WPC e,nT@K#{5?RzNМV>x{pUcTX55UlLun`QЕ7 wZ(c0Z^7SH\?1|w8]e4W;f* 눪\gl좻ݮؿ:?cg *v0\(dY0?܍o*1A$wwt_<)D%^:ʗ`y\Ujxg(h0%ӍO&XJd<8dwγ,Ii4iT1V|}=+Jtc& I].U&Í[ny_F ƋyJ4m>2t^ PR/y/.%Cp\ IYжPn{T `xy\5cf/C/ϼԴ^7ȉz45zx pX @Xdddddddd@EP  d<Ph   (#(#           (#(#  0 ` Wwhere: ` (#` (# *XXm hXX*0 ` _CBX_0m ` (#` (#=0 m (#m (#Vinylchlorideemissions,g/kg(lb/ton)product.P (# (# 0 ` _Cb_0m ` (#` (#=0 m (#m (#Concentrationofvinylchlorideasmeasuredby   TestMethod106,_ppmv_.  (# (#  ` _DVC_0 m =0 m (#m (#Densityofvinylchlorideatstandard @  conditions,2.60kg/_m3_(0.162lb/ft3). " (# (# 0 ` Q0m ` (#` (#=0 m (#m (#VolumetricflowrateasdeterminedbyMethod2 `" $ ofappendixAtopart60ofthischapter,_m3_/hr #& (ft3/hr).%@( (# (#  ` K0 m =0 m (#m (#Unitconversionfactor,1,000g/kg(1lb/lb).' * (# (# 0 ` 1060m ` (#` (#=0 m (#m (#Conversionfactorfor_ppm_.(`", (# (# 0 ` Z0m ` (#` (#=0 m (#m (#Productionrate,kg/hr(ton/hr).0*#. (# (# ***** ` (4)*** P-'2  ` (ii)Method107istobeusedtodeterminetheconcentrationofvinylchlorideineach_inprocess_Ԁwastewaterstreamsubjecttotheemissionlimitprescribedin61.64(e).Vinylchloridemassemissionsaretobedeterminedusingthefollowingequation: ! &RB>zx pX @Xdddddddd@E d <h   (#(#           (#(#  0 ` Wwhere: ` (#` (# 3XX hXXXm hX30 ` _CBX_0 ` (#` (#=0 (# (#Vinylchlorideemissions,g/kg(lb/ton)product P ineach_inprocess_Ԁwastewaterstream.  (# (# 0 ` _Crvc_0 ` (#` (#=0 (# (#Concentrationofvinylchlorideinwastewater, p0 asmeasuredbyTestMethod107,_ppmw_.  (# (#  ` _Dwater_0 =0 (# (#Densityofwastewater,1.0kg/_m3_(0.0624 P lb/ft3).  (# (# 0 ` _Qwater_0 ` (#` (#=0 (# (#Wastewaterflowrate,determinedinaccordance p withamethodwhichhasbeensubmittedtoandapprovedbytheAdministrator,_m3_/hr(ft3/hr). " (# (#  ` K0 =0 (# (#Unitconversionfactor,1,000g/kg(1lb/lb).`" $ (# (# 0 ` 1060 ` (#` (#=0 (# (#Conversionfactorfor_ppm_.#& (# (#  ` Z0 =0 (# (#Productionrate,kg/hr(ton/hr),determinedin %@( accordancewithamethodwhichhasbeensubmittedtoandapprovedbytheAdministrator.  (# (#  ` (5)*** ` (_i_)Exceptasprovidedinparagraph(g)(5)(ii)ofthissection,thereactoropeninglossistobedeterminedusing P-'2 thefollowingequation: ) *RB>zx pX @Xdddddddd@E  d <h   (#(#           (#(#  0 ` Wwhere: ` (#` (# 0 ` _CBX_0 ` (#` (#=0 (# (#Vinylchlorideemissions,g/kg(lb/ton)   product.  (# (# 0 ` _Cb_0 ` (#` (#=0 (# (#Concentrationofvinylchloride,in_ppmv_,as 0  determinedbyMethod106oraportablehydrocarbondetectorwhichmeasureshydrocarbonswithasensitivityofatleast10_ppmv_.  (# (# 0 ` _VR_0 ` (#` (#=0 (# (#Capacityofthereactor,_m3_(ft3). (# (#  ` _DVC_0 =0 (# (#Densityofvinylchlorideatstandard P conditions,2.60kg/_m3_(0.162lb/ft3).  (# (#  ` K0 =0 (# (#Unitconversionfactor,1,000g/kg(1lb/lb).p (# (# 0 ` 1060 ` (#` (#=0 (# (#Conversionfactorfor_ppm_.@  (# (# 0 ` Z0 ` (#` (#=0 (# (#Productionrate,kg/hr(ton/hr). " (# (# ***** ` (6)*** ` (ii)*** ` (A)***  (`",   EnglishUnits  *q+, ddd Xdd Xdd X(#(#q,dd ,td ,td ,td ,td ,td +  /" `  p/Reactorvaportempera_ture_Ԁ($F) 0!   0H2Ovapor    pressure(_psia_) 0!x 8  0Reactorvaportempera_ture_Ԁ( @  $F) 0!  0H2Ovapor   pressure(_psia_) 0!x 8 0Reactorvaportempera_ture_Ԁ( @  $F) 0!  0H2Ovapor   pressure(_psia_) F9!x 8 p  PF104 0!X 01.07 0!X 0144 0!X 03.167 0!X  0183 0!X! 08.060 C9!X" P  @xC106 # X # #1.13 0!X $ 0145 0!X % 03.314 0!X & 0185 0!X ' 08.384 C9!X ( x @  @xC108 #  ) #1.19 0! * 0147 0! + 03.467 0! , 0187 0! - 08.719 C9! . x @  @xC109 #  / #1.25 0! 0 0149 0! 1 03.626 0! 2 0189 0! 3 09.063 C9! 