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| number = ML103620069
| number = ML103620069
| issue date = 12/28/2010
| issue date = 12/28/2010
| title = 2010/12/28-Notes from Davis Besse Re-Licensing Community Hearing
| title = Notes from Davis Besse Re-Licensing Community Hearing
| author name = Hoepfl K
| author name = Hoepfl K
| author affiliation = Univ of Toledo
| author affiliation = Univ of Toledo
Line 19: Line 19:


=Text=
=Text=
{{#Wiki_filter:University1Davis hearing*Overview-FirstgysrenewaatthedisminyernativeenerteoductionlosylosingofDaviBesse.
{{#Wiki_filter:NotesfromDavisBesserelicensingcommunityhearing
-Intermittency,largelandrequirements,lwindandlightcomparedtootherstates,associatedaesimhighostkilowatcapacity.
KathrynHoepfl
-Abettstoodifferenttypesenewenerfseproduction
UniversityofToledo
-aesourspecificallypromisresultsvervntIEnvironmehnergyappliedmittencyrequirementsIplaceca nationIoMunicipalintermittency0withmbinationArobtained.potheticonsistently 8x10 5 6 4 2 0Power (W)160140120100 80 60 40 20 0Hour of the WeekEBCOT Demand Curve, Week of July 24, 200 9 Hybrid System Modeled Generated Power I1mittencycatiotnhichwindetensivIpactincludingnning, IindtnaoptimizedBetweenththet EWEA, "Powering Europe: Wind Energy and the Electricity Grid," (2010).Hoepfl Compaan & Solocha, "Comparison of Solar and Wind Power Output and a look at Real-Time Pricing," (2010).}}
December2010
DavisBesserelicensingcommunity
hearing
* Overview
- InFirstEnergyslicenserenewalapplication,they
dismissedthepossibilityforanyformsofalternative
energytoreplacethepowerproductionthatwillbe
lostbytheclosingofDavisBesse.
- Intermittency,largelandrequirements,lowwindand
lightcomparedtootherstates,associatedaesthetic
impacts,andhighcostperkilowattofcapacity.
- Abetterunderstandingofhowtousedifferenttypes
ofrenewableenergywillhelpoffsettheenergy
production
- AlookatOhiosresourcesspecifically,shows
promisingresults

Figure1OverviewofPresentationon12/18/2010

Insection7.2.2.2oftheDavisBesseNuclearPowerStationLicenseRenewalApplication,
EnvironmentalReport,FirstEnergydismissesallformsofrenewableenergyasareplacementforthe
910MWfromDavisBesse.Twotypesthatarelargelyresearchedandwidelyusedtodayaresolarand
windpower,bothofwhichFirstEnergydoesnotfeelaresatisfactoryformsofenergyproductiontobe
appliedtothegrid.Thereasonstheystateareintermittencyofpowerproduction,largeland
requirementsforinstallationofeithertype,thelowwindandsunlightirradianceinOhiocomparedto
otherstates,associatedaestheticimpactsandthehighcostsperkilowatthourofcapacity.Lowwind
speedsandirradianceintheareaandcostsarediscussedinthenotesbyDr.AlvinCompaan.

Itistruethatsolarpanelswillonlyproducepowerduringthedaywhenthesunisshining,and
thatbothwindspeedsandsolarirradiancechangethroughoutthedayandyear;however,bylookingat
systemsthatarealreadyinplaceintheareaandaroundtheworld,wewillbeabletogainabetter
understandingofhowtousethesedifferenttypesofrenewableenergy.Thisstudyspecificallyshows
thecaseforNorthwestOhioandhowitcaninfact,beappliedtothegrid.
 

Figure2VolatilityvsMaximumOutputofseveralhypotheticalcombinationsystemsofsolarandwind

Ihaveusedtwofunctioningsystemsinthearea,onewindturbineownedbyBowlingGreen
Municipalitiesandonesolararrayonahomelocatedabout20milesnorthoftheturbineinToledo.
Withdetailedstatisticalmodeling,theabovegraphshowsthevolatilityorintermittencyof10
hypotheticalsystemsversustheiroutput.Eachhypotheticalsystemisadifferentweightedcombination
ofsolarandwind,from0100%wind.Asyoucansee,thesystemwiththeleastvolatility(moststable)
isanevencombinationof50%solarand50%wind.

