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PROJECT PROPOSAL
FOR CONSIDERATION UNDER
TECHNOLOGY SYSTEMS DEVELOPMENT(TSD) PROGRAMME
PROJECT TITLE
“ Design and Development of FACTS Controllersfor Real Time Applications in Power Systems”
SUBMITTED BY
Dr.P.V. A!AS"RA#$A%&A$(Name of Principal Investigator)
C#A'TA%&A #ARAT#' '%ST'T"T( )F T(C#%)!)*&
*A%D'P(T+ #&D(RAAD,-+ P'%/ 000-(Name and Address of the Organization)
10,02,3024(Date of Submission)
1
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FORMAT FOR SUBMISSION OF PROPOSALFOR SUPPORT
UNDERTECHNOLOGY SYSTEMS DEVELOPMENT
(TSD) PROGRAMME
CONTENTS
S.No ITEMS Page No(s)
2 Cover S5eet 1,63 Pro7ect S8mmary -,23
1 Core Proposal
4 io,Data of t5e Principal 'nvestigator9 Co,Principal 'nvestigator
8dget (stimates
6 "nderta:ing from t5e Principal'nvestigator
- (ndorsement from #ead )f t5e )rganisation
; (ndorsement from Colla
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1. COVER SHEET
1. Proe!" T#"$e%
“Design and Development of FACTS Controllersfor Real Time Applications in Power Systems”
&. Pr#'!#a$ I'es"#ga"or (PI)%
Na*e % Dr.P.V.A!AS"RA#$A%&A$
Des#g'a"#o' % PR)F(SS)R
A++ress % ((( D(PART$(%T+ C'T+ *A%D'P(T+ #&D(RAAD,-
Te$e,o'e No % =>2,0>4; 14 -3-6
E-*a#$ % Peri3
0. Co-Pr#'!#a$ I'es"#ga"or (Co-PI)
Na*e %
Des#g'a"#o' %
A++ress %
Te$e,o'e No %
E-*a#$ %
Da"e o /#r", %
. Na*es a'+ A++resses o Co$$a/ora"#'g Orga'#2a"#o's ----NA-----
3. Na*e a'+ A++ress o ar"#!#a"#'g I'+4s"r5 @if any) ----NA-----
For o#!e 4se
F#$e No%
Da"e o Re!e#"%
3
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6. D4ra"#o' o ",e Proe!" % 7 5ears
8. B4+ge" or ",e Proe!"
(Amount in a!hs of "upees)
S.No ITEM
DST S,are O",erAge'!#es9S,are
1st Year
2! Year
"r! Year
#t$ Year
T%ta&
1. Development of software for
optimal placement of damping
controllers
• Non recurring
• Recurring
2. Development of software for
coordination of controller
parameters.
• Non recurring
• Recurring
3. Design, development and
testing of PSS controllers
• Non recurring
• Recurring
4. Design, development and
testing of F!"S
supplementar# controllers
•
Non recurring
• Recurring
$. %or&s'op ( Seminar
T%ta&
4
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"* and P* st8dents can also learn from 5ands on eperience on t5e
models
;. De$#era/$es (In bullet form)
17. Na*es a'+ A++resses o #+e'"##e+ User Age'!#es
11. Na*es a'+ A++resses o #+e'"##e+ o",er Be'e#!#ar#es
1&. L#s" o E
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&. PRO>ECT SUMMARY
1. Project Title:
“Design and Development of FACTS Controllersfor Real Time Applications in Power Systems”
&. Pr#'!#a$ I'es"#ga"or% ( %ame+ Designation and Affiliation
Dr.P.V.A!AS"RA#$A%&A$PR)F(SS)R+ ((( D(PART$(%T
C#A'TA%&A #ARAT#' '%ST'T"T( )F T(C#%)!)*&
*A%D'P(T+ #&D(RAAD,-
0. Co$$a/ora"#'g Age'!#es?I'+4s"r#es %
. D4ra"#o' % 70 Years
3. To"a$ B4+ge" % &3 La@,s
3.1 DST S,are % &0 La@,s
3.& Co$$a/ora"ors9 S,are % 7& La@,s
6. Objectives (In bullet form):Development of generic software to coordinate vario8s types of damping
controllers. T5is can
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Design of Power System Sta
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7ncompletion of t'e pro+ect, nternational(National level conference will e organied for
dissemination of &nowledge.
;. Targe" Be'e#!#ar#es%
(d8cational instit8tions
'nd8stries
17. Br#e Te!,'#!a$ De"a#$s ($%% &ords) , g##'g >4s"##!a"#o's or",e Proe!" ",e 4'+er$5#'g S!#e'"##! Bas#s a'+ ",e Me",o+o$og5%
17.1 Ba!@gro4'+
Presentl#, utilities are operating t'e s#stem close to t'ermal limits, due to various practical constraints.%it' t'e advent of power electronics tec'nolog#, Fleile ! "ransmission S#stem 8F!"S9, utilities
are ale to control power flow, increase stailit# limits, improve securit# of transmission s#stems and
en'ance utiliation of t'e eisting power s#stem. "'e application of power electronics ased F!"S
devices gives promising solutions ecause of t'eir 'ig' speed and fleile controllailit#. etter
controls can increase t'e stailit# limit, and t'en t'e s#stem can e loaded at a 'ig'er level. "'is
provides etter utiliation of t'e transmission networ&. n recent #ears t'e impact of F!"S devices
on power transfer capailit# en'ancement and s#stem loss minimiation 'ave een a ma+or concern in
t'e competitive electric power s#stem.
Fleile ! "ransmission S#stems 8F!"S9 are popularl# eing used in power s#stem to improve t'e
power transfer capailit#, w'ile improving t'e s#stem stailit#. "'ese controllers are provided wit'supplementar# stailiing controls for t'e damping of s#stem oscillations. t is important to stud# t'e
control interaction of various controls w'ile designing t'e parameters. "'is is to avoid adverse
interaction etween t'e outputs of different controllers acting simultaneousl#. n most of t'e cases,
linear approac', eigen value anal#sis, is adopted in designing t'e control parameters, w'ic' is t'e
starting point in designing t'e controller parameters. "'ese parameters need to e c'ec&ed and fine
tuned t'roug' nonlinear simulation.
"'e application of F!"S devices in ndian power sector, 'as ta&en up an important role in improving
t'e stailit# and power transfer. "'e F!"S devices are at 8i9 S:! at ;anpur 8ii9 ;anpur :D! lin& 8ii9 "alc'er < ;olar >:D! lin&
and 8iii9 N?R < gra 6@@&: transmission s#stem.