4 x @  @xC111 # X 5 #1.32 0!X 6 0151 0!X 7 03.792 0!X 8 0190 0!X 9 09.419 C9!X : x @  @xC113 # X; #1.39 0!X< 0153 0!X= 03.964 0!X> 0192 0!X? 09.786 C9!X@ x @  @xC115 # A #1.46 0!B 0154 0!C 04.142 0!D 0194 0!E 010.17 C9!F x @  @xC117 # G #1.54 0!H 0156 0!I 04.326 0!J 0196 0!K 010.56 C9!L x @  @xC118 # XM #1.62 0!XN 0158 0!XO 04.519 0!XP 0198 0!XQ 010.96 C9!XR x @  @xC120 # XS #1.70 0!XT 0160 0!XU 04.716 0!XV 0199 0!XW 011.38 C9!XX x @  @xC122 # Y #1.79 0!Z 0162 0![ 04.923 0!\ 0201 0!] 011.81 C9!^ x @  @xC124 # _ #1.88 0!` 0163 0!a 05.138 0!b 0203 0!c 012.26 C9!d x @  @xC126 # Xe #1.974 0!Xf 0165 0!Xg 05.360 0!Xh 0205 0!Xi 012.72 C9!Xj x @  @xC127 # Xk #2.073 0!Xl 0167 0!Xm 05.590 0!Xn 0207 0!Xo 013.19 C9!Xp x @  @xC129 # q #2.175 0!r 0169 0!s 05.828 0!t 0208 0!u 013.68 C9!v x @  @xC131 # !w #2.282 0!!x 0170 0!!y 06.074 0!!z 0210 0!!{ 014.18 C9!!| x @  @xC133 # X"} #2.394 0!X"~ 0172 0!X" 06.329 0!X" 0212 0!X" 014.70 C9!X" x @  @xC135 # #X #2.510 0!#X 0174 0!#X 06.594 0!#X 0 0!#X 0 C9!#X x @  @xC136 # $ #2.632 0!$ 0176 0!$ 06.866 0!$ 0 0!$ 0 C9!$ x @  @xC138 # & #2.757 0!& 0178 0!& 07.149 0!& 0 0!& 0 C9!& x @  @xC140 # X'! #2.889 0!X'! 0180 0!X'! 07.443 0!X'! 0 0!X'! 0 J9!X'! x @  PxJ142 2!(X" 23.024 2!(X" 2181 2!(X" 27.746 2!(X" 2 2!(X" 21'%(X" x P   1  +$  ` (B)Thepartialpressure(mmHg)ofvinylchlorideinreactoratendofstripfromthefollowingequation:  RB>zx pX @Xdddddddd@E` , d` K   (#(#      (#(#  0 ` Wwhere: ` (#` (# 0 ` _PPVC_0 ` (#` (#=0 (# (#partialpressureofvinylchloride,mmHg   (_psia_)  (# (# 0 ` _PATM_0 ` (#` (#=0 (# (#atmosphericpressureat0$C(32$F),760mmHg 0  (14.7_psia_)  (# (# 0 ` _PRV_0 ` (#` (#=0 (# (#absolutepressureofreactorvacuum,mmHg P (_psia_)  (# (# 0 ` _PW_0 ` (#` (#=0 (# (#vaporpressureofwater,mmHg(_psia_)p0 (# (#  ` _(C)_ԀThereactorvaporspacevolumeattheendofthestripfromthefollowingequation: RB>zx pX @Xdddddddd@E   dLM y   (#(#           (#(#  0 ` Wwhere: ` (#` (# 0 ` _VRVS_0 ` (#` (#=0 (# (#reactorvaporspacevolume,_m3_(ft3)`" $ (# (# 0 ` _VR_0 ` (#` (#=0 (# (#reactorcapacity,_m3_(ft3)#& (# (# 0 ` _VW_0 ` (#` (#=0 (# (#volumeofwaterinreactorfromrecipe,_m3_(ft3)%@( (# (# 0 ` _WPVC_0 ` (#` (#=0 (# (#dryweightofpolyvinylchlorideinreactor ' * fromrecipe,kg(lb)  (# (# 0 ` _DPVC_0 ` (#` (#=0 (# (#typicaldensityofpolyvinylchloride,1,400 0*#. kg/_m3_(87.4lb/ft3)+%0 (# (#  ` (iii)Foreachbatchstrippedinthereactor,the P-'2 combinedreactoropeninglossandemissionsfromallsourcesfollowingthereactorusedasastripperistobedeterminedusingthefollowingequation: - .RB>zx pX @Xdddddddd@E dM y   (#(#           (#(#  0 ` Wwhere: ` (#` (# 0 ` _CBX_0 ` (#` (#=0 (# (#Vinylchlorideemissions,g/kg(lb/ton) 0  product.  (# (#  ` _PPMVC_=0 Concentrationofvinylchlorideinresinafter P stripping,_ppmw_  (# (#  ` K10 =0 (# (#conversionfactorfrom_ppmw_Ԁtounitsof p0 emissionstandard,0.001(metricunits)  (# (#  `  =0 0.002(Englishunits)P (# (# 0 ` _PPVC_0 ` (#` (#=0 (# (#partialpressureofvinylchloridedetermined   accordingtoparagraph(g)(6)(ii)(B)ofthissection,mmHg(_psia_)  (# (# 0 ` _VRVS_0 ` (#` (#=0 (# (#reactorvaporspacevolumedeterminedaccording  " toparagraph(g)(6)(ii)(C)ofthissection,_m3_ `" $ (ft3)#& (# (# 0 ` _RVC_0 ` (#` (#=0 (# (#idealgasconstantforvinylchloride,%@( (# (#  `  0 1,002g$K/(mmHg_m3_)[5.825lb$R/(_psia_Ԅft3)]' * (# (# 0 ` _MPVC_0 ` (#` (#=0 (# (#dryweightofpolyvinylchlorideinreactor (`", fromrecipe,kg(ton)  (# (# 0 ` TR0 ` (#` (#=0 (# (#reactortemperature,$C($F)+%0 (# (# 0 ` KT0 ` (#` (#=0 (# (#temperatureconversionfactorfor$Cto$K,273 P-'2 ($Fto$R,460)@ (# (# ***** 61.68[Amended]  `   ` 18.Amend61.68asfollows: ` a.Paragraph(c)(1)isamendedbyrevisingthewords"sections5.2.1.and5.2.2.ofTestMethod106andinaccordancewithsection7.1ofTestMethod106"toread"Sections7.2.1and7.2.2ofMethod106andinaccordancewithSection10.1ofMethod106." ` b.Inparagraph(c)(2),thefifthsentenceisamendedbyrevisingthewords"section7.3ofTestMethod106.Therequirementsinsection5.2.3.1.and5.2.3.2.ofTestMethod106"toread"Sections8.1and9.2ofMethod106.TherequirementsinSections7.2.3.1and7.2.3.2ofMethod106." 