Cooling System Design for Cpv Module (Concentrate

8/15/2019 Cooling System Design for Cpv Module (Concentrate

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Under the guidance of

Mr. Rohini kumar B

Presented By

Kakada naveenkumar

M140527ME

COOLING SYSTEM DESIGN O! CP" P#NEL

$CONCENT!#TE P%OTO"OLT#IC CELL&


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• Introduction

• Objective

•

oo!in" #$#tem• Microchanne!#

• %iterature revei&

• Re'erence#

CONTENTS


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• () ce!!#*

+ 'hoto(o)taic ce)) i# a #,ecia!i-ed #emiconductor

diode that convert# vi#ib!e !i"ht into direct current /.

• !a##i'ication o' () ce!!#*

1. %o& oncentration () %() 1 to 40 #un#

2. Medium oncentration () M() 40 to 00 #un#. 3i"h oncentration () 3() 00 to 2000 #un#.

Introduction


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ontinued...

• India# !ar"e#t ,hotovo!taic () ,o&er ,!ant# *

• 1. Re!iance (o&er (okhran 6o!ar () (!ant Raja#than 40M8.

• 2. +daniBitta 6o!ar (!ant 9ujarat 40M8.

• . Mo#er Baer (atan 9ujarat 0M8.• 4. +-ure (o&er 6abarkantha 9ujarat 10M8.

• 5. 9reen In'ra 6o!ar Ener"$ %imited Rajkot 9ujarat 10

M8.


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ontinued...

() conver#ion !o##e# o' a ,o&er ,!ant a# a $ear!$ avera"e

1. !i"ht re'!ection !o##e# .1:

2. !o& radiation and #hado&in" !o##e# .2:. / board !o##e# 1.2:

4. /;+ conver#ion !o##e# 4:

5. tem,erature !o##e# 7.


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ontinued...

• =he major 'raction o' !o##e# i# re!ated to the tem,erature

increa#e o' the #i!icon #o!ar ce!!#.

•

(ro,er coo!in" #$#tem i# nece##ar$ to o,erate the #$#temunder concentrated radiation.


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• =o de#i"n a coo!in" #$#tem 'or concentrate ,hotovo!taic ce!!#

inorder to obtain hi"her net out,ut ,o&er o' () ce!!# and

,ro!on" their !i'e time.

• >abrication o' () ,ane! and microchanne!# &ith re?uired

dimen#ion#.

OB*ECTI"E


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COOLING SYSTEM

Methods of coo)ing syste+

Passi(e +ethods #cti(e +ethods

• @et im,in"ement

• 3$brid @et im,in"ement

• Microchanne!#...etc

• Aatura! convective heat#ink#

!ike heat ,i,e# 'in#...etc


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• hanne!# diameter !ie# in bet&een 0.2mm.

• 3i"h heat tran#'er rate#.

• Re!ative!$ !o& ,re##ure dro,#.

•

%o& 'abrication co#t#.• Ea#e o' 'abrication

MIC!O C%#NNELS


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Literature re(ie,


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1. (er'ormance o' a #i!icon ,hotovo!taic modu!e under

enhanced i!!umination and #e!ective'i!tration o'

incomin" radiation &ith #imu!taneou# coo!in"* Su-arna Maiti ./ 0aira(i "yas/ Push'ito 01 Ghosh

•. +b#or,tion o' radiation &ith di''erent t$,e# !i?uid# .

•. =em,erature ri#e in ,v modu!e &ith time o' da$.

•. maimum ,o&er ,roduced in ,v ce!! &ith the time o' da$.

•. =he #tead$ #tate heat remova! e''icienc$ o' the !i?uid

can be "iven a#*

•.=he maimum ,o&er o' the ,v modu!e can be ca!cu!ated b$

u#in" re!ation#hi,*


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In'rared ab#or,tion #,ectra o' di''erent or"anic and inor"anic !i?uid#


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=em,erature ,ro'i!e ver#u# time o' da$ o' at di''erent condition#


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maimum ,o&er(ma v# time o' da$ 'or di''erent condition# o'

#o!ar radiation


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2. + com,arative #tud$ on u#in" #in"!e and mu!ti header

microchanne!# in a h$brid () ce!! coo!in"*

Masoud !ahi+i / Maso+eh #sadi/ Nooshin 0ara+i/ E-rahi+ 0ari+i⇑

• =he () ce!! ha# e''ective area o' 2


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B$ u#in" e,eriment re#u!t# variou# "ra,h# ,!otted*


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Sl.no

Author Title Comments

1 Kaijun

Yang,Chuncheg Zuo .

