Pse curriculum and regulations for me power systems engineering
Curriculum ME 2015-16_by_Prof. P.prabhakaran
Transcript of Curriculum ME 2015-16_by_Prof. P.prabhakaran
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8/17/2019 Curriculum ME 2015-16_by_Prof. P.prabhakaran
1/23
NAVRACHANAUNIVERSITY
SCHOOL OF SCIENCE ANDENGINEERING
M.TECH (MECHANICAL-THERMALENGINEERING)
CREDIT STRUCTUREMTech- Mechanical
(TheralEn!ineerin!)"#$%-$&
'ATCH "#$% - "#$&
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8/17/2019 Curriculum ME 2015-16_by_Prof. P.prabhakaran
2/23
NAVRACHANAUNIVERSITY
SCHOOL OF SCIENCE ANDENGINEERING
M.TECH (MECHANICAL-THERMALENGINEERING)
See*er IC+,re
C+e C+,re Nae
Crei* S*r,c*,re
LT C
TFE101
Advanced Thermodynamics & FluidDynamics 4 0 0 4
TFE102 Advanced Heat Transfer 4 0 0 4 TFE103 Lo Tem!erature "ystems 4 0 0 4 TFE104 Fuels & #om$ustion 4 0 0 4 TFE10% #ore Elective ' 4 0 0 4 TFE10( Fuels and #om$ustion La$oratory 0 0 3 1)%
TFE10* Advanced Heat Transfer La$oratory 0 0 3 1)% TFE10+ ,esearch -ethodolo.y 2 0 0 2
TOTAL "" # % "/
See*er II TFE10/ #om!utational Fluid Dynamics 4 0 0 4 TFE1
10 Desi.n of Thermal "ystems 4 0 0 4 TFE1
11 E!erimental Techniues 4 0 0 4
TFE112 oer lant En.ineerin. 4 0 0 4
TFE113 #ore Elective 2 4 0 0 4
TFE114
#om!utational Fluid DynamicsLa$oratory 0 0 3 1)%
TFE11% E!erimental Techniues La$oratory 0 0 3 1)%
TOTAL "# # % "0
See*er III TFE2
01 - Tech roect 1 hase 15-T1 0 0 1( 1( TFE202 'nterdisci!linary Elective 2 0 0 2
TOTAL " # $% $&
See*er IV TFE2
03 -tech roect 2 hase 25-T2 0 0 1+ 1+
TOTAL # # $& $&
List of #ore Electives o6ered for
C+,r C+,re Nae Crei* S*r,c*,re
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8/17/2019 Curriculum ME 2015-16_by_Prof. P.prabhakaran
3/23
NAVRACHANAUNIVERSITY
SCHOOL OF SCIENCE ANDENGINEERING
M.TECH (MECHANICAL-THERMALENGINEERING)
eC+e L T C
#ore Elective1 Thermal Desi.n of Heat Echan.ers 4 0 0 4
Advanced ,efri.eration and Air#onditionin. 4 0 0 4Desi.n of um!s 4 0 0 4Alternate Ener.y "ources 4 0 0 4
4 0 0 4
#ore Elective2"olar "ystems Desi.n 4 0 0 4Ener.y Audit -ana.ement 4 0 0 4#ryo.enics En.ineerin. 4 0 0 4Desi.n of Tur$ines 4 0 0 4
7as Tur$ine oer lant 4 0 0 4
Li* +1 In*erici2linar3 Elec*i4e
C+,re
C+e C+,re Nae
Crei* S*r,c*,re
L T C Teachin. -ethodolo.ies 2 0 0 2Enter!reneurshi! 2 0 0 2', and atent La 2 0 0 2
8!eration -ana.ement 2 0 0 2
M.Tech r+5ec* (MT$ an MT") G,ie line
• -)Tech roect ill $e of one academic year duration)
• -)Tech !roect ill $e continuously evaluated $y -)Tech !roectrevie committee)
• There ill $e to !ro.ress seminars in each semester) Theevaluation of the !ro.ress of or9 ill $e carried out $y an internalevaluation committee consistin. of to faculty mem$ers and thesu!ervisor)
• At the end of the :rst semester; the evaluation of the or9 ill $ecarried out throu.h a seminar !resentation $y the candidate) Thecommittee ill $e consistin. of a chairman; an eternal revieerfrom outside the
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8/17/2019 Curriculum ME 2015-16_by_Prof. P.prabhakaran
4/23
NAVRACHANAUNIVERSITY
SCHOOL OF SCIENCE ANDENGINEERING
M.TECH (MECHANICAL-THERMALENGINEERING)
#ourse #ode= TFE101
#ourse Title= A4ance Ther+3naic 6 Fl,i
D3naic
C+,re S*r,c*,reLectures= 4 hours !er
>ee9
Tutorials=
ractical=
E4al,a*i+nS*r,c*,re
Theory = 4
credits
ractical =
T+*al Crei* 7
crei*
a.e =
?ear of 'ntroduction= 201(1*
"emester = F',"T
Level = -) Tech
F,naen*al
#once!t of continuum and de:nition of a @uid) ody and surface forces;
stress tensor; !rinci!le of local stress euili$rium) "calar and vector :elds;
Eulerian and La.ran.ian descri!tion of @o)
-otion of @uid element translation; rotation and deformationB vorticity and
strainrate tensors)
Na4ier8 e9,a*i+n +1 +*i+n
#ontinuity euation; #auchys euations of motion; Trans!ort theorems)
#onstitutive euations"to9es la of viscosity) Derivation of Cavier"to9es
euations for com!ressi$le @o)
lane oiseuille @o and #ouette @o; Ha.enoiseuille @o; @o $eteen
to concentric rotatin. cylinders; "to9es :rst and second !ro$lems)
