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# ESO 201A Thermodynamics - IIT Kanpur

COURSE FILE. ESO 201a Thermodynamics 1st semester 2015-2016. Instructor Prof. Sameer Khandekar Department of Mechanical Engineering Indian Institute of Technology Kanpur Kanpur (UP) 208016 India Contact Office: SL-109, Tel: 7038. E-mail: URL: ~samkhan ESO201A: Thermodynamics Instructor: Dr. Sameer Khandekar 2015-2016 (First semester ). COURSE OUTLINE. Chapter 1, Chapter 2. Definitions and concepts: System and CV, Macroscopic and microscopic view points;. Property, Thermodynamics Static and Equilibrium, Energy, Work interaction and various modes of work, Heat: Zeroth Law of Thermodynamics , Temperature Scale. Chapter 3. Properties of Pure Substances, Phase, Simple compressible substance, Mathematical, Tabular and Graphical representation of data; Ideal gas Van der Waals Equation of state.

COURSE FILE. ESO 201A Thermodynamics . 1st Semester 2015-2016 . Instructor . Prof. Sameer Khandekar . Department of Mechanical Engineering. Indian Institute of Technology Kanpur

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1 COURSE FILE. ESO 201a Thermodynamics 1st semester 2015-2016. Instructor Prof. Sameer Khandekar Department of Mechanical Engineering Indian Institute of Technology Kanpur Kanpur (UP) 208016 India Contact Office: SL-109, Tel: 7038. E-mail: URL: ~samkhan ESO201A: Thermodynamics Instructor: Dr. Sameer Khandekar 2015-2016 (First semester ). COURSE OUTLINE. Chapter 1, Chapter 2. Definitions and concepts: System and CV, Macroscopic and microscopic view points;. Property, Thermodynamics Static and Equilibrium, Energy, Work interaction and various modes of work, Heat: Zeroth Law of Thermodynamics , Temperature Scale. Chapter 3. Properties of Pure Substances, Phase, Simple compressible substance, Mathematical, Tabular and Graphical representation of data; Ideal gas Van der Waals Equation of state.

2 Compressibility chart; Thermodynamic Diagrams including Mollier diagram and Steam Tables. Quiz #1. ======================================== ==============================. Chapter 4, Chapter 5. First law of Thermodynamics and its applications to non-flow processes, Applications of first law of Thermodynamics to flow processes; Steady flow and Transient flow processes. MID semester EXAMINATION. ======================================== ==============================. Chapter 6, Chapter 7, Chapter 8. Second Law of Thermodynamics and its Applications, Availability. Quiz #2. ======================================== ==============================. Chapter 15. Applications of first law of Thermodynamics to chemically reacting systems.

3 Chapter 9, Chapter 10, Chapter 11. Gas power cycles, Vapor power cycles, Refrigeration cycles. Chapter 12. Thermodynamic potentials, Maxwell relations; Thermodynamic relations. END semester EXAMINATION. Course File: ESO201A. Prof. Sameer Khandekar INDIAN INSTITUTE OF TECHNOLOGY Kanpur . ESO 201a : Thermodynamics Instructor: Sameer Khandekar Timings: Lectures: MWF AM in L16. Tutorials: Th AM (10 class rooms, as indicated below). Faculty coordinates: # Name Dep E-mail Tel Office Section Classroom . Instructor Sameer Khandekar ME samkhan 7038 SL-109 - L16. Tutors 1 Dr. Jayant Singh CHE jayantks 6141 NL2-202 1 TB-203. 2 Dr. Nitin Kaistha CHE nkaistha 7513 FB-457 2 TB-204. 3 Dr. Indranil Saha Dalal CHE indrasd 6072 FB-467 3 TB-205.

4 4 Dr. Shikha Prasad ME shikhap 6973 FB-438 4 TB-206. 5 Dr. Prabhat Munshi ME pmunshi 7243 FB-402 5 TB-207. 6 Dr. Subrata Sarkar ME subra 7942 FB-353 6 TB-208. 7 Dr. Jishnu Bhattacharya ME jishnu 7684 NL-302 7 TB-209. 8 Mr. Srihari Dinesh AE jsdinesh 7727 KANZI House 8 TB-210. 9 Mr. Pradeep K. S. AE pradeeps 6843 NWTF - 302 9 TB-211. 10 Mr. Azmira Nageshwar Rao AE azmiran 7727 KANZI House 10 TB-212. Grading Policy: Item Points Remarks Mid- semester Examination 25 points Closed book/notes Two announced quizzes 25 points ( points each) Closed book/notes Final Examination 40 points Closed book/notes Tutorial marks 10 points Attendance + Tutor input Total 100 points Attendance: is mandatory, as per institute rules, both in the lectures and in the tutorials.