61.70[Amended]  p0   P  ` 19.Amend61.70asfollows: ` a.Inparagraph(c),thefirstsentenceisamendedbyrevisingthewords"TestMethods"toread"testmethods." ` b.Paragraph(c)(2)(iii)isamendedbyrevisingthewords"TestMethod"toread"Method." ` c.Inparagraph(c)(2)(v),thedefinitionsofthetermsQTand_MGi_arerevised;andinparagraph(c)(4)(iv), `  thedefinitionsofthetermsAT,QT,_CGi_,and_PGi_arerevised. 0   ` d.Paragraph(c)(4)(ii)isamendedbyrevisingthewords"TestMethod"toread"Method."61.70Reporting.  ***** ` _(c)_Ԁ*** ` (2)*** ` (v)***0 ` QT0 ` (#` (#=0 (# (#TotalproductionoftypeTresinoverthe24 p hourperiod,inkg(ton).  (# (# Ѐ***0 ` _MGi_0 ` (#` (#=0 (# (#ProductionofgradeGiresinrepresentedbythe `" $ sample,inkg(ton).  (# (# ***** ` (4)*** ` (iv)***̀ ` AT0 =0 (# (#24houraveragecombinedreactoropeningloss 0*#. andemissionsfromallsourcesfollowingthereactorusedasastripper,onadryweight P-'2 basis,gvinylchloride/kg(lb/ton)product.  (# (# 0 ` QT0 ` (#` (#=0 (# (#TotalproductionoftypeTresinforwhich  strippingiscompletedduringthe24hourperiod,inkg(ton).  (# (# Ѐ*****0 ` _CGi_0 ` (#` (#=0 (# (#Averagecombinedreactoropeninglossand   emissionsfromallsourcesfollowingthereactorusedasastripperofallbatchesofgradeGiresinforwhichstrippingiscompletedduringthe24hourperiod,onadryweightbasis,gvinylchloride/kg(lb/ton)product(determinedaccordingtoprocedurein61.67(g)(6)).  (# (# 0 ` _PGi_0 ` (#` (#=0 (# (#ProductionofgradeGiresininbatchesfor P which_CGi_isdetermined,inkg(ton).  (# (# ***** 61.93[Amended]  @   ` 20.In61.93,paragraphs(b)(1)(_i_),(b)(1)(ii),and(b)(2)(_i_)areamendedbyrevisingthewords"ReferenceMethod"toread"Method"wherevertheyoccur. 61.107[Amended]  %(  ` 21.Amend61.107asfollows:_ ` a.Paragraphs(b)(1)(i),(b)(1)(ii),and(b)(2)(i)areamendedbyrevisingthewords"ReferenceMethod"toread"Method"wherevertheyoccur. ` b.Paragraphs(b)(2)(iv)and(b)(5)(v)areamendedby -'2 revisingthewords"method114"toread"Method114"wherevertheyoccur. ` c.Paragraph(b)(5)(iv)isamendedbyrevisingthewords"table2"toread"Table2",wherevertheyoccur. 61.110[Amended]   @  ` 22.In61.110,paragraph(c)(2)isamendedbyrevisingthewords"1,000megagrams"toread"1,000megagrams(1,102tons)." 61.123[Amended]     ` 23.Amend61.123asfollows: ` a.Paragraph(d)isamendedbyrevisingthewords"curiespermetricton"toread"curiesperMgorcuriesperton)"wherevertheyoccur. ` b.Inparagraph(d),thefifthsentenceisamendedbyrevisingthewords"inmetrictons"toread"inMg(tons)." 61.125[Amended]  P  ` 24.Amend61.125asfollows: ` a.Paragraph(a)(1)isamendedbyrevisingthewords"TestMethod1ofAppendixA"toread"Method1ofAppendix_A." ` b.Paragraph(a)(2)isamendedbyrevisingthewords"TestMethod2ofAppendixA"toread"Method2ofappendixA." ` c.Paragraph(a)(3)isamendedbyrevisingthewords"TestMethod3ofAppendixA"toread"Method3ofAppendix ,p&0 A." ` d.Paragraph(a)(4)isamendedbyrevisingthewords"TestMethod5ofAppendixA"toread"Method5ofAppendixA." ` e.Paragraph(a)(5)isamendedbyrevisingthewords P-'2 Ї"TestMethod111ofAppendixB"toread"Method111ofAppendixB." 61.132[Amended]  `   ` 25.In61.132,paragraphs(b)and(b)(1)areamendedbyrevisingthewords"ReferenceMethod"toread"Method"wherevertheyoccur. 61.133[Amended]     ` 26.In61.133,paragraphs_(c)_Ԁand(c)(1)areamended̀byrevisingthewords"ReferenceMethod"toread"Method"wherevertheyoccur. 