Examination and Quiz grades.
Lecture 13 Use of the Air Tables.

Lecture 13 Use of the Air Tables.
ME 200 L38 CARNOT REFRIGERATION CYCLE Read 10.1 Material not picked up this week may be recycled! ME 200 L38 CARNOT REFRIGERATION CYCLE Read 10.1 Kim Sees.

ME 200 L38 CARNOT REFRIGERATION CYCLE Read 10.1 Material not picked up this week may be recycled! ME 200 L38 CARNOT REFRIGERATION CYCLE Read 10.1 Kim Sees.
\ ME 200 L34 Self Study Assignment 9.6 Todays Class 9.11 Material not picked up this week may be recycled! \ ME 200 L34 Gas Turbine Power Generation and.

\ ME 200 L34 Self Study Assignment 9.6 Todays Class 9.11 Material not picked up this week may be recycled! \ ME 200 L34 Gas Turbine Power Generation and.
Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter 2 Module 2 Slide 1 Additional Aspects for.

Instructor’s Visual Aids Heat Work and Energy. A First Course in Thermodynamics © 2002, F. A. Kulacki Chapter 2 Module 2 Slide 1 Additional Aspects for.
ME 200 L19: ME 200 L19:Conservation Laws: Cycles HW 7 Due Wednesday before 4 pm HW 8 Posted Start early Kim See’s Office ME Gatewood Wing Room 2172 https://engineering.purdue.edu/ME200/

ME 200 L19: ME 200 L19:Conservation Laws: Cycles HW 7 Due Wednesday before 4 pm HW 8 Posted Start early Kim See’s Office ME Gatewood Wing Room
Material not picked up this week may be recycled! ME 200 L37: Aircraft Propulsion Reading Assignment 9.11 Office ME Gatewood Wing Room 2172 Material not.

Material not picked up this week may be recycled! ME 200 L37: Aircraft Propulsion Reading Assignment 9.11 Office ME Gatewood Wing Room 2172 Material not.
Psychrometric Properties of Moist Air

Psychrometric Properties of Moist Air
ME 200 L6: Energy Rate Balance, Transient Operation, Cyclic Repetitive Operation, Cycle Analysis, Efficiency & Coefficient of Performance Spring 2014.

ME 200 L6: Energy Rate Balance, Transient Operation, Cyclic Repetitive Operation, Cycle Analysis, Efficiency & Coefficient of Performance Spring 2014.
Department of Mechanical Engineering ME 322 – Mechanical Engineering Thermodynamics Lecture 19 Calculation of Entropy Changes.

Department of Mechanical Engineering ME 322 – Mechanical Engineering Thermodynamics Lecture 19 Calculation of Entropy Changes.
EGR 334 Thermodynamics Chapter 6: Sections 1-5

EGR 334 Thermodynamics Chapter 6: Sections 1-5
EGR 334 Thermodynamics Chapter 6: Sections 6-8

EGR 334 Thermodynamics Chapter 6: Sections 6-8
PHYSICS 231 INTRODUCTORY PHYSICS I Lecture 18. The Laws of Thermodynamics Chapter 12.

PHYSICS 231 INTRODUCTORY PHYSICS I Lecture 18. The Laws of Thermodynamics Chapter 12.
ES 202 Fluid and Thermal Systems Lecture 18: Making the Connection (1/23/2003)

ES 202 Fluid and Thermal Systems Lecture 18: Making the Connection (1/23/2003)
Basic Chemistry Chapter 11 Gases Chapter 11 Lecture

Basic Chemistry Chapter 11 Gases Chapter 11 Lecture
ME 200 L13: Energy Applications: Stationary; Energy Applications: Transportation ME 200 L13: Energy Applications: Stationary; Energy Applications: Transportation.

ME 200 L13: Energy Applications: Stationary; Energy Applications: Transportation ME 200 L13: Energy Applications: Stationary; Energy Applications: Transportation.
ME 200 L14: ME 200 L14:Conservation of Mass: Control Volume 4.1-4.3 HW 5 cancelled HW 6 assigned https://engineering.purdue.edu/ME200/ Spring 2014 MWF.

ME 200 L14: ME 200 L14:Conservation of Mass: Control Volume HW 5 cancelled HW 6 assigned Spring 2014 MWF.
ME 200 L3: Introduction to Thermodynamics ME 200 L3: Introduction to Thermodynamics Energy: Kinetic, Potential and Internal Spring 2014 MWF 1030-1120 AM.

ME 200 L3: Introduction to Thermodynamics ME 200 L3: Introduction to Thermodynamics Energy: Kinetic, Potential and Internal Spring 2014 MWF AM.
ME 200 L18: ME 200 L18:Conservation Laws: Heat Exchangers HW 7 Posted Due in One Week: Kim See’s Office ME Gatewood Wing Room 2172 https://engineering.purdue.edu/ME200/

ME 200 L18: ME 200 L18:Conservation Laws: Heat Exchangers HW 7 Posted Due in One Week: Kim See’s Office ME Gatewood Wing Room

Similar presentations

Ads by Google