8i9 !onsidering t'e amitious plans of power sector during 12t' plan, numers of F!"S devices are
eing increasingl# introduced in ndian power s#stem. Fleile ! "ransmission S#stem 8F!"S9
devices are considered as a new concept in tec'nolog# ased solution to t'e prolem of improving
t'e stailit# of t'e power s#stem and transfer of more active power. /ore popular F!"S devices
considered worldwide are- "!S!, S:!, "!PS, >:D!, D:R, S""!7/, APF!, SSS!, etc., to
improve power s#stem performance ot' in stead# state and d#namic state, # providing
B
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controllale real and reactive power. 7ptimal location of F!"S devices, design of main and
supplementar# controls to s'all pla# &e# role in power flow control.
8ii9 n power s#stem studies, mac'ines are modeled in different orders suc' as swing e5uation model,
t'ird order model and sevent' order model. "'ese models are to e used appropriatel# suitale to
t'e prolem under consideration. "'is is ver# important speciall# w'ile designing t'e controls suc'as Power s#stem stailier, used to damp t'e low fre5uenc# oscillations of t'e order of @.$ < 3.@
>. Cenerall#, t'e parameters of PSS are designed considering single mac'ine infinite us 8S/9
approac' and ??? t#pe PSS. "'is is termed as fied control. "'e gain and time constants
designed at a particular operating point. ut, t'e power s#stem is nonlinear, t'e operating point
&eeps c'anging. "'us, t'e parameters designed using fied control ma# not give satisfactor# results
at ot'er operating points. "'us, t'is necessitates a &ind of adaptive control 8also &nown as self
tuning control9.
"'erefore, t'ere is a need to utilie t'e nonlinear and roust control tec'ni5ues ased on advanced
control tec'ni5ues suc' as- daptive controls, Fu# 0ogic !ontrols etc. in designing t'e power
s#stem controllers and also investigate t'e interaction of different controllers on t'e s#stem.
17.& Des!r#"#o' o ",e roosa$
"oda#, wit' t'e development of modern power s#stem and increasing demand for power suppl#, t'e
electric power industr# is facing a great c'allenge in meeting t'e increased load demand wit' 'ig'est
reliailit# and securit# # minimum transmission ependiture. /ore transmission lines are needed.
>owever, due to t'e pressure of some practical factors suc' as environmental and cost considerations,
power engineers can onl# depend on increasing t'e transmission capacities of t'e present transmission
lines to meet t'e fast growt' of energ# demands. "'e F!"S devices 'ave 'elped in increasing t'e
transmission capacities of t'e transmission lines. "'erefore, t'e transmission lines are operating at 'ig'
transmission levels. Due to t'ese conditions, t'e stailit# margin of a power s#stem 'as decreased
significantl#. "'us new tec'ni5ues in power s#stem control w'ic' can improve t'e d#namic
performance and transient stailit# of power s#stems presents an even more formidale c'allenge. Fast
controllers are needed to improve t'e transient stailit# of power s#stems. No dout, ecitation
controllers are 'elpful in t'e en'ancement of stailit# of power s#stems ut t'e s#stem stailit# ma#
not e maintained w'en a large fault occurs close to t'e generator terminal.
t is important to consider t'e control interaction of various controllers in power s#stem, w'iledesigning t'e control parameters. "'us, t'ere is a need of optimal tuning and selection of t'eir
parameters and input signals, considering all of t'e controllers toget'er in t'e s#stem in a coordinated
manner.
n t'is pro+ect it is proposed to investigate t'e performance of controllers in realtime- Design and
coordination of power s#stem damping controllers 8including PSS, F!"S9 in real time environment
using /"0 and micro controllers
17.0 >4s"##!a"#o' o ",e roe!"
1@
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Designing of PSS parameters is ver# important and pla#s &e# role in maintaining stailit# of t'e
s#stem, w'ile damping power oscillations. n general, t'e PSS parameters are designed using linear
control approac', w'erein t'e power s#stem is linearied at an operating point and t'e parameters are
otained t'roug' eigenvalue approac'. Since, t'e power s#stem is nonlinear, and its operating point
&eeps c'anging, t'e control parameters designed at an operating point, ma# not give satisfactor#
performance at ot'er points. "'erefore, t'ere is a need to design t'e PSS parameters, and in general t'econtroller parameters using advanced control tec'ni5ues to ensure t'at t'e controllers will give
satisfactor# performance.
"'e main aim in introducing F!"S devices is to improve t'e small signal and transient stailit#
margins. "'ese devices can e used for controlling ot' static and d#namic stailit# limits. 7ptimal
location and siing of F!"S devices in large power s#stems pla# an important role, and t'is re5uires
supportive studies.
!ontrols for F!"S devices- /ore recentl#, several utilities 'ave uilt solidstate electronic power
flow and voltage control devices, generall# &nown as F!"S devices. "'e F!"S devices, suc' as
D:R, S:!,"!PS, "!R, "!S!, SSS!, S""!7/, APF! and PF! F!"S controllers, can e usedto en'ance t'e stailit# of power s#stem oscillations. From a smallsignal stailit# viewpoint, t'ese
devices are ver# effective for damping t'e relevant interarea modes. >owever, t'e cost of t'ese
devices re5uires t'at t'eir use is +ustified # somet'ing ot'er t'an added power s#stem damping. "'e
prolem is to find t'eir effectiveness in a particular case. ?igenvalue anal#sis can give a good
indication of t'e feasiilit# of t'eir use for damping control.
17. Me",o+o$og5
s more F!"S devices are installed in a power s#stem, t'eir control functions must e carefull#
anal#ed due to t'e potential interactions etween near# F!"S devices. Asing t'e multipleinput
signal controller structure, eac' F!"S controller can e assigned to damp t'e interarea modes t'at itcan affect t'e most, wit' minimal impact on t'e ot'er swing modes. 7rganiing suc' a decomposition
of control activities can lead to a 'ierarc'ical control sc'eme coordinating multiple F!"S devices to
improve s#stem securit#.
Damping control design using t'ese special devices is often est ac'ieved using more advanced
met'ods t'an are necessar# for power s#stem stailiers. Power s#stem stailiers if designed
correctl#, are generall# 5uite roust to c'anges in s#stem parameters and operating conditions. "'is is
not alwa#s true of damping controllers t'at use t'ese special devices. ;eeping t'is in view, t'ere is a
need to implement different control strategies for damping, t'us a roust controller design met'od,
suc' as >∞, Fu# logic, adaptive 8selftuning9 controls often re5uired. !ontrol design and tuning of parameters are re5uired to damp power oscillations.
"'e correct prediction of t'e stailit# of power s#stem oscillations is ver# sensitive to t'e models of
t'e generators and t'eir controls. ?citation s#stem models accurac# is crucial to otain a good small
signal stailit# indication.
n general, t'e controller parameters are designed using linear control approac', w'erein t'e power
s#stem is linearied at an operating point and t'e parameters are otained t'roug' eigenvalue anal#sis.