61.139[Amended]  @  ` 27.Amend61.139asfollows: ` a.Inparagraph(c)(1),theequationdefinitionsfor"_Qaj_"and"_Qbi_"arerevised. @  ` b.Paragraph(d)(2)(ii)isamendedbyrevisingthewords"method21"toread"Method21"wherevertheyoccur. ` c.Inparagraph(g)(1)(vi),thesecondsentenceisamendedbyrevisingthewords"Eitherfollowsection7.1,"IntegratedBagSamplingandAnalysis,"orsection7.2,"DirectInterfaceSamplingandAnalysisProcedure""toread"Eithertheintegratedbagsamplingandanalysisprocedureorthedirectinterfaceproceduremaybeused." ` d.Paragraph(g)(1)(vi)(A)isamendedbyrevisingthewords"section7.1"toread"theintegratedbagsamplingandanalysisprocedure." ,p&0  ` e.Inparagraph(g)(1)(vi)(B),thefirstsentenceisamendedbyrevisingthewords"section7.2"toread"thedirectinterfacesamplingandanalysisprocedure." ` f.Paragraphs(h)(3),(h)(3)(ii),and(h)(4)(ii)areamendedbyrevisingthewords"method18"toread"Method18"wherevertheyoccur. ` Therevisionsreadasfollows:61.139Provisionsforalternativemeansforprocess 0  vessels,storagetanks,andtarinterceptingsumps.   ***** ` _(c)_Ԁ*** ` (1)***0 ` _Qaj_0 ` (#` (#=0 (# (#volumetricflowrateinventsafterthecontrol  device,standardcubicmeters/minute(_scm_/min)[standardcubicfeet/minute(_scf_/min)].  (# (# __0 ` _Qbi_0 ` (#` (#=0 (# (#volumetricflowrateinventsbeforethe p controldevice,_scm_/min(_scf_/min).  (# (# ******** P-'2  61.155[Amended]  @  ` 28.In61.155,thesectionheadingisamendedbyrevisingthewords" _asbesto_Ԅcontaining "toread" asbestos  p containing ."  P  61.162[Amended]  p 0  ` 29.Amend61.162asfollows: ` a.Paragraph(a)(1)isamendedbyrevisingthewords"2.5Mgperyear"toread"2.5Mg(2.7ton)peryear." ` b.Paragraph(b)(1)isamendedbyrevisingthewords"0.4Mgperyear"toread"0.4Mg(0.44ton)peryear." 61.164[Amended]     ` 30.Amend61.164asfollows: ` a.Paragraph_(c)_Ԁisamendedbyrevisingthewords"8.0Mgperyear"toread"8.0Mg(8.8ton)peryear." ` b.Paragraph_(c)_Ԁisamendedbyrevisingthewords"1.0Mgperyear"toread"1.0Mg(1.1ton)peryear." ` c.Inparagraph(c)(1),thefirstsentenceisamendedbyrevisingthewords"&   gramsofelementalarsenicperkilogram' `""toread"&  gramsofelementalarsenicperkilogram'#9(poundsperton)." ` d.Paragraphs(c)(1)and(d)(3)areamendedbyrevising;theequationanddefinitionsinparagraphs(c)(2)and(d)(5)arerevised;andthedefinitionsoftheterms P-'0 "Ra"and"Ti"inparagraph(d)(4)arerevised. @  ` e.Paragraph(d)isamendedbyrevisingthewords"8.0Mgperyear"toread"8.0Mg(8.8ton)peryear." ` f.Paragraph(d)isamendedbyrevisingthewords"1.0Mgperyear"toread"1.0Mg(1.1ton)peryear." ` g.Paragraph(d)(2)(_i_)isamendedbyrevisingthewords"emissionrate(g/h)"toread"emissionrate,g/hr(lb/hr)." ` h.Paragraph(d)(2)(ii)(D)isamendedbyrevisingthewords"Section4ofMethod5D"toread"Section8.0ofMethod5D." ` _i_.Paragraph(e)(1)(ii)(D)isamendedbyrevisingthewords"Section4ofMethod5D"toread"Section8.0ofMethod5D." ` Therevisionsreadasfollows:61.164Testmethodsandprocedures. p ***** ` _(c)_Ԁ*** ` (1)Deriveatheoreticaluncontrolledarsenicemissionfactor(T),basedonmaterialbalancecalculationsforeacharseniccontainingglasstype(_i_)producedduringthe12monthperiod,asfollows:@ Ti=(_Abi_'_Wbi_)+(_Aci_'_Wci_)_Bgi_ (`", 0 ` Wwhere: ` (#` (# 3XXN XXX hX30 ` Ti=0N ` (#` (#&   Thetheoreticaluncontrolledarsenicemission +%0 factorforeachglasstype(_i_)' +Ա,g/kg(lb/ton).P-'2N (#N (# 0 ` _Abi_=0N ` (#` (#&   Fractionbyweightofelementalarsenicinthe @ freshbatchforeachglasstype(I)' @. N (#N (# 0 ` _Wbi_=0N ` (#` (#&   Weightoffreshbatchmeltedperunitweightof` N (#N (#  `  N glassproducedforeachglasstype(_i_)' ` ׳,g/kg `  N (lb/ton).0 ` _Aci_=0N ` (#` (#&   Fractionbyweightofelementalarsenicin   _cullet_Ԁforeachglasstype(_i_)' . N (#N (# 0 ` _Wci_=0N ` (#` (#&   