'+,nar3 la3er e:ac* +l,*i+n an +rer +1 a!ni*,e e*h+
oundary layer= derivation; eact solutions; lasius; Fal9ner "9an; series
solution and numerical solutions) A!!roimate methods)
T,r;,lence
Descri!tion of tur$ulent @o; velocity correlations; ,eynolds stresses)
Euations for tur$ulence 9inetic ener.y and 9inetic ener.y of mean @o)
Eddy viscosity models of tur$ulence= eroeuation; oneeuation and to
euation models) randtls -iin. Len.th Theory) Em!irical las= la of the
all; velocity defect la; universal velocity distri$ution)
'aic C+nce2*
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8/17/2019 Curriculum ME 2015-16_by_Prof. P.prabhakaran
5/23
NAVRACHANAUNIVERSITY
SCHOOL OF SCIENCE ANDENGINEERING
M.TECH (MECHANICAL-THERMALENGINEERING)
Thermodynamics ,evie; "ystem & surroundin.s; First la; "teady state
ener.y euation; second la; entro!y; 'ncreases of entro!y !rinci!le and
its a!!lication; Tds relation; entro!y chan.e of solid; liuid and ideal .as;
entro!y transfer ith heat transfer; entro!y .eneration in o!en and closedsystem; entro!y $alance
E:er!3
Eer.y as a -easure of >or9 otential= Eer.y transfer $y heat; or9 &
mass; decrease of eer.y !rinci!le and eer.y destruction; a!!lications of
7ouy"todola theorem; eer.y $alance for steady @o and closed
!rocesses; second la eciency; Eer.y Analysis of "im!le rocesses=
-iin. and se!aration !rocess of @uids of di6erent tem!erature; heat
transfer across a tem!erature di6erence; e!ansion and com!ression
!rocess; com$ustion !rocess
E:er!3 Anal3i +1 Vari+, 3*e
Eer.y Analysis of oer lant #ycles= -aimum !oer su$ect to sie
constraint ith :ed heat in!ut and its a!!lication to rayton cycle "team
tur$ine !oer !lants= Eternal and internal irreversi$ility; su!erheater;
reheater; vacuum condenser; re.enerative feed ater heatin.; com$ined
feed ater heatin. and reheatin. 7as tur$ine !oer !lant= Eternal and
internal irreversi$ility; re.eneration; reheater; and intercooler; com$ined
steam and .as tur$ine !oer !lant; Eer.y analysis of ,efri.eration cycle= GouleThomson E!ansion; >or9roducin. E!ansion; rayton #ycle;
8!timal 'ntermediate #oolin.; Eer.y analysis of Airconditionin.
a!!lications= -itures of air and ater va!our; total @o eer.y of humid
air & liuid ater; Eva!orative coolin. !rocess and other as!ects
Re1erence '++iley &"ons; 'nc)
2) The Eer.y -ethod of Thermal lant Analysis $y T G otas; rie.er
u$lishin. #om!any3) Thermal Desi.n and 8!timiation $y Adrian ean; 7eor.e Tsatsaronis;
-ichael -oran; Gohn >iley & "ons; 'nc)4) Advance Thermodynamics for En.ineers $y >inter$ore D E; Arnold
u$lication%) Advanced Thermodynamics for En.ineers $y enneth >ar9; -c7ra
Hill u$lishin. #o) Ltd)
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8/17/2019 Curriculum ME 2015-16_by_Prof. P.prabhakaran
6/23
NAVRACHANAUNIVERSITY
SCHOOL OF SCIENCE ANDENGINEERING
M.TECH (MECHANICAL-THERMALENGINEERING)
() Fundamentals of En.ineerin. Thermodynamics $y -ichel G -oran;
Hoard C "ha!iro; Daisie D oettner; -ar.aret ailey; Gohn >iley &
"ons; 'nc)
*) Iiscous Fluid Flo $y Fran9 -) >hite;+) Fluid -echanics $y "))"om; isas; ") #ha9ro$orty/) JIiscous Fluid Flo;K Fran9 -) >hite -c7ra hill u$lications510) JFluid -echanics;K") ) "om; ) isas and ") #ha9ra$orty11) JAdvanced Fluid -echanics;K>illiam 7rae$el
#ourse #ode= -ET10"
#ourse Title= A4ance Hea* Tran1er
C+,re S*r,c*,reLectures= 4 hours !er
>ee9
Tutorials=
ractical=
E4al,a*i+nS*r,c*,re
Theory = 4
credits
ractical =
T+*al Crei* 7
crei*
a.e =
?ear of 'ntroduction= 201(1*
"emester = F',"T
Level = -) Tech
In*r+,c*i+n
'ntroduction to convection) Derivation of .overnin. euations of
momentum; ener.y and s!ecies trans!ort; 8rder of ma.nitude analysis;
,eynolds analo.y)
Ener!3 E9,a*i+n
#onvective heat transfer in eternal @os= Derivation of hydrodynamic
and thermal $oundary layer euations; "imilarity solution techniues;
-omentum and ener.y inte.ral methods and their a!!lications in @o
over @at !lates ith lo and hi.h randtl num$er a!!roimations)
The Grae*= 2r+;le
#once!t of develo!in. and fully develo!ed @os) Thermally develo!in.