?igenvalue anal#sis gives t'e necessar# information to-
• Determine w'et'er a particular operating point is sufficientl# stale
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• Determine t'e cause of unstale oscillations
• Design controls to etend t'e range of oscillator# stailit#
Since, t'e power s#stem is nonlinear, and its operating point &eeps c'anging, t'e control parameters
designed at an operating point, ma# not give satisfactor# performance at ot'er points. For t'is purpose,
actual nonlinear s#stem must e considered, to stud# t'e performance at different operating points.
t is proposed to investigate t'e performance of t'ese controllers in realtime. "'e proposed met'odolog#
is t'at, t'e power s#stem is modeled in /"0 w'ic' residing in 'ig' speed computer. "'e control
tec'ni5ue is developed in microcontroller environment, w'ic' is interfaced wit' computer w'ere power
s#stem is modeled, t'us forming t'e closed loop. "'e s#stem must remain stale for different operating
conditions wit' t'e parameters otained for t'e controllers. "'e performance is to e studied in closed
loop, under different disturance conditions. "'e controllers must e roust so t'at its parameters need to
adapt itself wit' c'ange in operating conditions.
?igenvalue anal#sis gives t'e necessar# information to-
• Determine w'et'er a particular operating point is sufficientl# stale
• Determine t'e cause of unstale oscillations
• Design controls to etend t'e range of oscillator# stailit#
0arge power s#stems t#picall# e'iit multiple dominant interarea swing modes, w'ic' are associated
wit' t'e d#namics of power transfers and involve groups of mac'ines oscillating relative to eac' ot'er.
%it' t'e power industr# moving toward deregulation, long distance power transfers are steadil#
increasing, outpacing t'e addition of new transmission facilities and causing t'e interarea modes to
ecome more lig'tl# damped. ncidents of spontaneous lowfre5uenc# oscillations of mostl# un&nown
origins lasting for rief periods are now occurring in traditionall# welldamped power networ&s. s aresult, man# power networ& operators are ta&ing steps to add supplementar# damping devices to t'eir
s#stems to improve s#stem securit# reducing undesirale oscillations.
7ne of ma+or c'allenges is to maintain s#stem stailit# ot' angle stailit# and voltage stailit#. Some of
t'e means to improve t'e angle stailit# are t'e use of fast ecitation s#stem, Power S#stem Stailiers
8PSS9, fast protective devices etc. lmost all t'e ma+or generating plants 'ave een provided wit' PSS.
>owever, t'ese are not in operation due to improper tuning, w'ic' s'ould also adapt to t'e c'ange in
s#stem operating conditions. 0oad fre5uenc#(automatic generation control is anot'er aspect need to e
considered. "'is is important in maintaining t'e fre5uenc# of t'e s#stem. nsufficient reactive power
compensation 8fied as well as variale9 'as een t'e root cause of ma+or failures and lac&outs in t'es#stem. /ost of t'e studies carried out in past do not include proper model of s#stem components and t'us
lead to inaccurate conclusions. Proper load modeling is specificall# important in voltage stailit# studies.
Static contingencies can e ta&en care # planning ade5uate redundancies in a s#stem. "o meet t'e
c'allenges of d#namic conditions corresponding to c'ange in demand(suppl#, large disturance, e'avior
of performance is important. "o anal#e suc' s#stem eit'er reduced order e5uivalent s#stem ma# e
simulated or wit' t'e advent of power, total integrated s#stem ma# e simulated to lin& into various t#pes
of contingencies wit'er # stoc'astic or deterministic approac'.
0arge power s#stems e'iit a large range of d#namical c'aracteristics, ver# slow to ver# fast, and various
controllers 'ave een developed over time to control various p'enomena. /an# of t'e controls are onoff
switc'es 8circuit rea&ers9 t'at can isolate s'ortcircuited or malfunctioning e5uipment, or s'ed load or
generation. 7t'ers are discrete controllers li&e tapc'angers in transformers or switc'ing of
12
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capacitor(reactor an&s. Still ot'ers are continuous control li&e voltage controllers and power s#stem
stailiers in rotating generators or t'e newer power electronic controls in F!"S devices.
>owever, all t'e controls 8especiall# t'e fast ones9 are local controls, t'at is, t'e input and t'e control
variales are in t'e same locale 8sustation9. /ost d#namic p'enomena in t'e power s#stem, on t'e ot'er
'and, are regional or some times s#stemwide. "'us designers of power s#stem control 'ave een
constrained to 'andle s#stemwide stailit# prolems wit' local controllers.
Need is felt to identif# Power S#stem D#namic Performance studies, # adopting suitale controllers for
improving t'e s#stem performance, as a ma+or t'rust area covering following aspects-
• Design of Power S#stem Stailier parameters- Small signal and transient stailit# studies considering
appropriate mac'ine models and to stud# t'e effect of mac'ine modeling on PSS parameters.
• dentification of location and sie of F!" controller to improve stailit#
• !oordinated operation of controlled devices
• pplication of new control t'eor# suc' as nonlinear, adaptive and artificial intelligence 8fu# logic,artificial neural networ&s, epert s#stems, >∞ etc9 ased tec'ni5ues in t'e design of controllers.
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0. CORE PROPOSAL
1. T#"$e o ",e Proe!"
“Design and Development of FACTS Controllersfor Real Time Applications in Power Systems”
&. D4ra"#o' % 70 YEARS
&. Na*es o ar"#!#a"#'g Orga'#2a"#o's
C#A'T#A%&A #ARAT#' '%ST'T"T( )F T(C#%)!)*&
. O/e!"#es o ",e Proosa$ (precise and preferably quantified; use Bullet Form)
4.2 )verall Development )
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Advantages of implementing PSS and FACTS controllers are/
'ncreased transmission system relia
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tec'nological capailities for t'e same
an application of advanced science and tec'nolog# wit' a promise of giving
competitive solutions '
6. Cr#"#!a$ Re#e= o R DE S!e'ar#o @include references) #+e'"#5#'g Gas
6.2 %ational Stat8s Review
6.3 'nternational Stat8s Review
8. Or#g#' a'+ >4s"##!a"#o' o ",e Proosa$(Please 'ustify based on the identified ualifiers criteria)
:. S4**ar5 O4"$#'e o ",e Proe!"
@*ith Schematics+ &here possibleG define the Problem and give technical details)
;. Ee!"e+ O4"!o*e #' P,5s#!a$ Ter*s
i %ew9 "pgraded Prod8ctii %ew9 "pscaled Processiii %ew9 "pgraded Systemiv Services @incl8ding Softwarev Feasi
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n general, t'e controller parameters are designed using linear control approac', w'erein t'e power s#stem is
linearied at an operating point and t'e parameters are otained t'roug' eigenvalue anal#sis.