5 Re-grading: You can return the Examination/Quiz copies on the day the answer-scripts are distributed (in the tutorials) for re-grading, after writing your comments on the top of the answer-scripts. If you are absent (except official leaves, if granted) on that day, you lose the right of appeal. Make-up Exams: Only one make-up examination will be given, only to the students with regular attendance in Tutorials. Students missing mid- semester examination, or only one central quiz, can take this upon production of a valid medical/other relevant certificate/official reason. The entire material covered in the course will be included, irrespective of which test is missed. This make-up will be at the same time as the final make-up exam (date of which will be decided by the DOAA).

6 Thus, there will be only ONE make-up test for the entire course, after the final examination. Use of unfair means of any kind during the course, exams, quizzes, etc., including use of proxy-attendance or taking help during examinations, copying, etc.) would result in severe punishment, as per institute rules. I-cards: Carrying I-cards is mandatory in all examinations/quizzes. Text Book: (Sufficient copies in the Reserved Books Section, Central Library). Y. A. Cengel and M. A. Boles, Thermodynamics : An Engineering Approach, 6th Edition, SI Units, Tata McGraw Hill (2008 Indian Edition) in already the library (Reading Section). Procurement of 7th edition is in progress (Order placed in July 2015). You may also purchase 7th Edition, 2011 (Mc.

7 Graw Hill Education (India), ISBN: 978-0-07107254- 0, SI Units, of the above book (available in the Shopping Centre at approx. Rs. 700/-). Course File: ESO201A. Prof. Sameer Khandekar ESO201A: Thermodynamics Instructor: Dr. Sameer Khandekar 2015-2016 (First semester ). semester Plan Monday Tuesday Wednesday Thursday Friday Saturday Sunday July 27 28 29 30 (T1) 31 - - - - - - - 1 2. 3 4 5 6 (T2) 7 8 9. 10 11 12 13 (T3) 14 15 16. August 17 18 19 20 (T4) 21 22 23. 24 25 26 27 (T5-QUIZ#1) 28 29 (Friday plan) 30. 31 - - - - - - - 1 2 3 (T6) 4 5 6. 7 8 9 10 (T7) 11 12 13. September 14 15 16 (MIDSEM) 17 18 19 20 MIDSEM. 21 22 23 24 (T8) 25 26 27. 28 29 30 - - - - - - - 1 (T9) 2 3 (EXTRA CLASS) 4. 5 6 7 8 (T10) 9 10 11.

8 October 12 13 14 15 (T11-QUIZ#2) 16 17 18. 19 20 21 22 23 24 25 RECESS. 26 27 28 29 (T12) 30 31. 2 3 4 5 (T13) 6 7 8. 9 10 11 12 (T14) 13 14 15. November 16 17 18 (ENDSEM) 19 20 21 22 ENDSEM. 23 24 25 26 27 28 29 ENDSEM. 30. Institute holiday Tutorial = 12 + 2 Quizes Lecture = 39 + 2 Extra Classes Examination Course File: ESO201A. Prof. Sameer Khandekar ESO201A: Thermodynamics Instructor: Sameer Khandekar First semester : 2015 2016. Course File Lecture #1: Introduction to Thermodynamics , Importance, Definitions Continuum, System: closed, open and isolated, Boundary: real and imaginary, Control mass and control volume, Properties of a system, State of a system, Equilibrium: Mechanical, Thermal, Chemical, Phase equilibrium, Quasi-equilibrium process, Continuum Thermodynamics , Simple-compressible and complex systems, The State Postulate Lecture #2.

9 Overview of 2-stroke, 4-stroke and Wankel engine (To highlight unsteady and non-uniform processes), Intensive and Extensive properties, Concept of temperature from Zeroth law of Thermodynamics , Linear dependence of temperature on pressure for constant volume gas thermometers, temperature as a manifestation of kinetic energy, absolute thermodynamic scale of temperature - Kelvin scale, Other scales, Overview of temperature, measuring devices:-liquid crystal sheet, RTD, infrared thermography, thermocouples, mercury thermometers, Pressure measurement - absolute and gauge pressure, piezoelectric transducer, manometer, Pascal's law, hydrostatic law, Barometer. Lecture #3. Classification of Energy-mechanical, electrical, chemical, thermal, nuclear, magnetic etc.

10 , Microscopic and Macroscopic forms, Internal energy, Macroscopic - kinetic, gravitational potential, Flow work, Mechanical forms of energy, Microscopic - translational, rotational and vibrational energies of atoms and molecules, electronic translational, rotational and spin, Chemical bond energy, Nuclear energy, Interactions in Open and Closed Systems, Latent and specific heat, manifestation of heat energy into either temperature or in other microscopic forms of energy. Lecture #4. Heat and Work interactions, Different processes-Adiabatic, isothermal, isobaric, isochoric, Sign convention for heat and work, Similarities between heat and work, Point and Path functions, Mechanical form of work-displacement work, shaft work, surface tension work, spring work, stretching work, non- mechanical forms of work-electrical work, magnetic work, generalized expression for work done.