@os= 7raet !ro$lem) #once!t of thermally fully develo!ed @o and its
conseuences under constant all @u and constant all tem!erature
conditions; "teady forced convection in Ha.en oiseuille @o; lane
oiseuille @o; and #ouette @o and analytical evaluation of Cusselt
num$ers in limitin. cases)
'ATCH "#$% - "#$&
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8/17/2019 Curriculum ME 2015-16_by_Prof. P.prabhakaran
7/23
NAVRACHANAUNIVERSITY
SCHOOL OF SCIENCE ANDENGINEERING
M.TECH (MECHANICAL-THERMALENGINEERING)
Free c+n4ec*i+n
Free convection= Free convection $oundary layer euations= order of
ma.nitude analysis; similarity and series solutions; #once!t of thermal
sta$ility and ,aylei.h enard convection)
'+ilin! an c+nena*i+n
#once!t of $oilin. heat transfer and re.imes in !ool $oilin.#ondensation=
Cusselt :lm condensation theory; dro!ise condensation and
condensation inside tu$es)
Re1erence
1) J#onvection heat transfer;K Adrain ean; Gohn >iley & "ons;'ncor!orated; 1//%2) JHeat transfer;K 'ncro!era3) JHeat Transfer = A asic A!!roachK -) Cecati Ozisik
#ourse #ode= -ET$03 #ourse Title= L+> Te2era*,re S3*e
C+,re S*r,c*,reLectures= 4 hours !er
>ee9
Tutorials=
ractical=
E4al,a*i+nS*r,c*,re Theory = 4
credits
ractical =
T+*al Crei* 7
crei*
a.e =
?ear of 'ntroduction= 201(1*
"emester = F',"T
Level = -) Tech
Re1ri!era*i+n 3*e
,ecent develo!ments in refri.erants; -ethods of defrostin.; E!ansion Devices;
#ascade refri.eration systems; I#," ith intercooler and @ash cham$er; I#,"
ith multi!le e!ansion valves; -ulti eva!orator systems; "team et refri.eration
system; Iorte tu$e refri.eration system; Thermoelectric refri.eration system;
Adia$atic dema.netiation)
Cr3+!enic Li9,e1ac*i+n an Re1ri!era*i+n S3*e
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8/17/2019 Curriculum ME 2015-16_by_Prof. P.prabhakaran
8/23
NAVRACHANAUNIVERSITY
SCHOOL OF SCIENCE ANDENGINEERING
M.TECH (MECHANICAL-THERMALENGINEERING)
,ecu!erative & ,e.enerative #ycles; Goule Thomson cycle B 7i6ord -ach -ohan
cycle; "tirlin. cycle; ulse Tu$e refri.eration) Liuefaction systems= 'deal
systems; Linde; Linde Dual ressure "ystem; claude Heylandt; a!ita system)
Se2ara*i+n +1 Gae
uri:cation and se!aration of 7ases; Liue:ed Catural 7as = rinci!les of .as
se!aration = se!aration $y condensation & @ashin.; se!aration $y Distillation) Air
se!aration system= Linde sin.le column system) Linde dou$le column systems
etc; Liuefaction of Catural 7as)
S*+ra!e an Tran1er S3*e
Dear vessel desi.n; !i!in.; su!!ort systems; vessel safety devices and stora.e
systems; 'ndustrial stora.e systems) Transfer "ystems= Transfer from stora.e; un
insulated transfer lines; insulated lines; transfer system com!onents) Iacuum
"ystems; #ryo) um!in.)
Re1erence
1) aron; ,) F); J#ryo.enics "ystemsK; 8ford ress; ee9
Tutorials=
ractical=
E4al,a*i+nS*r,c*,re
Theory = 4
credits
ractical =
T+*al Crei* 7
crei*
a.e =
?ear of 'ntroduction= 201(1*
"emester = F',"T
Level = -) Tech
'ATCH "#$% - "#$&
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8/17/2019 Curriculum ME 2015-16_by_Prof. P.prabhakaran
9/23
NAVRACHANAUNIVERSITY
SCHOOL OF SCIENCE ANDENGINEERING
M.TECH (MECHANICAL-THERMALENGINEERING)
I. Introduction: Practical Implications of Combustion. A road map to various
combustion phenomena. Equations of Conservation of mass, energy, and species.
II. Thermodynamics: Mass conservation through balancing chemical equations.
Thermochemistry and energy conservation. Enthalpies of formation, reaction and
combustion. Approimate flame temperature. Equilibrium!second la". Equilib#
rium product composition and ame temperature.
III. Chemical Reaction Rate: Elementary reactions!chemical $inetics. Effect
of T, P and composition on rate. Chain reaction mechanisms. Eplosion peninsula
and nonthermal eplosions. %lobal reaction rate equation.
IV. Conservation Equations: &o" thermodynamics, chemistry, fluid mechanics,
heat transfer, and mass transfer come together in describing any combustion prob#
lem. 'ahm$ohler (umber for a perspective of diverse combustion
phenomena.
V. Ignition and Extinction: Thermal runa"ay and eplosions. )pontaneous
ignition. *orced ignition. Ignition limits. Etinction, etinguishment and blo"#
out. Chemical and physical factors of importance. E ect of heat losses. +uenching
of flames.
VI. Liquid Fuel Combustion: Evaporation rate of liquid droplets "ith and
"ithout burning. )pray burning. Pool and spill burning.
VII. olid Fuel Combustion: Coal particle burning. Char briquette burning.
ood burning.
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8/17/2019 Curriculum ME 2015-16_by_Prof. P.prabhakaran
10/23
NAVRACHANAUNIVERSITY
SCHOOL OF SCIENCE ANDENGINEERING
M.TECH (MECHANICAL-THERMALENGINEERING)
VIII. !as Fuel "et #i$$usion Flames: -osts flame height. Turbulent /ets.
)"irl. 0uoyant flames. *ires.