?igenvalue anal#sis gives t'e necessar# information to-
• Determine w'et'er a particular operating point is sufficientl# stale
• Determine t'e cause of unstale oscillations
• Design controls to etend t'e range of oscillator# stailit#
Since, t'e power s#stem is nonlinear, and its operating point &eeps c'anging, t'e control parameters designed
at an operating point, ma# not give satisfactor# performance at ot'er points. For t'is purpose, actual non
linear s#stem must e considered, to stud# t'e performance at different operating points.
t is proposed to investigate t'e performance of t'ese controllers in realtime. "'e proposed met'odolog# is
t'at, t'e power s#stem is modeled in /"0 w'ic' residing in 'ig' speed computer. "'e control tec'ni5ueis developed in microcontroller environment, w'ic' is interfaced wit' computer w'ere power s#stem is
modeled, t'us forming t'e closed loop. "'e s#stem must remain stale for different operating conditions wit'
t'e parameters otained for t'e controllers. "'e performance is to e studied in closed loop, under different
disturance conditions. "'e controllers must e roust so t'at its parameters need to adapt itself wit' c'ange
in operating conditions.
10. M#$es"o'es =#", Da"es or@ E$e*e'"s or ea!, a'+ ",e Orga'#sa"#o'reso's#/$e or ea!, or@ E$e*e'"
S.
%o.
$ilestone Target
Date
Bor: (lements Responsi
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18. A'5 o",er I'or*a"#o' re$ea'" "o ",e Proe!" Proosa$ a'+ #"sEe!4"#o'
. BIO-DATA OF THE PRINCIPAL INVESTIGATOR?
C7- PRINCIPAL INVESTIGATOR
1. Na*e% Dr.P.V.A!AS"RA#$A%&A$
2. Ge'+er% Ma$e Fe*a$e
. Da"e o B#r", % 0-91292>3
!. Des#g'a"#o' A#$#a"#o' %PR)F(SS)R+C'T
". Pos"a$ A++ress % ((( Department+C'T+*A%D'P(T #&D(RAAD,-
#. P,o'e N4*/ers % =>2,0>4; 14 -3-6
$. E-*a#$ ID % Peri
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20.2 Ho8rnal P8
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3. BUDGET ESTIMATES
1. Brea@-4 o ",e To"a$ B4+ge"
(Amount in "upees in a!hs)
S.%o 'tem 2st &ear 3nd &ear 1rd &ear TotalDST Colla
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&. I"e*#se+ B4+ge"(Please provide 'ustification)
&.1. Ma'o=er
B4+ge" or Sa$ar#es (DST Co*o'e'"
Designation J8alification Salary per
mont5
%8m
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&.&. Co's4*a/$es
B4+ge" or Co's4*a/$e Ma"er#a$s (DST Co*o'e'")
(Amount in "upees in a!hs)2st &ear 3nd &ear 1rd &ear Total H8stification incl8ding t5e
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&.0. Co'"#'ge'!#es
B4+ge" or Co'"#'ge'!#es (DST Co*o'e'")
(Amount in "upees in a!hs)2st &ear 3nd &ear 1rd &ear Total H8stification incl8ding t5e
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&.. O",er Cos"s (O4"so4r!#'g Fa/r#!a"#o' Tes"#'g a'+ Pa"e'"#'g e"!.)
B4+ge" or O",er Cos"s (DST Co*o'e'") (Amount in "upees in a!hs)
'tem 2st &ear 3nd &ear 1rd &ear Total H8stification incl8ding t5e
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&.3. Do*es"#! Trae$
B4+ge" or Do*es"#! Trae$ (DST Co*o'e'") (Amount in "upees in a!hs)
2st &ear 3nd &ear 1rd &ear Total H8stificationGindicating 7o8rneys+mode and class of
transport
@I %o foreign travel is permitted 8nder DST grants. Class and mode of transportation s5o8ld
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&.6. E
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6. UNDERTAING FROM THE PRINCIPALINVESTIGATOR
Proe!" T#"$e%
“Design and Development of FACTS Controllersfor Real Time Applications in Power Systems”
1. ' 5ave caref8lly read t5e terms and conditions of t5e Tec5nology SystemsDevelopment Programme and ' agree to a
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8. ENDORSEMENT FROMHEAD OF ORGANISATION
(On the official letter-head)
Proe!" T#"$e%
“Design and Development of FACTS Controllersfor Real Time Applications in Power Systems”
2. Affirmed t5at t5e )rganisation welcomes t5e participation of Dr.P.V.BALASUBRAHMANYAM as t5e PI andDr?Mr?Msas t5e Co-PI for t5e Pro7ect and t5at int5e 8nforeseen and legitimate event of discontin8ation
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:. E'+orse*e'" ro* !o$$a/ora"#'gI'+4s"r5? Age'!5
(On the official letter- head)
' 5ave gone t5ro8g5 t5e Pro7ect Proposal entitled “Design and Development of FACTS Controllers for Real Time Applications in Power Systems” S8
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TECHNOLOGY SYSTEMS DEVELOPMENT (TSD ) PROGRAMME
GUIDELINES FOR SUBMISSION OF PROPOSALS
"'ese guidelines provide assistance for t'e preparation and sumission of Pro+ect Proposals
for support under t'e "ec'nolog# S#stems Development 8"SD9 Programme of t'e Department of Science and "ec'nolog# 8DS"9.
I Itr%!t*%
"ec'nolog# S#stems Development 8"SD9 Programme supports activities aimed at
developing and integrating tec'nologies to evolve tec'nolog# s#stems ot' in t'e
advanced(emerging areas and in traditional sectors(areas. Ander t'e Programme, feasiilit# of fres'
ideas( concepts is assessed for t'eir potential conversion into useful tec'nolog#(product.
pplications of RD for socioeconomic enefits is consciousl# promoted under t'is programme.
II O+,et*-es "'e primar# o+ective of t'e Programme is to facilitate and support development of
products or tec'ni5ues(tec'nolog# aimed at specific end use. "'e Programme stresses on clearl#
identif#ing t'e needs for development of t'e tec'nolog# so t'at t'e developmental effort could e
useful to t'e target eneficiar#. t envisages active user involvement and association in t'e
development effort. "'e intention is t'at t'e products(tec'nologies developed under t'e
Programme ecome useful for t'e enefit of t'e people at large. "'e specific o+ectives of t'e
Programme are to
• develop and integrate tec'nologies following a 'olistic approac' in identified areasE
• promote application of modern(advanced tec'nologies to socioeconomic prolem solvingE
• promote moderniation of traditional tec'nologies, tools and s&illsE
• facilitate en'ancing 5ualit# and performance of t'e traditional(nontraditional itemsE
• encourage developments in application of RD activitiesE and
• promote activities aimed at improving tec'nolog#, tec'ni5ue, material, met'ods and ot'er
appropriate activities conducive for development of tec'nolog# status in identified areas.
