RAJALAKSHMI ENGINEERING COLLEGE

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Oct 27, 2013 (3 years and 7 months ago)

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Signature of Faculty




Signature of HOD


1

RAJALAKSHMI ENGINEERING COLLEGE

Thandalam
, Chennai



602 105


LESS
I
ON PLAN



Faculty Name

:

MOHANRAJ. K

Staff Code

:

AU
20

Subject Name

:

Engineering Thermodynamics



Subject Code

:

112301

Year

:

II

Semester

:

IV

Degree & Branch

:

B.E.


Arql

S
ection

:



AIM

To understand the concept and utility of heat

OBJECTIVE









To achieve an understanding of principles of thermodynamics and to be able to use it in
accounting for the bulk
behavior

of the simple physical systems.

To provi
de in
-
depth study of thermodynamic principles, thermodynamics of state, basic
thermodynamic relations, Principle of Psychrometry & Properties of pure substances.

To enlighten the basic concepts of
vapor

power cycles.

TEXT BOOKS

1. Nag.P.K., “Engineering T
hermodynamics”, Tata McGraw
-
Hill, New Delhi, 2007.


2. Rathakrishnan E., “Fundamentals of Engineering Thermodynamics”, Prentice
-
Hall of India,

REFERENCES

1. Ramalingam K.K. “Thermodynamics”, Sci
-
Tech Publications, 2006

2. Holman.J.P., “Thermodynam
ics”, 3
rd

Ed. McGraw
-
Hill, 2007.

3. Venwylen and Sontag, “Classical Thermodynamics”, Wiley Eastern, 1987

4. Arora C.P,
“Thermodynamics
”, Tata McGraw
-
Hill, New Delhi, 2003.

5. Merala C, Pother, Craig W, Somerton,
“Thermodynamics

for Engineers”, Schaum Outli
ne
Series,Tata McGraw
-
Hill, New Delhi, 2004.


Sl.
No.

Date

Period

Unit

Topic(s)

T / R*



No.

Page

1


1,2

I

Basic concepts
-

concept of continuum
.

macroscopic approach,
T
hermodynamic systems
-

closed, open and isolated

T


2


3

I

Property, state, path and
process, quasi
-
static
process

T


3


4

I

W
ork, modes of work, Zeroth law of
thermodynamics

T


4


6

I

Concept of temperature and heat. Concept of ideal
and real gases
,

First law of thermodynamics


application to closed and open systems

T
&R1


5


8

I

I
nter
nal energy, specific heat capacities, enthalpy

T


Signature of Faculty




Signature of HOD


2


T


Text Book / R


Reference Book

6


9

I

Steady flow process with reference to various
thermal equipments.

T


7


10

I

TUTORIAL

T


8


11

I

TUTORIAL

T


9


12

I

TUTORIAL

T


10


14

II

Second law of thermodynamics


Kelvin’s and
Clausius st
atements of second law
, Reversibility
and irreversibility

T
&R3


11


15

II

Carnot cycle, reversed carnot cycle

T


12


16

II

E
fficiency, COP

T



13


18

II

Thermodynamic temperature scale, Clausius
inequality, concept of entropy, entropy of ideal
gas,

T


14


20

II

P
rinciple of increase of entropy


Carnot theorem

T


15


21

II

A
bsolute entropy,

T


16


22

II

Availability
, TUTORIAL

T
&R1


17


23

II

TUTOTIAL

T


18


24

II

TUTORIAL

T


19


26

III

Properties of pure substances


Thermodynamic
properties of
pure substa
nces in solid

phase

T
&R2


20


28

III

Thermodynamic properties of pure substances in
liquid and
vapor

phases
, phase rule.

T


21


29

III

P
-
V, P
-
T, T
-
V, T
-
S, H
-
S diagrams, PVT surfaces

T


22


30

III

T
hermodynamic properties of steam

T


23


32

I
II

Calculations of work done and heat transfer in
non
-
flow and flow processes

T


24


33

III

Standard Rankine cycle

T
&R1


25


34

III

Reheat and regenerative cycle.

T
&R1


26


35

III

TUTORIAL

T


27


36

III

TUTORIAL

T


28


38

IV

Gas mixtures


Properties
of ideal and real gases
equation of state

T


29


39

IV

E
quation of state, Avagadro’s law

T


30


41

IV

Vander Waal’s equation of states
,

compressibility,
compressibility chart

T


31


42

IV

Dalton’s law of partial pressure,

T


32


44

IV

Exact differentia
ls, T
-
D, relations

T


33


45

IV

Maxwell relations, Clausius Clapeyron equations

T


34


47

IV

Joule Thomson Coefficient.

T


35


48

IV

TOTRIAL

T


36


50

IV& V

TUTORIAL
, Psychrometry
-

basics

T


37


52

V

Psychrometric charts and use of charts

T


38


5
3

V

Property calculations of air
vapor

mixtures

T


39


54

V

Psychrometric process

T


40


55

V

Sensible heat exchange processes

T


41


56

V

Latent heat exchange processes

T


42


57

V

Adiabatic mixing

T


43


58

V

Evaporative cooling

T


44


59

V

TUTORIA
L

T


45


60

V

TUTORIAL

T