1) An 'ntroduction to #om$ustion; 3rd Edition; "te!hen ,) Turns2) La; #) );#om$ustion hysics; #am$rid.e; #am$rid.e; 2010)
3) Fic9ett; >); and Davis; >) #) Detonation= Theory and E!eriment;
Dover; Ce ?or9; 2001)
4) >arnat; G); -aas; );#om$ustion= hysical and
#hemical Fundamentals;-odellin. and "imulation; E!eriments;
ollutant Formation; fourth edition; "!rin.er= erlin; 200()
%) uo; ) );rinci!les of #om$ustion; second edition; >iley; Ce ?or9)
() Meldovich; ?) ); and ,aier; ?) );hysics of "hoc9 >aves and Hi.h
Tem!erature Hydrodynamic henomena; Dover; Ce ?or9; 2002)
*) >illiams; F) A);#om$ustion Theory; Addison>esley= Ce ?or9; 1/+%)
+) anury; A) -);'ntroduction to #om$ustion henomena; 7ordon and
reach= Ce ?or9; 1/*%)
/) Leis; ); and von El$e; 7);#om$ustion; Flames; and E!losions of
7ases; Academic ress= 8rlando; 1/+*)
#ourse #ode= -ET10& #ourse Title= Reearch Me*h++l+!3
C+,re S*r,c*,reLectures= 4 hours !er
>ee9
Tutorials=
ractical=
E4al,a*i+nS*r,c*,re
Theory = 4
credits
ractical =
T+*al Crei* 7
crei*
a.e =
?ear of 'ntroduction= 201(1*
"emester = F',"T
Level = -) Tech
'ntroduction? -eanin. of ,esearch; 8$ectives of ,esearch; -otivation in
,esearch; Ty!es of ,esearch; ,esearch A!!roaches; "i.ni:cance of
,esearch; ,esearch -ethods versus ; -ethodolo.y; ,esearch and "cienti:c
-ethod; 'm!ortance of noin. Ho ,esearch is Done; ,esearch rocess;
#riteria of 7ood ,esearchLiterature search and revie; Technical ritin.; !la.iarismNuantitative analysis and Nualitative analysis"ensitivity analysis; desi.n of E!erimentsDesi.n and fa$rication of e!erimental system; E!erimental 'nvesti.ation;
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8/17/2019 Curriculum ME 2015-16_by_Prof. P.prabhakaran
11/23
NAVRACHANAUNIVERSITY
SCHOOL OF SCIENCE ANDENGINEERING
M.TECH (MECHANICAL-THERMALENGINEERING)
data acuisition systems; measurement devices"eminar resentation
'OO@S RECOMMENDED
1 othari #) ,); J,esearch -ethodolo.y methods and techniuesK; Ce
A.e 'nteranational u$lication; second edition 2004)2 Ceil "al9ind); JE!lorin. ,esearchK earson Ce 'nternational Edition;
+th Edition; Au. 2013)3 David I) Thiel); J,esearch methods for en.ineersK #am$rid.e
ee9
Tutorials=
ractical=
E4al,a*i+nS*r,c*,re
Theory = 4
credits
ractical =
T+*al Crei* 7
crei*
a.e =
?ear of 'ntroduction= 201(1*
"emester = "econd
Level = -) Tech
Re4ie> +1 +e +1 hea* *ran1er- systems ith com$ined heat transfer
modes; #lassi:cation of heat echan.ers accordin. to transfer !rocess;surface com!actness; no) of @uids; constructional features; @o arran.ement;heat transfer mechanism)
'aic *heral anal3i +1 rec,2era*i4e *32e hea* e:chan!er L-TD;
ϵ CT
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8/17/2019 Curriculum ME 2015-16_by_Prof. P.prabhakaran
12/23
NAVRACHANAUNIVERSITY
SCHOOL OF SCIENCE ANDENGINEERING
M.TECH (MECHANICAL-THERMALENGINEERING)
O4er4ie> +1 Hea* E:chan!er ei!n e*h++l+!3- rocess and desi.n
s!eci:cation; thermal and hydraulic desi.n; meachanical desi.n;
manufacturin. considerations; trade o6 factors; o!timum desi.n)
Shell an T,;e hea* e:chan!er construction and thermal 1 eatures introduction Tu$ular Echan.er -anufacturers Association TE-A5
construction details ty!es Fied tu$e sheet; < tu$e; Floatin. head ty!es
s!lit $ac9in. rin.; !ull throu.h; lantern rin.; outside !ac9ed; ayonet tu$e
ty!es of @oatin. head ty!es; Head ty!es thermal desi.n features tu$e
s!eci:cation; diameter; thic9ness; !itch; s!ecial tu$es $aOes di6erent
ty!es $aOe s!eci:cation im!in.ement !lates tu$e $undle s!eci:cation
shell s!eci:cation
Hea* e:chan!er *heral ei!n 2r+ce,re shell and tu$e echan.ers;
!late :n echan.er; tu$e :n echan.er; radiators etc)
Hea* e:chan!er re,re r+2 anal3i etended surface !ressure dro!;
tu$ular echan.er !ressure dro!; !late echan.er !ressure dro!
Re1erence '++iley & "ons; 2003
• Ta$ore9; G; JHeat Echan.er Desi.n Hand$oo9; Iol)3; Hemis!here
u$lishin. #or!oration; 1/+3
• ell; )G); JaOed "hell & Tu$e Heat Echan.ersK; eris #hemical
En.ineers Hand$oo9 ; -c 7ra Hill 'nc); 1///)
• ern; D) N); Jrocess Heat TransferK; -c 7ra Hill 'nc); 1/%0
'ATCH "#$% - "#$&
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8/17/2019 Curriculum ME 2015-16_by_Prof. P.prabhakaran
13/23
NAVRACHANAUNIVERSITY
SCHOOL OF SCIENCE ANDENGINEERING
M.TECH (MECHANICAL-THERMALENGINEERING)
#ourse #ode= -ET10%
#ourse Title= A4ance Re1ri!era*i+n 6 Air-
c+ni*i+nin!