Asinglesolararrayfollowspatternsinitspowerproduction:onlyproducesintheday,notat
nightandalsotheproductionishigherinthesummeronaveragethaninthewinter.Asinglewind
turbinealsofollowspatterns:notasmuchpredictabilityfromdaytoday,howevertheyproducemore
onaverageinthewinterthantheydointhesummermonths.Bycombiningthesetwosourcesatthe
optimalratioforthearea,amuchmorestableandpredictableoutputcanbeobtained.Theslidebelow
showsthehypotheticalcombinationsystemagainstalargecitydemandcurvelikeToledo.Wecanalso
lookatthesystemoveranentireyearandseethatthestandarddeviation(measureofvolatility)is
consistentlylowerthaneitherbyitself.
 

Figure3OutputofhypotheticalsystemvsdemandcurvefromcentralTexas,similartothatofToledo.

Figure4Standarddeviationofpowerproductionofasolar,windandhybridsystems.
8x10 5
6 4
2 0
Power (W) 160 140 120 100 80 60 40 20 0
Hour of the Week EBCOT Demand Curve, Week of July 24, 2009 Hybrid System Modeled Generated Power
 

Figure5Closingpoints

Itisimportanttoremindherethattheworkpresentedhereisonlybasedontwospecific
systemsandnotacompleterepresentationofasolarorwindfarm.IfFirstEnergyweretouseits
resourcestoinstalltheserenewableformsofenergythroughouttheregionthattheyservice,the
volatilitywouldbeevenless.TheEuropeanWindEnergyAssociationsannualreportputoutin
November2010reportedthattheintermittencyofwindspeedsinonelocationnegligiblyaffectsthe
overallbaseloadthattheirwindfarmsproduce.Whenwindisstaleinonelocation,itisblowingin
anothersothedropinoverallproductionisnotseenasgreatasitiswiththeonesingleturbineI
studied.Thesameconceptcanbeappliedtosolar:whenitisaseverelyovercastdayinToledo,itmay
beonlypartlycloudyinCleveland(Compaandiscusseshowdiffuselightfromacloudydayalsoproduces
power,notjustdirectsunlight).Byexpandingtheareaoverwhichthepowerisproduced,theeffectsof
weatherchangeswillnotalterthebaseloadaswouldbeexpected.

TheEWEAreportalsoprovidedadescriptionoftheforecastingwhichtakesplacetoknowwhat
kindofwindspeedstoexpect.Theyareabletopredictwindspeeds4hoursanduptoawholedayeven,
inadvancesotheyknowhowtoplanforasharpchange.Extensiveresearchanddevelopmentwouldbe
neededinthisarea,howeveramasteringcouldreallyrevolutionizetheindustry.

InmanynewsarticlesthatarebeingpublishedabouttherelicensingofDavisBesse,theyrefer
backtohowmanyjobsDBprovidestotheSanduskyareaandtheeconomicimpactithas.Implementing
renewableenergysourcessuchassolarandwindwouldcreatehundredsofjobsforeachproject
includingplanning,licensing,installation,maintenance,research,forecastingandmonitoring.
 

Insection7.2.2.2oftheEnvironmentalReportoftheLicenseRenewalApplicationofDavis
Besse,FirstEnergystatesthatthecriteriaforanalyzingenergyalternativesincludingwindandsolaris
whethertheycanprovidegenerationofapproximately910MWofelectricityasabaseloadsupply.This
sentenceisacontradictionforthefactthat910MWisthepeakproductioncapacityofDavisBesse,
howeverDBonlyprovides8.3%ofallofFirstEnergyselectricityprovided,soitisnotabaseload.Their
analysesarebasedonthefactthatsolaraloneorwindalonecannotsatisfyabaseload,buttheissue
shouldnotbelookedatfromoneformofenergy,itisextremelyimportanttounderstandthattheir
energywillbegeneratedbyacombinationofallthesetypesandthatcombinationwillbeoptimizedto
providethebestpossibleproductionfortheNorthwestOhioarea.