Weightof_cullet_Ԁmeltedperunitweightofglass 0  producedforeachglasstype(_i_)' 08,g/kg(lb/ton). N (#N (#  P-'2 0 ` _Bgi_=0N ` (#` (#&   Weightofelementalarsenicperunitweightof @ glassproducedforeachglasstype(_i_)' @,g/kg(lb/ton). N (#N (#  ` (2)*** RB>zx pX @Xdddddddd@E  d0 F   (#(#                     (#(#  0 ` Wwhere: ` (#` (#  ` Yi=0 N Theoreticaluncontrolledarsenicemission   estimateforthe12monthperiodforeachglasstype,Mg/year(ton/year). N (#N (#  ` Ti=0 N Theoreticaluncontrolledarsenicemissionfactor h foreachtypeofglass(_i_)producedduringthe12monthperiodascalculatedinparagraph(c)(1)ofthissection,g/kg(lb/ton). N (#N (#  ` Gi=0 N Quantityofeacharseniccontainingglasstype  (_i_)producedduringthe12monthperiod,kg/yr(ton/yr). N (#N (#  ` K=0 N conversionfactorforunitconsistency,106g/Mg !X# (2,000lb/ton). N (#N (# ***** ` (d)*** ` (3)Determinetheactualuncontrolledarsenicemissionfactor(Ra)asfollows: h)(#- @,Ra=EaP *$/ 0 ` Wwhere: ` (#` (# 0 ` Ra=0N ` (#` (#Actualuncontrolledarsenicemissionfactor, .'3 g/kg(lb/ton). N (#N (# 0 ` Ea=0N ` (#` (#Actualuncontrolledarsenicemissionratefrom  paragraph(d)(2)ofthissection,g/hr(lb/hr). N (#N (# 0 ` P=0N ` (#` (#Rateofglassproduction,kg/hr(ton/hr),   determinedbydividingtheweightofglasspulledfromthefurnaceduringtheemissiontestbythenumberofhourstakentoperformthetestunderparagraph(d)(2)ofthissection. N (#N (#  ` (4)***3XXXXXN X3 ` Ra=0 Actualuncontrolledarsenicemissionfactor, P determinedinparagraph(d)(3)ofthissection,g/kg(lb/ton).  (# (# 0 ` Ti=0 ` (#` (#Theoreticaluncontrolledarsenicemissionfactor,  g/kg(lb/ton),determinedinparagraph(c)(1)ofthissectionforthesameglasstypeforwhichRa   wasdetermined.  (# (#  ` (5)***  RB>zx pX @Xdddddddd@E [ dj  7   (#(#           (#(#  0 ` Wwhere: ` (#` (#  ` U=0 Uncontrolledarsenicemissionrateforthe12 ' * monthperiod,Mg/yr(ton/yr).  (# (#  ` Ti=0 Theoreticaluncontrolledarsenicemissionfactor 0*#. foreachtypeofglass(_i_)producedduringthe12monthperiodascalculatedinparagraph(c)(1)of P-'2 thissection,g/kg(lb/ton).  (# (#  ` F=0 Thecorrectionfactorcalculatedinparagraph  (d)(4)ofthissection.  (# (#  ` Gi=0 Quantityofeacharseniccontainingglasstype(_i_)   producedduringthe12monthperiod,kg/yr(ton/yr).  (# (# 0 ` n=0 ` (#` (#Numberofarseniccontainingglasstypesproduced `  duringthe12monthperiod.  (# (#  ` K=0 Conversionfactorforunitconsistency,106g/Mg   (2,000lb/ton).  (# (# ***** 61.165[Amended]  p0  ` 31.In61.165,paragraph(a)(7)isamendedbyrevisingthewords"allrecordsofmaintenance"atthebeginningofthesentencetoread"Allmaintenance." 61.172[Amended]    ` 32.Amend61.172asfollows: ` a.Paragraph(a)isamendedbyrevisingthewords"75kg/h"toread"75kg/hr(165lb/hr)." ` b.Paragraph_(c)_Ԁisamendedbyrevisingthewords"11.6milligramsperdrystandardcubicmeter"toread"11.6mg/_dscm_Ԁ(0.0051gr/_dscf_)." 61.174[Amended]  @)#,  ` 33.Amend61.174asfollows: ` a.Paragraph(f)(3)isamendedbyrevisingthe ,p&0 definitionsoftheterms _Rc_, _Wci_,and _Wli_. @  ` b.Inparagraph(f)(3),thedefinitionoftheterm"_Hc_"isamendedbyrevising"(h)"toread"(hr)." `   ` Therevisionsreadasfollows:61.174Testmethodsandprocedures.  @ ***** ` (f)*** ` (3)***0 ` _Rc_istheconverterarsenicchargingrate,kg/hr   (lb/hr).*** ` (#` (# 0 ` _Wci_isthetotalrateofcoppermattechargedtoa  copperconverterduringthemonth,kg(lb). ` (#` (# 0 ` _Wli_isthetotalrateofleadmattechargedtoacopper  converterduringthemonth,kg(lb).*** ` (#` (# ***** 61.192[Amended]  p  ` 34.In61.192,thefirstsentenceisamendedbyrevisingthewords"20_pCi_/_m2_s"toread"20_picocuries_Ԁper  !" squaremeterpersecond(_pCi_/(_m2_sec))[1.9_pCi_/(ft2sec)]." "p$  61.202[Amended]  @$&  ` 35.In61.202,thethirdsentenceisamendedbyrevisingthewords"20_pCi_/_m2_s"toread"20_pCi_/(_m2_sec) 'p!