C+,re S*r,c*,reLectures= 4 hours !er
>ee9
Tutorials=
ractical=
E4al,a*i+nS*r,c*,re
Theory = 4
credits
ractical =
T+*al Crei* 7
crei*
a.e =
?ear of 'ntroduction= 201(1*
"emester = F',"T
Level = -) Tech
COMOUND VAOUR COMRESSION REFRIGERATION SYSTEMS
To sta.e com!ression ith ater intercooler; Liuid su$cooler and @ash
cham$er; Three sta.e com!ression; ith multi!le e!ansion valves and @ash
intercoolers; ,ecent develo!ments in refri.erants; -ethods of defrostin.;
E!ansion Devices)
ANALYSIS OF VAOUR A'SORTION SYSTEM
Tem!erature concentration and enthal!y concentration dia.rams; Enthal!y
$alance for various com!onents of aua ammonia systems)
STEAM BET REFRIGERATION SYSTEMS
'ntroduction; Analysis of steam et refri.eration system; erformance of the
steam et system)
NON CONVENTIONAL REFRIGERATION SYSTEMS
Thermo electric refri.eration system; Iorte tu$e ,efri.eration; ulse tu$e
refri.eration; Adia$atic
dema.netiation)
COMFORT AIR-CONDITIONING SYSTEMS
,euirements of comfort airconditionin.; Thermodynamics of human $ody;
#omfort charts; E6ective
tem!erature; Ientilation standards)
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8/17/2019 Curriculum ME 2015-16_by_Prof. P.prabhakaran
14/23
NAVRACHANAUNIVERSITY
SCHOOL OF SCIENCE ANDENGINEERING
M.TECH (MECHANICAL-THERMALENGINEERING)
DESIGN OF AIRCONDITIONING SYSTEMS
,evie of coolin. coil load calculations; y!ass factor; e6ective sensi$le heat
factor; desi.n consideration for coolin. coils; dehumidi:ers and air ashers;
central air conditionin. and unitary air conditionin. systems; factory airconditionin.)
DUCT DESIGN
Fluid @o and !ressure losses; duct desi.n; duct arran.ement system; noise and
noise control)
Re1erence
1) "toea9er >) F); J,efri.eration and Air #onditionin.K; -c7ra Hill;
2004)2) Dossat ,)G); Jrinci!les of ,efri.erationK; Gohn >iley & "ons; 2000)3) Arora #) ); J,efri.eration and Air #onditionin.K; Tata -c7ra Hill;
200*)4) Thra9eld G) L); JThermal Environmental En.ineerin.K; rentice Hall;
2002)%) Ananthanarayanan ) C); Jasic ,efri.eration and Air #onditionin.K;
Tata -c7ra Hill; 200%)
#ourse #ode= -ET10/ #ourse Title= C+2,*a*i+nal Fl,i D3naic
C+,re S*r,c*,reLectures= 4 hours !er
>ee9
Tutorials=
ractical=
E4al,a*i+nS*r,c*,re
Theory = 4
credits
ractical =
T+*al Crei* 7
crei*
a.e =
?ear of 'ntroduction= 201(1*
"emester = F',"T
Level = -) Tech
-odule1= 'ntroduction to #om!utational Fluid Dynamics and rinci!les of
#onservation= #om!utational Fluid Dynamics= >hat; >hen; and >hyP; #FD
A!!lications; Cumerical vs Analytical vs E!erimental; -odelin. vs
E!erimentation; Fundamental !rinci!les of conservation; ,eynolds trans!ort
'ATCH "#$% - "#$&
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8/17/2019 Curriculum ME 2015-16_by_Prof. P.prabhakaran
15/23
NAVRACHANAUNIVERSITY
SCHOOL OF SCIENCE ANDENGINEERING
M.TECH (MECHANICAL-THERMALENGINEERING)
theorem; #onservation of mass; #onservation of linear momentum= Cavier
"to9es euation; #onservation of Ener.y; 7eneral scalar trans!ort euation
-odule2= #lassi:cation of artial Di6erential Euations and hysical
ehaviour= -athematical classi:cation of artial Di6erential Euation;
'llustrative eam!les of elli!tic; !ara$olic and hy!er$olic euations; hysical
eam!les of elli!tic; !ara$olic and hy!er$olic !artial di6erential euations)
-odule3= A!!roimate "olutions of Di6erential Euations= Error -inimiation
rinci!les; Functional involvin. hi.her order derivatives; A!!roimate solution of
di6erential euations throu.h variational formulation; oundary conditions in the
variational form= rimary and secondary varia$les; Essential and natural
$oundary conditions; A!!roimate solutions of di6erential euations; ro!erties
of variational form; >ei.hted residual a!!roach= trial function and ei.htin.