III Te$%&%./ 0a&**ers Cr*ter*a
"'e Proposal to 5ualif# consideration under t'e "SD Programme s'ould meet one or more
of t'e following criteria. "'e tec'nolog# s'ould e
• ased on estalis'ed RD outcome( results• conforming to national( international specifications
• potentiall# useful, demand driven and re5uired # ot'er agencies and users
• a development of tec'nolog# for multiple applications
• an adaptation of eisting tec'nolog# for its applications ot'er t'an originall# intended
• meeting a critical national need 8 present( future 9 and strengt'ening tec'nological
capailities for t'e same
• an application of advanced science and tec'nolog# wit' a promise of giving competitive
solutions
IV S3etr4 % At*-*t*es 0a&**e! %r S33%rt
3@
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Ander t'e Programme, primaril# t'ose Pro+ects( ctivities are supported for w'ic' proof of conceptG 'as alread# een estalis'ed. "'e Proposals aimed at applied RD are encouraged.
Proposals involving asic( eplorator# researc' are not considered under t'is Programme.
Specificall#, following activities are supported under t'e Programme-
• pplied Researc' and nal#sis
• Development and ?ngineering 8D?9• pplication oriented Researc', Design and Development 8RDD9 'aving Production
Potential
• Protot#pe Development of Product( S#stem( Services( Software Development 8new,
upgradation of t'e eisting, field trials and demonstration9
• Process Development 8new, upscaling of t'e eisting, field trials and demonstration9
• Data Ceneration and Feasiilit# Stud#
• Provision for Production Facilit# on a limited scale for a specific "ec'nolog# Segment to
enale t'e "ec'nolog# to ecome competitive
• Sop'isticated ?5uipment and "ec'nolog# ased HoS'ops for costeffective Farication
"ec'ni5ues• Scientific ;nowledge leading to future "ec'nolog# Development
• "ec'nological !apailit# Development
V 5$% a S+4*t 6
• Pro+ect Proposals can e sumitted for financial support #
scientists(engineers(tec'nologists wor&ing in academic institutions(registered
societies(RD institutions(laoratories 'aving ade5uate infrastructure(facilities to carr# out
tec'nolog# development wor&. "'e Programme encourages multidisciplinar# Proposals
envisaging networ&(collaoration of various 7rganisations 'aving diverse epertise and
facilities for s#nergistic implementation of t'e Pro+ects. Participation of industr# isimportant.
• Pro+ect Proposals are also welcome from ndustr# 'aving DSR recognied RD
0aoratories eit'er alone or in collaoration wit' academic(RD nstitutions.
VI N*$e Areas
Some of t'e t#pical areas in w'ic' Proposals can e sumitted are listed elow-
• Class and !eramics "ec'nolog# Apgradation.
• /olecular ?lectronics(!onducting Pol#mer and iosensors.
• %ater Purification and Rural /icro%ater /anagement
• %aste Atiliation and /anagement
• Pulic >ealt' and Safet#
• Surface ?ngineering "ec'ni5ues for Re+uvenation of "raditional !rafts.
• 0aser( Plasmas( /icrowave "ec'nolog#
• Decentralied ?nerg# Ceneration and >arvesting
• lternate Fuels, Fuel !onservation, ?fficient Atiliation of Fuels
• !" driven "ec'nologies
• nnovative !ivil nfrastructure "ec'nologies
• Platform "ec'nologies for a Range of pplications
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"'e aove list is not e'austive and Proposals in ot'er areas are e5uall# welcome if t'e
activit# is perceived to e useful # DS" for tec'nolog# advancement in t'e countr# and is not
eing ta&en up under an# ot'er ma+or RD programme of t'e Covernment of ndia.
VII F%r4s % DST Grats
F%r Ist*tt*%s- Pro+ect staff salaries, e5uipment, supplies and consumales, contingenc#ependiture, patent filing c'arges, outsourcing c'arges, internal travel, farication costs, testingc'arges, over'eads, etc.
F%r I!str/7 7nl# cost of consumales upto $@I.
F%r Ist*tt*%8I!str/ J%*t Pr%.ra44es7 Support to t'e ndustr# upto $@I of t'e cost of consumales.
"'e PR will e under t'e purview of DS", nstitution and ndustr#. f, 'owever, t'e
ndustr# returns t'e amount received as grant from DS", t'e PR, at t'e discretion of DS", s'all e
appropriatel# assigned to t'e nstitution and t'e ndustr#.
VIII Me$a*s4 % E-a&at*%9 I43&e4etat*% a! M%*t%r*.
"'e "ec'nolog# JualifiersK !riteria and t'e Nic'e reas re5uiring intervention are
identified # DS" in consultation wit' Programme dvisor# !ommittee 8P!9. "'e !oordinators
identified # P! are activel# involved in moiliing t'e Pro+ects # identif#ing t'e re5uired
capailities and pooling t'e epertise of individuals and infrastructure of 7rganisations. "'e
Pro+ect Proposals are also received directl#, w'ic' are screened wit' a view to assess t'eir
suitailit# for consideration under t'e Programme mandate. fter initial scrutin#, ot' directl#
received as well as moilied Proposals are peer reviewed # eperts and t'e nvestigators are
advised to revise t'e Proposal, if needed. "'e Proposals along wit' t'e ReviewersK !omments are
placed efore t'e ?pert dvisor# !ommittees 8?!9 of t'e respective areas for t'eir
recommendation. Principal nvestigators are called for presentation efore ?!, if re5uired. "'e
recommended Proposals are processed for financial concurrence and administrative approval as per DS" procedure.
"'e Pro+ects are periodicall# monitored usuall# at site # t'e Pro+ect Review !ommittees
8PR!9 and( or Croup /onitoring !ommittees 8at a common location at various stages of t'e
progress of Pro+ects9. !lose association etween P and PR! is ensured to ac'ieve t'e Pro+ect
7+ectives. P is advised to ta&e necessar# action on t'e recommendations of t'e Reviewers.
Pro+ect !ompletion Reports 8P!R9 are sent to eperts for comments. presentation is also
re5uired to e made # P on completion of t'e Pro+ect for final assessment and identification of
t'e future course of action on t'e Pro+ect.
I: S+4*ss*% % Pr%3%sa&s
8i9 "'e Pro+ect Proposals for consideration under t'e Programme can e sumitted an#time
t'roug'out t'e #ear.
8ii9 "'e nvestigators are re5uired to sumit 1$ copies of t'e complete Proposal printed on ot'
sides of 4 sie paper, wit' an electronic cop# of t'e Proposal on a !D in /S %ord.
