1- fundamentals of thermodynamics (1).pdf

Transcript

IKSchene
Sem. II

New Syllabus
MSBTE

year 2024-2025
As per new revised
K
Scheme w.e.f. academic

THERMAL ENGINEERING
(Code : 313310)
-III
Second Year Diploma Semester PG)
Mechanical Engineering / Production Engineering (ME/

S. D. Ambatkar

TM
Includes :
Solved previous
MSBTE Question Papers. Tech Knouwledge
on Each Topic.
Solved Examples based
Publi Cations
 SYLLABUS

THERMAL ENGINEERING (313310)
-
emester i Mechanical Eneinoering / Production Engineering (ME/ P)

Unit Unit Outcomes (UOs) Topics and Sub-topics
(in cognitive domain)

1.1Thermodynamic system, Types of systems
TLO 1.1 Explain Open, closed & isolated system, Extensive and
the various Intensive properties, Process and Cycle.
thermodynamic
Thermodynamic definition of work, heat,
systems & its difference between heat and work, flow work,
Unit - 1: properties with concepts of enthalpy and entropy.
Fundamentals of suitable example. -
1.2 Laws of Thermodynamics Zeroth law, first law
Thermodynamics TLO 1.2 Interpret various laws
and second law of thermodynamics. Kelvin
Refer chapter 1 of thermodynamics.
Planks, Clausius statements. Concept of Heat
TLO 1.3 Maintain various engine, Heat pump and Refrigerator.
thermodynamic
Laws of Thermodynamics
devices by using laws 1.3 Application of
Steady flow energy equation and its application
of thermodynamics
to boiler, turbine, and condenser. (No
Numerical Treatment on above)

2.1 Characteristics gas constant and universal gas
constant. Derivation of characteristics gas
equation.
2.2 Ideal gas processes - Isobaric, Isochoric,
TLO 2.1 Illustrate Ideal gas Isothermal, Isentropic, Polytropic and their
processes on P-V& T-S representation on P-V and T-S diagrams.
diagram. Determination of work, heat, internal energy,
-
Unit Il: TLO 2.2 Determine work done, enthalpy change. (only simple numerical based
heat transfer, internal on above).
Ideal Gases
and Steam energy, enthalpy|2.3 Steam fundamentals - Applications of steam,
Fundamentals change for various generation of steam at constant pressure with
Refer chapter 2 ideal gas processes. representation on T-H & T-S chart Types of
TLO 2.3 Calculate different steam: Wet, dry, superheated steam.
Properties
properties of steam of steam: Sensible, latent, total heat, specific
using steam table, Volume, dryness fraction. use of steam
table
(Only simple numericals based on above)
Rankine Cycle & its representation on P-V & T'S
chart. (No numerical on Rankine cycle)
 Introduction

Refer
Power Heat
Refer Heat
Engine
Unit Steam
chapter Refer Components
Exchangers Transfer
Unit
Cycles - chapter4

Unit
V: -IV:
& to chapter
Power

5 l.C.
- Unit
IIl
& Plant :

TLO TLO
3 of
TLO
TLO TLO
TLO
TLO
5.3 5.2 5.1 TLO
TLO TLO
4.3 4.2
4.1
1.C.
strokes
and Explain Classify &T-S standard Represent 3.4 3.3 3.2 3.1
n
application. exchanger
Select
engine.
slab by Calculate
transfer. Explain Unt
cooling steam boiler, procedure maintenance
Explain
working conduction
with the Select turbines. cognitive
diagram.
and Explain power Draw

& Outcomes

& I. composite
justification.
working

four
construction
C. cycles
various
suitable
modes tower. condenser
steam
given
condensers plant. layout
Engines. heat
for domain)

of
construction

Stroke
on through transfer of situation (UOs)
two
P-V
given
heat
walls. of turbine,

steam
effective

of of
air heat steam steam
and
for
5.2
4.1 34
3.1
stroke Construction Classification Basics
Diesel Power
numerical representation
exchanger
and Heat conduction numerical
Stefan reflectivity, Radiation cooling, composite Fourier's convection Modes
forced towers, Cooling
(No its surface condensers, pressure, Steam heating Need working turbine types, Steam pressure Introduction
Lamont Classification
Steam Components

working
Exchangers effect.
numerical
I.C.
of Cycles
and condensers

of
applications
engines cycle, Condenser. nozzle Boiler-
1.C. on Boltzmann Construction

and natural
wall. law,
of Towers-
& boiler Topics
through
of
-Classification,
bleeding compounding. boiler,
emissivity,
& and above) based

working
Engine
on - of and heat induced
construction
function, Impulse

(S.I.
its shell
-
absorptivity,
Convection conduction
Treatment

& & of Definition &
and
application
P-V Dual Carnot applications. Classification,
Steam Benson
Construction
boilers,
layout
to
radiation.

and - and
and slab
on
law. black
and transfer

draught
and
Classification
Sources
-
Dalton's steam.
of
and
of steam
Sub-toplcs

of Engine steam

as of
CI)
tube, & heat forced
Turbines
Boiler. Introduction

two T-s Cycle Cycle, composite
for working
steam

body,
-
Newton's
through
of and
classification
Regenerative

Reaction
Construction

per
plate this
of
diagram. (Only transmissivity,
stroke
terminology,
transfer
Conduction cooling
air law
nozzles. power

&
construction

IBR, power
IC Otto
gray
convection. Conduction,
unit) leakage working
- working
and
engines, type
wall.) of of of Function.
function
& simple slab natural, turbine

four (No
cycle,
heat
body, law tower. cooling partial

feed
Steam
to plantplant,
and and high
its by of & of of Df

1.3
1.2 1.1 Syllabus:

at 12
1
Chapter Thermal

condenser.
1.3.3 1,3.2 1.3.1 Work 1.2.12 1.2.11 1.2.10
Application statements.
Laws concepts
Process Thermodynamic

1.2.9 1.2.8 1.2.7 1.2.6 1.2.5 Concept
1.2.3 1.2.2 1.2.1 Basic Enginering
1.2.4

and Concept.... of 1:
Thermodynamics
Similarity
Heat Work.. Definitions
Flow Non Quasi-static and
Energy..
Path Cycle. Process.
State.
Classification
Property. Types Thermodynamic

of (No
of Fundamentals

Pure of Concept enthalpy

Cycle.
Transfer Process,
Flow Laws
Numerical
(Classification)
system,
Substance

Between Process..

and Process
of
Thermodynamics
of and
Thermodynamic

Heat
and
Unit of
Properties. Treatment
-
entropy.
Types

System.
Energy. engine, Zeroth
Heat
Conversion
(Reversible
of
of
and
of
System. systems-
Thermodynamics

on Heat law, definition

Work
above). -