* [1.9_pCi_/(ft2sec)]." @)#,   *$. _61.204[Amended]  @  ` 36.In61.204,paragraph(b)isamendedbyrevisingthewords"10picocuriespergram(pCi/g)"toread"10pCi/g(4500pCi/lb)." 61.205[Amended]     ` 37.In61.205,paragraph(b)(2)isamendedbyrevisingthewords"700pounds"toread"318kg(700lb)." 61.207[Amended]     ` 38.In61.207,paragraph(a),thesecondsentenceisamendedbyrevisingtheword"intitial"toread"initial." 61.208[Amended]    ` 39.Amend61.208asfollows: ` a.Paragraph(a)(1)(vi)isamendedbyrevisingthewords"inpCi/g"toread"inpCi/g(pCi/lb)." ` b.Paragraph(a)(1)(iii)isamendedbyrevisingthewords"quantity(inpounds)ofphosphogypsum"arerevisedtoread"quantityofphosphogypsum,inkilogramsorpounds." 61.222[Amended]  ""  ` 40.In61.222,paragraph(a)isamendedbyrevisingthewords"20pCi/m2s"toread"20pCi/(m2sec)[1.9 %@& pCi/(ft2sec)]." ' (  61.241[Amended]  (`"*  ` 41.In61.241,thedefinitionoftheterm"In *@$, vacuum"serviceisamendedbyrevisingthewords"5 `, &. kilopascals(kPa)below"toread"5kilopascals(kPa)(0.7psia)below." 61.24211[Amended]  `   ` 42.In61.24211,paragraph(c)isamendedbyrevisingthewords"760$C"toread"760$C(1,400$F)."    61.2432[Amended]  `    ` 43.Amend61.2432asfollows: ` a.Paragraph(b)(2)isamendedbyrevisingthewords"skip1ofthe"toread"skiponeofthe." ` b.Paragraph(b)(3)isamendedbyrevisingthewords"After5consecutive"toread"Afterfiveconsecutive." ` c.Paragraph(b)(3)isamendedbyrevisingthewords"skip3ofthequartely"toread"skipthreeofthequarterly." 61.244[Amended]    ` 44.In61.244,paragraph(b)(1)isamendedbyrevisingthewords"emissionlimitation.limitationtotestdata"toread"emissionlimitationtotestdata." 61.245[Amended]  P#$  ` 45.Amend61.245asfollows: ` a.Paragraphs(b)(2),(b)(3),(b)(5),(c)(2),(c)(3),(e)(3),and(e)(4)areamendedbyrevisingthewords"ReferenceMethod"toread"Method"wherevertheyoccur. ` b.Inparagraph(e)(3),thedefinitionsoftheterms"HT","K","Ci",and"Hi"arerevised;andtheequationand -&0 definitionsin(e)(5)arerevisedasfollows:61.245Testmethodsandprocedures.  ***** ` (e)*** ` (3)***3XX  XXXX3 ` HT0 =0 (# (#Netheatingvalueofthesample,MJ/scm   (BTU/scf);wherethenetenthalpypermoleofoffgasisbasedoncombustionat25$Cand760mm 0  Hg(77$Fand14.7psi),butthestandard   temperaturefordeterminingthevolumecorrespondingtoonemoleis20$C(68$F). (# (# 0 ` K0 ` (#` (#=0 (# (#conversionconstant,1.740'107(gmole)(MJ)/ p0 (ppmscmkcal)(metricunits)  (# (#  `  =0  4.674'108[(gmole)(Btu)/(ppmscfkcal)] P (Englishunits)  (# (# 0 ` Ci0 ` (#` (#=0 (# (#Concentrationofsamplecomponent"i"inppm,as p measuredbyMethod18ofAppendixAto40CFRPart60andASTMD250467,77,or88(Reapproved1993)(incorporatedbyreferenceasspecifiedin61.18).  (# (# 0 ` Hi0 ` (#` (#=0 (# (#netheatofcombustionofsamplecomponent"i"at %@( 25$Cand760mmHg(77$Fand14.7psi), ' * kcal/gmole.TheheatsofcombustionmaybedeterminedusingASTMD238276or88orD480995(incorporatedbyreferenceasspecifiedin61.18)ifpublishedvaluesarenotavailableor P-'2 cannotbecalculated.  (# (# ***** ` (5)***@)Vmax=K1+K2HT H   Ѐ0 ` where: ` (#` (# 6XX N XXX  X60 ` Vmax=0N ` (#` (#Maximumpermittedvelocity,m/sec(ft/sec).h( N (#N (# 0 ` HT0 ` (#` (#=0N (# (#Netheatingvalueofthegasbeingcombusted,as   determinedinparagraph(e)(3)ofthissection,MJ/scm(Btu/scf). N (#N (#  ` K10 =0N (# (#8.706m/sec(metricunits)hN (#N (#  `  =0 N 28.56ft/sec(Englishunits)8N (#N (#  ` K20 = N 0.7084m4/(MJsec)(metricunits) (# (#  `  = N 0.087ft4/(Btusec)(Englishunits) X *****_  x8 Ѐ61.246[Amended]  @  ` 46.Amend61.246asfollows: ` a.Paragraph(c)(7)isamendedbyrevisingthewords"calendar_days.unrepaired_."toread"calendardays." ` b.Paragraph(c)(9)is_redesignated_Ԁasparagraph(c)(8). 