function; ,euirement of trial function and ei.htin. function; Least suare
method; oint #ollocation method; 7aler9ins method; ,aylei.h,it method
-odule4= Fundamentals of Discretiation= Discretiation !rinci!les= re
!rocessin.; "olution; ost!rocessin.; Finite Element -ethod; Finite di6erencemethod; >ell !osed $oundary value !ro$lem; ossi$le ty!es of $oundary
conditions; #onservativeness; oundedness; Trans!ortiveness; Finite volume
method FI-5; 'llustrative eam!les= 1D steady state heat conduction ithout
and ith constant source term
-odule%= Finite Iolume -ethod= "ome #once!tual asics and 'llustrations
throu.h 1D "teady "tate Di6usion ro$lems= hysical consistency; 8verall
$alance; FI Discretiation of a 1D steady state di6usion ty!e !ro$lem;
#om!osite material ith !osition de!endent thermal conductivity; Four $asic
rules for FI Discretiation of 1D steady state di6usion ty!e !ro$lem; "ource
term lineariation; 'm!lementation of $oundary conditions
-odule(= Discretiation of
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8/17/2019 Curriculum ME 2015-16_by_Prof. P.prabhakaran
16/23
NAVRACHANAUNIVERSITY
SCHOOL OF SCIENCE ANDENGINEERING
M.TECH (MECHANICAL-THERMALENGINEERING)
discretiation; #onsistency; "ta$ility; #onver.ence; LAQ Euivalence theorem;
7rid inde!endent and time inde!endent study; "ta$ility analysis of !ara$olic
euations 1D unsteady state di6usion !ro$lems5= FT#" Forard time central
s!ace5 scheme; "ta$ility analysis of !ara$olic euations 1D unsteady state
di6usion !ro$lems5= #T#" scheme Lea! fro. scheme5; DufortFran9el scheme;
"ta$ility analysis of hy!er$olic euations= FT#"; FTF"; FT" and #T#" "chemes;
"ta$ility analysis of 2nd order hy!er$olic euations= #T#" scheme
-odule+= Finite Iolume Discretiation of 2D unsteady "tate Di6usion ty!e
ro$lems= FI- for 2D unsteady state di6usion !ro$lems )
-odule/= "olution of "ystems of Linear Al.e$raic Euations= #riteria for
uniue solution; in:nite num$er of solutions and no solution; "olution
techniues for systems of linear al.e$raic euations= Elimination; 'teration and
7radient "earch method; Elimination method= Forard elimination and $ac9ard
su$stitution; Assessment of num$er of com!utations; L< decom!osition
techniue; Tridia.onal matri al.orithm TD-A5= Thomas al.orithm; 'llustrative
eam!les; Corm of a vector; Corm of a matri; "ome im!ortant !ro!erties of
matrinorm; Error analysis of elimination methods; 'teration methods= Gaco$ismethod and 7auss "iedel method; 7eneralied analysis of the iterative methods;
"ucient condition for conver.ence; ,ate of conver.ence; "car$orou.h criteria
of sucient condition for conver.ence in 7auss "iedel -ethod; 'llustrative
eam!les of Gaco$is method and 7auss"iedel method; ,elaation methods;
referential characteristics of iterative methods; -ulti.rid method; Line $y
line TD-A; AD' Alternatin. direction im!licit5 method; 7radient search
methods= "tee!est descentmethod and #onu.ate .radient method
-odule10= Discretiation of #onvectionDi6usion Euations= A Finite Iolume
A!!roach=
Finite volume discretiation of convectiondi6usion !ro$lem= #entral di6erence
scheme;
scheme; 7eneralied convectiondi6usion formulation; Finite volume
discretiation of to dimensional convection di6usion !ro$lem; The conce!t of
false di6usion; N
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8/17/2019 Curriculum ME 2015-16_by_Prof. P.prabhakaran
17/23
NAVRACHANAUNIVERSITY
SCHOOL OF SCIENCE ANDENGINEERING
M.TECH (MECHANICAL-THERMALENGINEERING)
-odule11= Discretiation of Cavier "to9es Euations= Discretiation of the
-omentum Euation= "tream FunctionIorticity a!!roach and rimitive
varia$le a!!roach; "ta..ered .rid and #ollocated .rid; "'-LE Al.orithm;
"'-LE, Al.orithm
-odule12= hat is there in im!lementin. a
#FD codeP= The $asic structure of a #FD code= re!rocessor; "olver and
ost!rocessor; ); “Introduction to Computational Fluid Dynamics” ; #am$rid.e
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8/17/2019 Curriculum ME 2015-16_by_Prof. P.prabhakaran
18/23
NAVRACHANAUNIVERSITY
SCHOOL OF SCIENCE ANDENGINEERING
M.TECH (MECHANICAL-THERMALENGINEERING)
11)Anderson; G)D); “Modern Compressi+le Flow: -ith "istorical .erspecti/e”, -c7raHill; 2002)
#ourse #ode= -ET$$$ #ourse Title= E:2erien*al Techni9,e
C+,re S*r,c*,reLectures= 4 hours !er
>ee9
Tutorials=
ractical=
E4al,a*i+nS*r,c*,re
Theory = 4
credits
ractical =
T+*al Crei* 7
crei*
a.e =
?ear of 'ntroduction= 201(1*
"emester = F',"T
Level = -) Tech
In*r+,c*i+n'aic C+nce2*
'ntroduction; #ali$ration; "tandards; Dimensions and ire and HotFilm Anemometers; -a.netic
Flo meters; FloIisualiation -ethods; The 'nterferometer; The Laser
Do!!ler Anemometer LDA5; "mo9e -ethods; ressure ro$es; 'm!act
ressure in "u!ersonic Flo)re,re Mea,reen*
'ntroduction; Dynamic ,es!onse #onsiderations -echanical ressure
-easurement Devices; Dead>ei.ht Tester; ourdonTu$e ressure 7a.e;Dia!hra.m and ellos 7a.es; The rid.man 7a.e; Loressure
'ATCH "#$% - "#$&
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8/17/2019 Curriculum ME 2015-16_by_Prof. P.prabhakaran
19/23
NAVRACHANAUNIVERSITY
SCHOOL OF SCIENCE ANDENGINEERING
M.TECH (MECHANICAL-THERMALENGINEERING)
-easurement; The -cLeod 7a.e; irani Thermal#onductivity 7a.e; The
nudsen 7a.e; The 'oniation 7a.e)Mea,reen* +1 Te2era*,re
'ntroduction; Tem!erature "cales; The 'deal7as Thermometer; Tem!erature-easurement $y -echanical E6ects; Tem!erature -easurement $y Electrical
E6ects Tem!erature -easurement $y ,adiation; E6ect of Heat Transfer on
Tem!erature -easurement; Transient ,es!onse of Thermal "ystems;
Thermocou!le #om!ensation; Tem!erature -easurements in Hi.h"!eed Flo)Theral- an Tran2+r*-r+2er*3 Mea,reen*
'ntroduction; Thermal#onductivity -easurements; Thermal #onductivity of
Liuids and 7ases; -easurement of Iiscosity; 7as Di6usion; #alorimetry;
#onvection HeatTransfer -easurements; Humidity -easurements; HeatFlu-etersDei!n +1 E:2erien*
'ntroduction; Ty!es of E!eriments; E!eriment Desi.n Factors; E!eriment
Desi.n rotocol and Eam!les
#ourse #ode= -ET$$" #ourse Title= +>er lan* En!ineerin!