BetweenthetwotestimoniesgivenatthecommunityhearingonDecember18th,2010,wehave
negatedalmosteveryreasonFirstEnergyprovidedfortheirdismissalofrenewableenergyasasuitable
replacementofDavisBesse.Ifmoretimeforgatheringofrespectablesourceswouldallow,theothers
couldbeeasilyannulledaswell.Onthebasisofthesestudies,FirstEnergyhasnoreasonablebackingto
arguethattherearenotoptionsavailableforthereplacementofthepowerlostbytheclosingofDavis
Besse.

 
==References:==

1.EWEA, Powering Europe: Wind Energy and the Electricity Grid, (2010).
2.Hoepfl Compaan & Solocha, "Comparison of Solar and Wind Power Output and a look at Real-Time Pricing," (2010).}}

Latest revision as of 00:52, 14 January 2025

Notes from Davis Besse Re-Licensing Community Hearing
ML103620069
Person / Time
Site: Davis Besse Cleveland Electric icon.png
Issue date: 12/28/2010
From: Hoepfl K
Univ of Toledo
To:
Atomic Safety and Licensing Board Panel
SECY RAS
Shared Package
ML103620068 List:
References
License Renewal 2, RAS 19322, 50-346-LR
Download: ML103620069 (5)
v  d  e


Text

NotesfromDavisBesserelicensingcommunityhearing

KathrynHoepfl

UniversityofToledo

December2010

DavisBesserelicensingcommunity

hearing

  • Overview

- InFirstEnergyslicenserenewalapplication,they

dismissedthepossibilityforanyformsofalternative

energytoreplacethepowerproductionthatwillbe

lostbytheclosingofDavisBesse.

- Intermittency,largelandrequirements,lowwindand

lightcomparedtootherstates,associatedaesthetic

impacts,andhighcostperkilowattofcapacity.

- Abetterunderstandingofhowtousedifferenttypes

ofrenewableenergywillhelpoffsettheenergy

production

- AlookatOhiosresourcesspecifically,shows

promisingresults



Figure1OverviewofPresentationon12/18/2010



Insection7.2.2.2oftheDavisBesseNuclearPowerStationLicenseRenewalApplication,

EnvironmentalReport,FirstEnergydismissesallformsofrenewableenergyasareplacementforthe

910MWfromDavisBesse.Twotypesthatarelargelyresearchedandwidelyusedtodayaresolarand

windpower,bothofwhichFirstEnergydoesnotfeelaresatisfactoryformsofenergyproductiontobe

appliedtothegrid.Thereasonstheystateareintermittencyofpowerproduction,largeland

requirementsforinstallationofeithertype,thelowwindandsunlightirradianceinOhiocomparedto

otherstates,associatedaestheticimpactsandthehighcostsperkilowatthourofcapacity.Lowwind

speedsandirradianceintheareaandcostsarediscussedinthenotesbyDr.AlvinCompaan.



Itistruethatsolarpanelswillonlyproducepowerduringthedaywhenthesunisshining,and

thatbothwindspeedsandsolarirradiancechangethroughoutthedayandyear;however,bylookingat

systemsthatarealreadyinplaceintheareaandaroundtheworld,wewillbeabletogainabetter

understandingofhowtousethesedifferenttypesofrenewableenergy.Thisstudyspecificallyshows

thecaseforNorthwestOhioandhowitcaninfact,beappliedtothegrid.



Figure2VolatilityvsMaximumOutputofseveralhypotheticalcombinationsystemsofsolarandwind



Ihaveusedtwofunctioningsystemsinthearea,onewindturbineownedbyBowlingGreen

Municipalitiesandonesolararrayonahomelocatedabout20milesnorthoftheturbineinToledo.

Withdetailedstatisticalmodeling,theabovegraphshowsthevolatilityorintermittencyof10

hypotheticalsystemsversustheiroutput.Eachhypotheticalsystemisadifferentweightedcombination

ofsolarandwind,from0100%wind.Asyoucansee,thesystemwiththeleastvolatility(moststable)

isanevencombinationof50%solarand50%wind.



Asinglesolararrayfollowspatternsinitspowerproduction:onlyproducesintheday,notat

nightandalsotheproductionishigherinthesummeronaveragethaninthewinter.Asinglewind

turbinealsofollowspatterns:notasmuchpredictabilityfromdaytoday,howevertheyproducemore

onaverageinthewinterthantheydointhesummermonths.Bycombiningthesetwosourcesatthe

optimalratioforthearea,amuchmorestableandpredictableoutputcanbeobtained.Theslidebelow

showsthehypotheticalcombinationsystemagainstalargecitydemandcurvelikeToledo.Wecanalso

lookatthesystemoveranentireyearandseethatthestandarddeviation(measureofvolatility)is

consistentlylowerthaneitherbyitself.