8iii9 "'e Proposal s'ould e prepared and sumitted strictl# according to t'e formats prescried
in t'is Document.
8iv9 "'e duration of t'e Pro+ect s'ould preferal# e for a maimum period of 3 #ears. Pro+ects
for development of integrated s#stems re5uiring development of various suassemlies at
multiple 7rganisations ma# e of longer duration. "'e# s'ould, 'owever, e ro&en up in
different p'ases in suc' a wa# t'at t'ere are clearl# defined deliverales at t'e end of eac'
p'ase 8of not greater t'an t'ree #ears9
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8v9 !opies of t'e Proposal and ot'er re5uired documents must e sent in one lot t'roug' proper
c'annel to S'ri Ra+eev S'arma, Scientist! and /emer Secretar# 8"ec'nolog# S#stems
Development Programme9, Department of Science "ec'nolog#, "ec'nolog# 'avan,
New /e'rauli Road, New Del'i11@@1).
8vi9 DS" ma# e contacted if t'e ac&nowledgement letter intimating t'e registration numer of
t'e Pro+ect is not received wit'in one mont' from t'e date of dispatc' of t'e Proposal.
8vii9 t ma# e ensured t'at t'e registration numer( letter numer 8given # DS"9 and title of
t'e Proposal are 5uoted in all suse5uent communications.
8viii9 t is epected t'at P will remain in t'e service of t'e 7rganisation t'roug'out t'e duration
of t'e Pro+ect.
: Geera& Re;*re4ets
8i9 "'e coordinating 7rganisation implementing t'e Pro+ect is re5uired to ta&e all t'e financial
and administrative responsiilities for t'e Pro+ect.
8ii9 n case of a multiorganisational Pro+ect, P 'as to otain formal consent from t'e
collaorating organisations(scientists. Formal /oA( greement ma# e wor&ed out
detailing t'e oligations and arrangements stated in t'e Proposal and got approved # DS"suse5uent to t'e sanctioning of t'e Pro+ect, efore t'e funds are released # DS".
8iii9 nternational travel is not normall# permissile under t'e Pro+ect.
8iv9 "'e Pro+ect personnel recruited for t'e Pro+ect are temporar# and t'e# s'ould e paid
according to DS" norms.
8v9 t is t'e polic# of DS" t'at t'e e5uipment procured under t'e Pro+ect e optimall# utilied.
"'e Principal nvestigator s'all permit t'e use of an# spare or idle capacit# of t'e
e5uipment to legitimate users from t'e parent and ot'er 7rganisations.
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De3art4et % S*ee < Te$%&%./Te$%&%./ S/ste4s De-e&%34et (TSD) Pr%.ra44e
Ter4s < C%!*t*%s % t$e Grat
1. pproval of t'e Researc' Proposal and t'e grant released for it is for t'e specific Pro+ect
sanctioned and t'e released grant s'ould e eclusivel# spent on t'e Pro+ect wit'in t'e stipulated period. "'e nstitution ma# use funds otained from an# ot'er 7rganisation wit' t'e concurrence
of DS", for t'e Pro+ect. A/ =s3et +a&ae %t % t$e a4%t sat*%e! 4st +esrre!ere! t% t$e G%-er4et % I!*a t$r%.$ a r%sse! C$e;e8 De4a! Drat !ra> *a-%r % Dra>*. < D*s+rs*. O*er9 DST?
2. For permanent, semipermanent ssets ac5uired solel# or mainl# out of t'e Pro+ect grant,
an audited record in t'e form of a register s'all e maintained # t'e 7rganisation. "'e term
ssetsG include 8a9 t'e immovale propert# ac5uired out of t'e grantE and 89 movale propert# of
capital nature w'ere t'e value eceeds Rs 1@@@(. "'e 7rganisation is re5uired to send to t'e
Department of Science "ec'nolog# a list of ssets ac5uired from t'e grant. "'e grant s'all not
e utilied for construction of an# uilding unless a specific provision is made for t'at purpose.
Full infrastructural facilities # wa# of accommodation, water, electricit#, communication, etc. for
smoot' implementation of t'e Pro+ect s'all e provided # t'e 7rganisation.
3. ll t'e ssets ac5uired from t'e grant will e t'e propert# of t'e Covernment of ndia and
s'ould not e disposed off or encumered or utilied for purposes ot'er t'an t'ose for w'ic' t'e
grant 'ad een sanctioned, wit'out t'e prior sanction of DS".
4. t t'e conclusion( termination of t'e Pro+ect, t'e Covernment of ndia will e free to sell or
ot'erwise dispose off t'e ssets w'ic' are t'e propert# of t'e Covernment. "'e 7rganisation s'all
render to t'e Covernment necessar# facilities for arranging t'e sale of t'ese ssets. "'e
Covernment of ndia 'as t'e discretion to gift t'e ssets to t'e 7rganisation or transfer t'em to
an# ot'er 7rganisation if it is considered appropriate.
$. "'e 7rganisation ( P will furnis' Si/ont'l# Progress Report 8$ copies9 of t'e wor& on
t'e Pro+ect on 'alf#earl# asis. "'e first 'alf#ear period s'all e rounded off to t'e last date of
t'e sit' mont'. "'e suse5uent periods of si mont's s'all egin from t'e first da# of t'e
following calendar mont'. n addition, DS" ma# designate a Scientist( Specialist or an ?pert
Panel to visit t'e 7rganisation periodicall# to review t'e progress of t'e wor& eing carried out and
to suggest suitale measures to ensure realisation of t'e o+ectives of t'e Pro+ect. During t'eimplementation of t'e Pro+ect, t'e 7rganisation will provide all facilities to t'e visiting scientist(
specialist or t'e ?pert Panel # wa# of accommodation, etc. at t'e time of t'eir visit. 7n
completion of t'e Pro+ect, ten copies of a self contained Pro+ect !ompletion Report as per t'e DS"
format on t'e wor& done on t'e Pro+ect s'ould e sent to DS".
). t t'e time of see&ing furt'er instalment of t'e grant, t'e 7rganisation ( P 'as to furnis'
t'e following documents-
a) Atilisation !ertificate (UC) and Statement of ?penditure (SE) for t'e previous financial #ear 8in original or cop# if sent earlier9E
b) n aut'enticated Statement of ?penditure (SE) including committed ?penditure for t'e
Pro+ect until t'e previous mont'.
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*. Re5uest for specific approval of DS" to arr/ %r>ar! t'e unutilised grant to t'e netfinancial #ear for utilisation for t'e same Pro+ect, s'ould e sent along wit' A! and S?, after
completion of t'e financial #ear.