61.252[Amended]     ` 47.In61.252,paragraph(a)isamendedbyrevisingthewords"20_pCi_/_m2_s"toread20_pCi_/(_m2_sec)[1.9 `  _pCi_/(ft2sec)].   61.270[Amended]  @  ` 48.Amend61.270asfollows: ` a.Paragraph(a)isrevised. ` b.Paragraph(e)isamendedbyrevisingthewords"204.9_kPa_"toread"204.9_kPa_Ԁ(29.72_psia_)." ` Therevisionsreadasfollows:61.270Applicabilityanddesignationofsources. 0    ` (a)ThesourcetowhichthissubpartappliesiseachstoragevesselthatisstoringbenzenehavingaspecificgravitywithintherangeofspecificgravitiesspecifiedinASTMD83684forIndustrialGradeBenzene,ASTMD83585forRefinedBenzene485,ASTMD235985aor93forRefinedBenzene535,andASTMD473487or96forRefinedBenzene545.Thesespecificationsareincorporatedbyreferenceasspecifiedin61.18.See61.18foracceptableversions ,p&0 ofthesemethods.***** 61.272[Amended]  `   ` 49.Amend61.272asfollows: ` a.Inparagraph(c)(1)(_i_),thefourthsentenceisamendedbyrevisingthewords"816$C"toread"816$C `   (1,500$F)."    ` b.Paragraph(d)isamendedbyrevisingtheletter"O"inthewords"40_CFR_Ԁ6O.18(e)"toread"40_CFR_Ԁ60.18(e)." 61.301[Amended]  `  ` 50.Amend61.301asfollows: ` a.Thedefinitionsoftheterms"Leak"and"Vapor  tightmarinevessel"areamendedbyrevisingthewords  "method21"toread"Method21"wherevertheyoccur. ` b.Inthedefinitionoftheterms"Vaportighttank `  truckorvaportightrailcar",thesecondsentenceis @ amendedbyrevisingthewords"method27ofpart60"toread"Method27ofAppendixAto40_CFR_Ԁpart60." 61.302[Amended]  @$$  ` 51.Amend61.302asfollows: ` a.Inparagraph(d)(1),thethirdsentenceisamendedbyrevisingthewords"method27ofpart60"toread"Method27ofAppendixAto40_CFR_ԀPart60." ` b.Inparagraph(e)(2),thesecondsentenceisamendedbyrevisingthewords"method21ofpart60"toread"Method -'0 _21ofAppendixAto40CFRPart60." ` c.Inparagraph(e)(2)(ii)(B),fourthsentence,thewords"method21"arerevisedtoread"Method21ofAppendixAto40CFRPart60." ` d.Inparagraph(h),thefirstsentenceisamendedbyrevisingthewords"method27ofpart60"toread"Method27ofAppendixAto40CFRPart60." 61.303[Amended]  0   ` 52.In61.303,paragraphs(c),(c)(1),and(c)(2)areamendedbyrevisingthewords"44MW"toread"44MW(150'106BTU/hr)"wherevertheyoccur. 0  61.304[Amended]    ` 53.Amend61.304asfollows: ` a.Paragraph(a)(4)(iii)isamendedbyrevisingtheword"method"toread"Method." ` b.Inparagraph(a)(4)(iv),thefirstsentenceisamendedbyrevisingthewords"method25Aormethod25B"toread"Method25AorMethod25B." ` c.Paragraph(b)isamendedbyrevisingthewords"a -'2 performancetestaccordingtomethod22ofappendixAofthispart,shallbeperformedtodeterminevisibleemissions.Theobservationperiodshallbeatleast2_hoursandshallbeconductedaccordingtomethod22"toread"aperformancetestaccordingtoMethod22ofappendixAof40_CFR_Ԁpart60shallbeperformedtodeterminevisibleemissions.Theobservationperiodshallbeatleast2hours." 61.305[Amended]     ` 54.Amend61.305asfollows: ` a.Paragraphs(a),(b)(3),and(d)areamendedbyrevisingthewords"44MW"toread"44MW(150'106  BTU/hr)"wherevertheyoccur. ` b.Paragraph(a)(3)(ii)isrevised. ` c.Paragraphs(b)(1),(b)(2),and(b)(3)areamendedbyrevisingthewords"28$C"toread"28$C(50$F)"  wherevertheyoccur. ` Therevisionsreadasfollows:61.305Reportingand_recordkeeping_. "p$  ` (a)*** ` (3)*** ` (ii)Theaveragecombustiontemperatureofthesteamgeneratingunitorprocessheaterwithadesignheatinputcapacityoflessthan44MW(150'106BTU/hr),measured *@$. withthefollowingfrequency:atleastevery2minutesduringaloadingcycleifthetotaltimeperiodofthe -`'2 loadingcycleislessthan3hours,andevery15minutesifthetotaltimeperiodoftheloadingcycleisequaltoorgreaterthan3hours.Themeasuredtemperatureshallbeaveragedovertheloadingcycle.