A Seminar Report on on
BLADELESS WIND POWER GENERATION Submitted in partial fulfillment of the requirements for the award of of the degree of
BACHELOR OF TECHNOLOGY In
ELECTRICAL AND AND ELECTRONICS ENGINEERING by
S.PRIYANKA (134GIA0256) Under the Guidance of Dr. K.NAGARAJU Professor
ELECTRICAL AND ELECTRONICS ENGINEERING SRINIVASA RAMANUJAN INSTITUTE OF TECHNOLOGY ANANTAPUR (Affiliated to JNTUA and Approved by AICTE, Ne Del!i"
2017
SRINIVASA RAMANUJAN INSTITUTE OF TECHNOLOGY ANANTHAPURAMU (Affiliated to JNTUA and Approved by AICTE, Ne Del!i"
Certifcate This is to certify that a seminar report entitled BLADL!! "#ND P$"R GNRAT#$N is the %onafide &or' carried out %y S.PRIYANKA %earin( Roll Num%er 134G1A0256 in partial fulfillment of the re)uirements for the a&ard of the de(ree of B!"#$%& %' T#!"%$%* in E$#!+&,!$ - E$#!+&%,! E,##&, durin( the academic
year *+,-*+,/.
G/IDE
H#- %' +"# D#&+#+
Dr. K.NAGARAJU
Dr.G.!RN#0A!AN
Professor
Professor
ACKNOWLEDGEENT # am fortune enou(h to ha1e an opportunity to present report on 2BLADL!! "#ND P$"R GNRAT#$N3. # ta'e this opportunity to remem%er and ac'no&led(e the cooperation and e4tended %y se1eral indi1iduals5 out of &hich this report e1ol1ed. # &ish to e4press my deep sense of (ratitude to our seminar (uide5Dr.K.NAGARAJU5 professor5 Dept. of 5 !rini1asa Ramanu6an #nstitute of Technolo(y5 Anantapuramu for his 1alua%le (uidance to do this seminar. # ta'e this opportunity to than' Dr.G.!RN#0A!AN5 7ead of the department5 Dept. of 5 for his unfailin( support at e1ery sta(e of this seminar. # also e4press my sincere than's to Dr.K.!UBBA RDD85 Principal5 !rini1asa Ramanu6an #nstitute of Technolo(y5 Anantapuramu for his moral support. # also e4press my sincere than's to 9r.A.!A9BA!7#0A RDD85 :hairman of !rini1asa Ramanu6an #nstitute of Technolo(y5 Anantapuramu for pro1idin( e4cellent la% facilities to do the la%. 9y heart full than's to all our friends &ho has helped us immensely in the completion of seminar. Last %ut not least5 # &ould li'e to e4press my deep sense of (ratitude and earnest than's (i1in( to my dear parents for their support and hear full cooperation in doin( this seminar. #n the end # &ould also li'e to than' all my peers for all the support and help they ha1e pro1ided throu(hout the seminar &or'. # am 1ery much (rateful to all faculty mem%ers of lectrical ; lectronics n(ineerin( Department5 &ho helped me directly and indirectly5 to ma'e this seminar a successful one.
CONTENTS
S.NO
TITLE
CHAPTER1
PAGE N/
INTROD/CTION <
CHAPTER2
LITERAT/RE S/REY =*., 7istory #ntroduction
=
*.,., n>yme %ased Bio%attery
?
*.,.* Bio%attery usin( 7uman Blood
?
*.,.< Bio%attery usin( :ar%ohydrates
-
*.,.= Recent Bio%atteries usin( Blood and !&eat *.,.? The latest Bio%attery usin( 0irus
CHAPTER3
-
SYSTE DEELOPENT/,< <., #ntroduction
/
<.* "or'in(
@
<.< eatures ; !pecifications
,*
CHAPTER4
ADANTAGESOFBIOBATTERY,=
CHAPTER5
APPLICATIONS OF BIOBATTERY,?,-
CHAPTER6
CONCL/SION
CHAPTER7
F/T/RE SCOPE
,/
,@REFERENCES,
LIST OF FIG/RES FIG.NOTITLE OF FIG/REPAGE.NO ,.
BioBattery
,
<.,
Principle of uel cell
/
<.*.,
"or'in( of a BioBattery
@
<.*.*
n>ymes used to con1ert su(ar directly into electrical ener(y
<.*.<
Schematic preselected segments of a CNT assembly (black)
11
on a planar substrate (green, e.g., Si).
<.<.,
!in(le cell Battery
,*
<.<.*
!i4 cell Battery
,*
<.<.<
Sensor and Wireless Transmitter running on a biobattery
,<
<.<.=
,? cell stac' BioBattery
,<
=
Different fuels used in BioBatteries
,=
?.,
Applications of BioBatteries
,?
?.*
"al'man po&ered %y a BioBattery
,-
ABSTRACT As the ener(y re)uirements increasin( day %y day the %est &ay to o1ercome ener(y crisis is to produce po&er in 1arious methods usin( rene&a%le ener(y sources. 9y paper su((ests the production of electricity usin( %ladeless &ind tur%ine. "ind po&er has %ecome a le(itimate source of ener(y. Bladeless "ind Po&er Generation uses a radically ne& approach to capturin( &ind ener(y. The de1ice captures the ener(y of 1orticity Cproperty of a fluid related to local an(ular rotation5 an aerodynamic effect that has pla(ued structural en(ineers and architects for a(es C1orte4 sheddin( effect. As the &ind %ypasses a fi4ed structure5 itEs flo& chan(es and (enerates a cyclical pattern of 1ortices. $nce these forces are stron( enou(h5 the fi4ed structure starts oscillatin(. #nstead of
a1oidin( these aerodynamic insta%ilities our desi(n ma4imi>es the resultin( oscillation and captures that ener(y. Naturally5 the desi(n of such de1ice is completely different from a traditional tur%ine. #nstead of the usual to&er5 nacelle and %lades5 the de1ice has a fi4ed mast5 a po&er (enerator and a hollo&5 li(ht&ei(ht and semiri(id fi%re (lass cylinder on top. This puts the technolo(y at the 1ery lo& ran(e of capital intensity for such pro6ects5 it als o ma'es it hi(hly competiti1e not only a(ainst (enerations of alternati1e or rene&a%le ener(y5 %ut e1en compared to con1entional technolo(ies.