6. T$e C%43tr%&&er < A!*t%r Geera& % I!*a9 at $*s !*sret*%9 s$a&& $a-e t$e r*.$t % aess t% t$e +%%@s a! a%ts % t$e Or.a*sat*% 4a*ta*e! * res3et % t$e .rat
ree*-e! r%4 t$e G%-er4et % I!*a?B. "'e 7rganisation will maintain separate audited accounts for t'e Pro+ect. f it is found
epedient to &eep a part or w'ole of t'e grant in a an& account earning interest, t'e interest t'us
earned s'ould e reported to DS" and s'ould e reflected in t'e Statement of ?penditure. "'e
interest t'us earned will e treated as a credit to t'e 7rganisation to e ad+usted towards furt'er
instalment of t'e grant.
1@. "'e 7rganisation will not entrust t'e implementation of t'e wor& 8ecept t'e outsourced
part as approved9 for w'ic' t'e grant 'as een sanctioned to an# ot'er 7rganisation nor will it
divert t'e grant receipts to an# ot'er 7rganisation as assistance. n case t'e 7rganisation is not in a
position to implement or complete t'e Pro+ect, it s'ould, fort'wit', refund to DS" t'e entire grant
received # it or t'e alance grant remaining wit' it.
11. ll t'e personnel including Researc' personnel appointed under t'e Pro+ect, for t'e full(
part duration of t'e Pro+ect, are to e treated as temporar# emplo#ees and will e governed # t'e
administrative rules( service conditions 8for leave, "(D, etc.9 of t'e implementing 7rganisation.
"'e# are not to e treated as emplo#ees of t'e Covernment of ndia and DS" will 'ave no liailit#,
w'atsoever, for t'e pro+ect staff after t'e completion of t'e Pro+ect duration.
12. For epeditious implementation of t'e researc' Pro+ect, P will ta&e t'e assistance of t'e
7rganisation in t'e process of selection and appointment of staff and pa#ment to t'em. Pa# Scale
and emoluments for t'e posts not covered under DS"Ks 7/ are governed # t'e norms prevalent in
t'e implementing 7rganisation or as agreed upon in consultation wit' DS".
13. DST reser-es t$e r*.$t t% ter4*ate t$e Pr%,et at a/ sta.e * *t *s %-*e! t$at t$e.rat $as %t +ee 3r%3er&/ t*&*se! %r sat*sat%r/ 3r%.ress *s %t +e*. 4a!e?
14. T$e Pr%,et +e%4es %3erat*-e >*t$ eet r%4 t$e !ate % >$*$ t$e Drat8 C$e;e*s ree*-e! +/ t$e *43&e4et*. Or.a*sat*%? "'is date s'ould e immediatel# intimated # t'e7rganisation aut'orities( Principal nvestigator to DS".
1$. f P to w'om a grant for a Pro+ect 'as een sanctioned wis'es to leave t'e 7rganisation
w'ere t'e Pro+ect is ased, P( 7rganisation will inform DS" of t'e same and in consultation wit'
DS", ta&e steps to ensure successful completion of t'e Pro+ect, efore P is relieved.
1). nvestigators wis'ing to pulis' tec'nical( scientific papers ased on t'e researc' wor&
done under t'e Pro+ect s'ould ac&nowledge t'e support received from DS", indicating t'eProgramme. nvestigators are epected to pulis' a few of t'eir researc' papers emerging out of
t'e Pro+ect in leading ndian Hournals.
1*. f t'e results of researc' are to e legall# protected, t'e results s'ould not e pulis'ed
wit'out securing legal protection for t'e researc' results. For Pro+ects identified to 'ave a distinct
potential for generating &now'ow, in t'e form of product( process, t'at could e protected t'roug'
patenting, cop#rig'ts etc., P s'ould carefull# follow t'e G*!e&*es8 Istrt*%s %rTe$%&%./ Traser a! Ite&&eta& Pr%3ert/ R*.$ts provided in t'e G*!e&*es %rI43&e4et*. Resear$ Pr%,ets oo&let issued # DS". For furt'er information( clarification ont'is su+ect, dvisorPatent Facilitating !ell, Department of Science "ec'nolog#, "ec'nolog#
'avan, New /e'rauli Road, New Del'i 11@ @1), 8P'one @11 2)6$B$61, ?mail-rag'avLnic.in9 ma# e contacted.
3$
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REFEREE9S REPORT
Please tic: in t5e
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1. S4#"a/#$#"5 4'+er Te!,'o$og5 4a$##ers9 Cr#"er#a (Tick one or more)
The Technolo() is
ased on estalis'ed RD outcome( results.
!onforming to national ( international specifications Potentiall# useful, demand driven and re5uired # ot'er agencies and users 8name t'em9
development of tec'nolog# for multiple applications
n adaptation of eisting tec'nolog# for its applications ot'er t'an originall# intended
/eeting a critical national need 8 present( future 9 and(or strengt'ening tec'nological capailities for t'e same
n application of advanced science and tec'nolog# wit' a promise of giving competitive solutions
Please tic: one /
S8ita
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'mpractical
. O#'#o' o' Proose+ B4+ge" a'+ Ma'o=er %
4.2 H8stification for (8ipment in relation to t5e Pro7ect )
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;. Ra"#'g o ",e Proe!" (Please tic! one)
E!e$$e'"%
Ver5 Goo+%
Goo+%
Fa#r%
Poor%
17. Re!o**e'+a"#o's(Please tic! one)
Re!o**e'+e+
Nee+s Re#s#o'(1ive Suggestions)
No" Re!o**e'+e+(1ive 2ritical 3ie&)
3B
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Signat8re%ameAddressP5one@s
Fa(mail
Date/
4or official .se Only
Date on w5ic5 t5e Proposal was sent to t5e Referee/
Date on w5ic5 t5e Referees Report was received/
Te!,'o$og5 S5s"e*s Dee$o*e'" Progra**eS# Mo'",$5 Proe!" Progress Reor"
(4ive 2opies to be Submitted)
1. DST F#$e No
&. Proe!" T#"$e
0. Da"e o Co**e'!e*e'"
. Aroe+ Da"e o Co*$e"#o'
3. Pr#'!#a$ I'es"#ga"or
6. Progress Reor" Ser#a$ No
8. Reor"#'g Per#o+
:. L#s" o A!"##"#es as er ",e aroe+ Proe!" #'+#!a"#'g",e Orga'#sa"#o' reso's#/$e or ea!, I"e*.
;. L#s" o M#$es"o'es as er ",e Aroe+ Proe!" #'+#!a"#'g ",eOrga'#sa"#o' reso's#/$e or ea!, I"e*.