C+,re S*r,c*,reLectures= 4 hours !er
>ee9
Tutorials=
ractical=
E4al,a*i+nS*r,c*,re
Theory = 4
credits
ractical =
T+*al Crei* 7
crei*
a.e =
?ear of 'ntroduction= 201(1*
"emester = "econd
Level = -) Tech
STEAM OER LANT Layout of "team ; Hydel ; Diesel ; -HD; Cuclear and 7as tur$ine oer lants
#om$ined oer cycles com!arison and selection ; Load duration #urves
"team $oilers and cycles Hi.h !ressure and "u!er #ritical oilers Fluidised
ed oilers)
Layout of "team ; Hydel ; Diesel ; -HD; Cuclear and 7as tur$ine oer lants
#om$ined oer cycles com!arison and selection ; Load duration #urves
"team $oilers and cycles Hi.h !ressure and "u!er #ritical oilers Fluidised
ed oilers; Fuel and ash handlin.; #om$ustion Eui!ment for $urnin. coal;
-echanical "to9ers) ulveriser; Electrostatic reci!itator; Drau.ht Di6erent
'ATCH "#$% - "#$&
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8/17/2019 Curriculum ME 2015-16_by_Prof. P.prabhakaran
20/23
NAVRACHANAUNIVERSITY
SCHOOL OF SCIENCE ANDENGINEERING
M.TECH (MECHANICAL-THERMALENGINEERING)
Ty!es; "urface condenser ty!es; coolin. Toers
GAS TUR'INE OER LANTS
#lassi:cation and com!arison of di6erent ty!es of .as tur$ine !oer !lants;
thermodynamic cycles; analysis of closed cycle and o!en cycle .as tur$ine
!lants; methods of im!rovin. the thermal eciency and !oer out!ut of .as
tur$ine !lants ) ) Di6erent com!onents of .as tur$ine !lants and di6erent
arran.ements of .as tur$ine com!onents) Ty!es of com!ressors and tur$ines
used in .as tur$ine !lants; their o!erational characteristics and desi.n criteria) )
Ty!es of com$ustion cham$ers used; fuels and fuel handlin. eui!ments;
.overnin. of .as tur$ines) #om$ined steam and .as tur$ine !lants ) Advanta.es
of .as tur$ine !lants over other !oer !lants; maintenance of .as tur$ine
!lants ) ,ecent develo!ments of .as tur$ine !oer !lants)
DIESEL OER LANTS
'ntroduction; :eld of use; outline of Diesel !oer !lants) Thermodynamic cycle
and cycle analysis; !erformance and ratin. of diesel en.ines; methods of
im!rovin. the !erformance) 7eneral desi.n considerations of Diesel !oer
!lants ) Di6erent systems of diesel !oer !lants) arallel o!eration of Diesel!oer !lants ) #ommon faults and their recti:cation; maintenance of diesel
!lants ) ,ecent develo!ments in diesel !oer !lants)
Re1erence
1) oer lant En.ineerin. lac9 & Ieatch 2) "tandard Hand$oo9 of oer!lant En.ineerin. Thomas Elliott
3) #om$ined#ycle 7as & "team Tur$ine oer lants $y ,olf ehlhofer
4) oer lant En.ineerin. ,)),a!ut
%) Joer lant Technolo.yK ElIa9il; -c7ra Hill)
() oer lant En.ineerin. $y )) Ca.; Tata -c7ra Hill)
*) "team & 7as Tur$ines & oer lant En.ineerin. $y ,)?adav; #entral
u$)House)
'ATCH "#$% - "#$&
http://www.amazon.com/s/ref=dp_byline_sr_book_1?ie=UTF8&text=Black+%26+Veatch&search-alias=books&field-author=Black+%26+Veatch&sort=relevancerankhttp://www.amazon.com/Standard-Handbook-Powerplant-Engineering-Elliott/dp/0070194351/ref=pd_sim_14_1/185-1113635-9921605?ie=UTF8&dpID=510FR8yTkZL&dpSrc=sims&preST=_AC_UL160_SR100%2C160_&refRID=16W9CFDSF6Z2N58RX10Thttp://www.amazon.com/Rolf-Kehlhofer/e/B00J46DLX4/ref=dp_byline_cont_book_1http://www.amazon.com/Standard-Handbook-Powerplant-Engineering-Elliott/dp/0070194351/ref=pd_sim_14_1/185-1113635-9921605?ie=UTF8&dpID=510FR8yTkZL&dpSrc=sims&preST=_AC_UL160_SR100%2C160_&refRID=16W9CFDSF6Z2N58RX10Thttp://www.amazon.com/Rolf-Kehlhofer/e/B00J46DLX4/ref=dp_byline_cont_book_1http://www.amazon.com/s/ref=dp_byline_sr_book_1?ie=UTF8&text=Black+%26+Veatch&search-alias=books&field-author=Black+%26+Veatch&sort=relevancerank
-
8/17/2019 Curriculum ME 2015-16_by_Prof. P.prabhakaran
21/23
NAVRACHANAUNIVERSITY
SCHOOL OF SCIENCE ANDENGINEERING
M.TECH (MECHANICAL-THERMALENGINEERING)
Elec*i4e "
#ourse #ode= -ET$$0 #ourse Title= S+lar Theral S3*e (Elec*i4e -")
C+,re S*r,c*,reLectures= 4 hours !er
>ee9
Tutorials=
ractical=
E4al,a*i+nS*r,c*,re
Theory = 4
credits
ractical =
T+*al Crei* 7
crei*
a.e =
?ear of 'ntroduction= 201(1*