Figure3OutputofhypotheticalsystemvsdemandcurvefromcentralTexas,similartothatofToledo.



Figure4Standarddeviationofpowerproductionofasolar,windandhybridsystems.

8x10 5

6 4

2 0

Power (W) 160 140 120 100 80 60 40 20 0

Hour of the Week EBCOT Demand Curve, Week of July 24, 2009 Hybrid System Modeled Generated Power



Figure5Closingpoints



Itisimportanttoremindherethattheworkpresentedhereisonlybasedontwospecific

systemsandnotacompleterepresentationofasolarorwindfarm.IfFirstEnergyweretouseits

resourcestoinstalltheserenewableformsofenergythroughouttheregionthattheyservice,the

volatilitywouldbeevenless.TheEuropeanWindEnergyAssociationsannualreportputoutin

November2010reportedthattheintermittencyofwindspeedsinonelocationnegligiblyaffectsthe

overallbaseloadthattheirwindfarmsproduce.Whenwindisstaleinonelocation,itisblowingin

anothersothedropinoverallproductionisnotseenasgreatasitiswiththeonesingleturbineI

studied.Thesameconceptcanbeappliedtosolar:whenitisaseverelyovercastdayinToledo,itmay

beonlypartlycloudyinCleveland(Compaandiscusseshowdiffuselightfromacloudydayalsoproduces

power,notjustdirectsunlight).Byexpandingtheareaoverwhichthepowerisproduced,theeffectsof

weatherchangeswillnotalterthebaseloadaswouldbeexpected.



TheEWEAreportalsoprovidedadescriptionoftheforecastingwhichtakesplacetoknowwhat

kindofwindspeedstoexpect.Theyareabletopredictwindspeeds4hoursanduptoawholedayeven,

inadvancesotheyknowhowtoplanforasharpchange.Extensiveresearchanddevelopmentwouldbe

neededinthisarea,howeveramasteringcouldreallyrevolutionizetheindustry.



InmanynewsarticlesthatarebeingpublishedabouttherelicensingofDavisBesse,theyrefer

backtohowmanyjobsDBprovidestotheSanduskyareaandtheeconomicimpactithas.Implementing

renewableenergysourcessuchassolarandwindwouldcreatehundredsofjobsforeachproject

includingplanning,licensing,installation,maintenance,research,forecastingandmonitoring.



Insection7.2.2.2oftheEnvironmentalReportoftheLicenseRenewalApplicationofDavis

Besse,FirstEnergystatesthatthecriteriaforanalyzingenergyalternativesincludingwindandsolaris

whethertheycanprovidegenerationofapproximately910MWofelectricityasabaseloadsupply.This

sentenceisacontradictionforthefactthat910MWisthepeakproductioncapacityofDavisBesse,

howeverDBonlyprovides8.3%ofallofFirstEnergyselectricityprovided,soitisnotabaseload.Their

analysesarebasedonthefactthatsolaraloneorwindalonecannotsatisfyabaseload,buttheissue

shouldnotbelookedatfromoneformofenergy,itisextremelyimportanttounderstandthattheir

energywillbegeneratedbyacombinationofallthesetypesandthatcombinationwillbeoptimizedto

providethebestpossibleproductionfortheNorthwestOhioarea.



BetweenthetwotestimoniesgivenatthecommunityhearingonDecember18th,2010,wehave

negatedalmosteveryreasonFirstEnergyprovidedfortheirdismissalofrenewableenergyasasuitable

replacementofDavisBesse.Ifmoretimeforgatheringofrespectablesourceswouldallow,theothers

couldbeeasilyannulledaswell.Onthebasisofthesestudies,FirstEnergyhasnoreasonablebackingto

arguethattherearenotoptionsavailableforthereplacementofthepowerlostbytheclosingofDavis

Besse.



References:



1.EWEA, Powering Europe: Wind Energy and the Electricity Grid, (2010).

2.Hoepfl Compaan & Solocha, "Comparison of Solar and Wind Power Output and a look at Real-Time Pricing," (2010).

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