17. A!!o*$#s,*e'"s #' Ter*s o A!"##"#es or ",e Re#e=Per#o+
4@
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A!"##"5 Progress Reso's#/$eOrga'#sa"#o'
11. A!!o*$#s,*e'"s #' Ter*s o M#$es"o'es or ",e Re#e= Per#o+
M#$es"o'e Progress Reso's#/$eOrga'#sa"#o'
1&. A /r#e Des!r#"#o' o Te!,'#!a$?S!#e'"##! A!,#ee*e'"s or",e Per#o+ (1ive 5%% &ord Summary in bullet form)
10. S,or"a$$s #' A!,#ee*e'"s o A!"##"#es or ",e Re#e= Per#o+
A!"##"5 S,or"a$$ (if any) #' se!##!Ter*s
Reso's#/$eOrga'#sa"#o'
1.>o4r'a$ P4/$#!a"#o's +4r#'g ",e Re#e= Per#o+
T#"$e o ",e Paer >o4r'a$ Iss4e e"!. A4",ors
13. Prese'"a"#o's #' S5*os#a?Co'ere'!es +4r#'g ",e Re#e= Per#o+
T#"$e o ",e PaerPrese'"e+
S5*os#4*?Co'ere'!e
Da"es o ",eS5*?Co'.
A4",ors
41
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16. Pa"e'"s #$e+ +4r#'g ",e Re#e= Per#o+
26.2 Title26.3 'nventors26.1 Date of filing
26.4 Date of grant of patent
18. O",er A!,#ee*e'"s +4r#'g ",e Per#o+
(Ne& 4acilities created+ 6"D+ 7echnology Demonstration+ Social8enefits+ Notable Services rendered)
1:. A'5 o",er Co**e'" o S#g'##!a'!e
1;. F#'a'!#a$ S"a"4s o' ",e Da5 o Reor"#'g
2>.2 Amo8nt Sanctioned/2>.3 Amo8nt Received/2>.1 alance Amo8nt/2>.4 $anpower Sanctioned/2>. $anpower in Position/
&7. A!"#o' "a@e' o' ",e O/sera"#o's o ",e Proe!" Re#e=Co**#""ee #' #"s re!e+#'g Mee"#'g
O/sera"#o's A!"#o' Ta@e'
&1. S"a"4s o S,or"a$$s as #'+#!a"e+ #' a$$ ",e re#o4s Re#e=s%
S#g'a"4re o PI
Na*e o PI
P$a!e%
42
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Da"e %
(S9No of "evie&:::::)
PRO>ECT REVIE COMMITTEE REPORT
PRO>ECT PROGRESS REVIE
1. DST F#$e No % Per#o+ 4'+er Re#e=%
&. Proe!" T#"$e % Da"e o Re#e=%
0. Pr#'!#a$ I'es"#ga"or%
. D4ra"#o' o ",e Proe!"%
3. Progress o Aroe+ A!"##"#es or ",e Re#e= Per#o+
Sa"#sa!"or5
No" Sa"#sa!"or5(Please comment)
6. Progress =#", Reere'!e "o Aroe+ M#$es"o'es or ",e Re#e=Per#o+
Sa"#sa!"or5
No" Sa"#sa!"or5(Please comment)
8. Me",o+o$og5 A+o"e+
Sa"#sa!"or5
43
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Nee+s Re#s#o'@Please ma!e suggestions)
:. Co**e'"s o' ",e A!,#ee*e'"s o ",e Tea*
;.2 Tec5nical and Scientific Ac5ievements;.3 P8
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REUEST FOR ETENSION
(17 Co#es "o /e Se'" S# Mo'",s Pr#or "o ",e Da"e o E#r5 o",e Proe!")
1 DST Reere'!e No %
& Na*e o ",e I'es"#ga"or %
0 T#"$e o ",e Proe!"
Aroe+ +4ra"#o' o ",e Proe!" ro* ----------"o---------------
3 Re
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PRO>ECT COMPLETION REPORT
TECHNOLOGY SYSTEMS DEVELOPMENT(TSD) PROGRAMME OF DST
PROJECT TITLE
SUBMITTED BY
(ame o! Principal "nvestigator)
MMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMMM (ame and #ddress o! the Organisation)
MMMMMMMMMMMMM ($ate o! %ubmission
DS" Reference No-
Pro+ect Duration- From..to..............
PROJECT COMPLETION REPORT
4)
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"en ound 'ard copies of t'e Pro+ect !ompletion Report and a soft cop# on !D s'ould e
sumitted. "'e Report s'ould consist of Part Summar# Report and Part !ompre'ensive
Report. "'e !over Page of t'e report s'ould e on t'e Standard Format provided.
1? DST F*&e N%7
2? Pr%,et T*t&e7
"? Drat*% % Pr%,et7 Fr%4 T%
#? Pr**3a& I-est*.at%r
Na4e7
Or.a*sat*%7
? C%=Pr**3a& I-est*.at%rNa4e7
Or.a*sat*%7
? C%&&a+%rat*. Or.a*sat*%s
Or.a*sat*% Tea4 Me4+ers At*-*t*es8Tas@s ass*.e!
Part A = S44ar/ Re3%rt
1. Pr%,et O+,et*-es
O+,et*-e F&&/ A$*e-e!8Part*a&&/ A$*e-e! Reas% %r Part*a&
4*
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as 3er t$ea33r%-e! Pr%,et
(*!*ate s$%rta&&) A$*e-e4et
&. De&*-era+&es
De&*-era+&es as 3ert$e a33r%-e! Pr%,et
F&&/8Part*a&&/8N%tA$*e-e!
Reas% %r Part*a&8 N%A$*e-e4et
0. S3e** Bee*ts8Ot%4e(Please give details)
i Patent, if an#
ii Product(Process developed( tec'nolog# transferred
iii 0ist of Pulications arising from t'e Pro+ect (Indicate Impact 4actors of the ;ournals< attach 2opies of the Papers)
iv 0in&ages developed
v /anpower trained (1ive details)
. S44ar/ % s*.**at S
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0. S*et** Desr*3t*% % t$e Pr%!t8Pr%ess9 .*-e S3e**at*%s8Sta!ar!s %rt$e sa4e
. Met$%!%&%./ a!%3te! %r De-e&%34et % t$e Pr%!t8Pr%ess (State briefly in$%% &ords)
3. S*et** 8Te$%&%.*a& F%r4&at*% .*-*. !er&/*. Bas*s (Providesufficient details)
6. Frt$er 5%r@ re;*re!9 * a/9 t% .et && Bee*ts %r e$ae Ut*&*at*%?
8. Re%44e!at*%s %r Ut*&*at*% % t$e Pr%!t8Pr%ess? G*-e C%rete Ste3s?
S*.atre % PI
Na4e % PI
S*.atre % C%=PI
Na4e % C%=PI
Na4es % Part**3at*. Or.a*sat*%s