"emester = "econd
Level = -) Tech
S+lar ener!3 +2*i+n an overvie of thermal a!!lications ; devices for
thermal collection and stora.e; thermal a!!lications ater heatin.; s!ace
heatin.; s!ace coolin. and refri.eration; !oer .eneration; distillation; dryin.;
coo9in.etc)
S+lar raia*i+n Estraterrestrial and terrestrial solar radiation; solar radiation
data; solar radiation .eometry; Em!irical euations for the !rediction of the
availa$ility of solar radiation
Li9,i a* 2la*e c+llec*+r ,adiation transmission throu.h covers;
transmissivity $ased on re@ectionrefraction and $ased on a$sor!tion;
transmissivity a$sor!tivity !roduct; $asic ener.y euation of collector;
tem!erature distri$ution; collector eciency factor; heat removal factor; overall
eciency; collector !erformance collector testin. !rocedure; alternatives to
conventional collector)
S+lar air hea*er asic ener.y euation; !erformance analysis of
conventional air heater other ty!es; testin. !rocedure)
C+ncen*ra*in! c+llec*+r !rinci!les; thermodynamic limit of concentration;
theory of cylindrical !ara$olic collectors; collector eciency; heat removal
factor; !erformance ; com!ound !ara$olic collector)
S+lar 2h+*+4+l*aic 2+>er !enera*i+n 3*e !erformance
characteristics; currentvolta.e characteristics; maimum conversion eciency;
solar cell array)
S+lar 2+n- !erformance analysis; tem!erature distri$ution ; collection
eciency; o!eration !ro$lems of solar !ond)
'ATCH "#$% - "#$&
-
8/17/2019 Curriculum ME 2015-16_by_Prof. P.prabhakaran
22/23
NAVRACHANAUNIVERSITY
SCHOOL OF SCIENCE ANDENGINEERING
M.TECH (MECHANICAL-THERMALENGINEERING)
Re1erence '++iley & "ons; Ce ?or9; 1//14) reith; F and reider; G) F); JHand oo9 of "olar Ener.yK; -c 7ra Hill !u$);
Ce ?or9; 1/+0%) A) -ani;K"olar ,adiation Data for 'ndiaK; Allied u$lishers; Ce Delhi; 1/+1
#ourse #ode= -ET$$0
#ourse Title= Ener!3 A,i* an Mana!een* (Elec*i4e
-")
C+,re S*r,c*,reLectures= 4 hours !er
>ee9
Tutorials=
ractical=
E4al,a*i+nS*r,c*,re
Theory = 4
credits
ractical =
T+*al Crei* 7
crei*
a.e =
?ear of 'ntroduction= 201(1*
"emester = "econd
Level = -) Tech
General A2ec* 7eneral hiloso!hy and need of Ener.y Audit and
-ana.ement) De:nition and 8$ective of Ener.y -ana.ement; 7eneral rinci!les
of Ener.y -ana.ement; Ener.y -ana.ement "9ills; Ener.y -ana.ement
"trate.y) Ener.y Audit= Ceed; Ty!es; -ethodolo.y and A!!roach) Ener.y
-ana.ement A!!roach;
-
8/17/2019 Curriculum ME 2015-16_by_Prof. P.prabhakaran
23/23
NAVRACHANAUNIVERSITY
SCHOOL OF SCIENCE ANDENGINEERING
M.TECH (MECHANICAL-THERMALENGINEERING)
!lant ener.y study re!ort 'm!ortance; contents; e6ective or.aniation; re!ort
ritin. and !resentation
Ener!3 +lic3 lannin! an I2leen*a*i+n @e3 Eleen*= Force Field
Analysis; Ener.y olicyur!ose; ers!ective; #ontents and Formulation) Formatand ,ati:cation; 8r.aniin.= Location of Ener.y -ana.er; To! -ana.ement
"u!!ort; -ana.erial functions; ,ole and res!onsi$ilities of Ener.y -ana.er;
Accounta$ility) -otivatin. -otivation of em!loyees; ,euirements for Ener.y
Action lannin.) 'nformation "ystems= Desi.nin.; arriers; "trate.ies; -ar9etin.
and #ommunicatin. Trainin. and lannin.)
Ener!3 'alance & -'" First la of eciency and "econd la of eciency;
Facility as an Ener.y system; -ethods for !re!arin. !rocess @o; -aterials and
Ener.y alance dia.ram; 'denti:cation of losses; 'm!rovements) Ener.y alance
sheet and -ana.ement 'nformation "ystem -'"5 Ener.y -odelin. and8!timiation) Ener.y Audit 'nstruments 'nstruments for Audit and -onitorin.
Ener.y and Ener.y "avin.s; Ty!es and Accuracy
Re1erence '++),)-ur!hy; 7)-c9ay utterorths5)2) Ener.y -ana.ement rinci!les= #))"mith er.amon ress5)3) Ecient )#) Turner Gohn >iley and "ons; A >iley
'nterscience u$lication5() 'ndustrial Ener.y -ana.ement and itte; )") "chmidt;
D),) ron Hemis!here u$lication; >ashin.ton5*) 'ndustrial Ener.y #onservation -anuals; -'T ress; -ass; 1/+2 /) Ener.y
#onservation .uide $oo9 atric9Uatric9UFardo rentice Hall5