A novel multi-

layer manifoldmicrochannelcooling systemfor concentratingphotovoltaic cells

+n e''ective mu!ti!a$er mani'o!d

microchanne! heat #ink 'or the coo!in" o'() ce!!# ha# been #ucce##'u!!$ 'abricated.

B$ re#u!t# obtained 'rom e,eriment he'ound that hi"her heat tran#'er coe''cient anda !o&er #ur'ace.

The pressure drop of microchannelsis lo.

! "asoud#ahimi ,$%rahim

Karimi,"asomeh Asadi,&eyvand'aleh-e-(heyda

)eat transferaugmentation ina hy%rid

microchannelsolar cell

This paper considers e*perimentalinvestigations on a hy%ridmicrochannel solar cell, hich is

designed as anattractive technology for &' coolingsystems.

An e*cellent cooling performanceas found from e*periments so that

the cell ma*imumpoer as marginally improved


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3 JeromeBarrau , JoanRosell,DanielChemisana,LounesTadrist ,M. Iban.

Effect of a hy-rid 2eti+'inge+ent3+icro4channe)coo)ing de(ice on

the 'erfor+anceof dense)y 'ac5edP" ce))s underhighconcentration

A new hybrid etim!in"ement#mi$ro%$hannel$oolin" s$heme ha&e beendes$ribed.

This $hara$teristi$ in&ol&esthat,the a&era"e heat e'$han"e$oe($ient o) mi$ro%$hannel$oolin" s$hemes is sli"htlyhi"her than the one o) thehybrid heat sin*

Kyu)yung/o, Tae)oon

Kim, Yong-(hi0)an,yung-2lChoi,"yung-

ae Kim

3eneralcorrelation of anaturalconvective

heat sin0 ithplate-4nsfor highconcentratingphotovoltaicmodule cooling

2n this paper, they proposed somecorrelations. it is shon that theproposed correlation predicts ellthe e5ects of inclination angle

and 4n spacing on the thermalperformance of the naturalconvective heat sin0 ith plate-4ns.


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+ .Rad-iems*a.lu"mann

Ther+a))y affected'ara+eters of thecurrent6(o)tagecharacteristics ofsi)icon 'hotoce))

The inf)uence of te+'erature on the'ara+eters of si)icon 'hotoce))s is'resented1

The te+'erature increase of the ce))

surfaces ,ithin the range fro+ 77 to89 degree centigrade1

It is sho,n that the 'roduct IscUoc degrades a-out 91:; 'er < 0te+'erature increase1

6 /r..(.3aali/.A.Kam%l

e

+na!$#i# o'Rectan"u!arMicrochanne!under >orcedconvection 3eat=ran#'er condition

>rom ana!$#i# it i# ob#erved that a#h$drau!ic diameter o' microchanne!i# major conce,t o' microchanne! heattran#'er &hich i# de,endent on '!o& rateo' &ater in microchanne!.


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#eferences

1. 6ada#hiv K. 6uni! K. )iabhav . /ua! ai# trackin" #$#tem# . International

Journal of Innovation in Engineering Research and Technology vol.2 (2015),

2!"#$!$.

2. (Fre-3i"uera# (. Muno- E. +!monacid 9. )ida! (. 9. 3i"h oncentrator

(hoto)o!taic# e''iciencie#* (re#ent #tatu# and 'oreca#t. Rene%a&le and 'ustaina&le

Energy Revie%s, 15(") (2010), 110#115.. .B. 6obhan 6.). 9arime!!a =ran#,ort in microchanne!# e a critica! revie&+nnu.

Rev. 3eat =ran#'er 1 200 150.

. Kri%us, A., Kaftori, /., "ittelman, 3., )irshfeld, A., 7litsanov, Y., 8/ayan, A. A miniature concentrating photovoltaic and thermalsystem. Energy Conversion and Management, 47(20) (2010),3582-3590.

Documents

Cooling System Design for Cpv Module (Concentrate