***** 61.342[Amended]     ` 55.Amend61.342asfollows: ` a.Inparagraph(a),thefirstsentence,thewords"10_megagrams_Ԁperyear(Mg/yr)"arerevisedtoread"10_megagrams_Ԁperyear(Mg/yr)[11ton/yr]." ` b.Paragraphs(a)(3),(b),(c),(c)(3)(_i_),(d),and(e)areamendedbyrevisingthewords"10Mg/yr"toread"10Mg/yr(11ton/yr)." ` c.Paragraph(c)(3)(_i_)isamendedbyrevisingthewords"0.02litersperminute"toread"0.02litersperminute(0.005gallonsperminute)." ` d.Paragraph(c)(3)(ii)(B)isamendedbyrevisingthewords"2.0Mg/yr"toread"2.0Mg/yr(2.2ton/yr)." ` e.Paragraph(d)(2)(1)is_redesignated_Ԁasparagraph(d)(2)(_i_). ` f.Inthenewly_redesignated_Ԁparagraph(d)(2)(_i_),thefirstsentenceisamendedbyrevisingthewords"1Mg/yr"toread"1Mg/yr(1.1ton/yr)." ` g.Inparagraph(e)(2)(_i_),thefirstsentenceisamendedbyrevisingthewords"6.0Mg/yr"toread"6.0Mg/yr(6.6ton/yr)." -`'2  61.348[Amended]  @  ` 56.Amend61.348asfollows: ` a.Inparagraph(b)(2)(ii),thefirstsentenceisamendedbyrevisingthewords"1Mg/yr"toread"1Mg/yr(1.1ton/yr)." ` b.Inparagraph(b)(2)(ii)(B),thethirdsentenceisamendedbyrevisingthewords"rangeof0.05to1.0kgofbiologicaloxygendemandperkgofbiomassperday"toread"rangeof0.05to1.0kgofbiologicaloxygendemandperkg(lbperlb)ofbiomassperday." ` c.Inparagraph(b)(2)(ii)(B),thethirdsentenceisamendedbyrevisingthewords"rangeof1to8gramsperliter"toread"rangeof1to8gramsperliter(0.008to0.07poundspergallon)." 61.349[Amended]  p0  ` 57.In61.349,paragraph(a)(2)(_i_)(C)isamendedbyrevisingthewords"760$C"toread"760$C(1,400$F)."    61.354[Amended]  p!0"  ` 58.In61.354,paragraphs(c)(4)and(c)(5)areamendedbyrevisingthewords"44megawatts(MW)"toread"44MW(150'106BTU/hr)." p&0 (  61.355[Amended]  (!*  ` 59.Amend61.355asfollows: ` a.Paragraphs(a)(3),(a)(4),(a)(4)(ii)areamendedbyrevisingthewords"10Mg/yr"toread"10Mg/yr(11 -&0 ton/yr)"wherevertheyoccur. ` b.Paragraphs(a)(4),(a)(5),and(a)(5)(ii)areamendedbyrevisingthewords"1Mg/yr"toread"1Mg/yr(1.1ton/yr)"wherevertheyoccur. ` c.Paragraphs(c)(2)(ii)(F)and(c)(2)(ii)(H)areamendedbyrevisingthewords"10$C"toread"10$C(50   $F)"wherevertheyoccur. `   ` d.Paragraph(c)(2)(v)isamendedbyrevisingthewords"kg/yr"toread"kg/yr(lb/yr)"wherevertheyoccur. ` e.Paragraphs(e)(3),(e)(4),(f)(3),(f)(4)(iv),(f)(5),(_i_)(3)(iv),and(_i_)(4)areamendedbyrevisingthedefinitionsofthetermsusedintheequations;and(f)(4)(iii)and(_i_)(3)(iii)areamendedbyrevisingtheequationanddefinitionsoftermsusedintheequations. ` f.Paragraphs(f)(4)(ii)(B),(f)(4)(ii)(C),(h)(1),(h)(2),(h)(3),(h)(5),(h)(6),(_i_)(2),(_i_)(3)(ii)(B),and(_i_)(3)(ii)(C)areamendedbyrevisingtheword"method"toread"Method"whereveritoccurs. ` g.Paragraph(k)(7)isamendedbyrevisingthewords"6.0Mg/yr"toread"6.0Mg/yr(6.6ton/yr)." ` Therevisionsreadasfollows:61.355Testmethods,procedures,andcompliance ' * provisions. (`", ***** ` (e)*** ` (3)*** P-'2  ` _Eb_0 =0N (# (#Massflowrateofbenzeneenteringthetreatment @ process,kg/hr(lb/hr). N (#N (# 0 ` K0 ` (#` (#=0N (# (#Densityofthewastestream,kg/_m3_(lb/ft3).` N (#N (# 0 ` Vi0 ` (#` (#=0N (# (#Averagevolumeflowrateofwasteenteringthe   treatmentprocessduringeachrun_i_,_m3_/hr  @ (ft3/hr). N (#N (# 0 ` Ci0 ` (#` (#=0N (# (#Averageconcentrationofbenzeneinthewaste `  streamenteringthetreatmentprocessduringeachrun_i_,_ppmw_. N (#N (# 0 ` n0 ` (#` (#=0N (# (#Numberofruns.PN (#N (# 0 ` 106=0N ` (#` (#Conversionfactorfor_ppmw_.N (#N (#  ` (4)*** ` Ea0 =0N (# (#Massflowrateofbenzeneexitingthetreatment  process,kg/hr(lb/hr). N (#N (# 0 ` K0 ` (#` (#=0N (# (#Densityofthewastestream,kg/_m3_(lb/ft3). N (#N (# 0 ` Vi0 ` (#` (#=0N (# (#Averagevolumeflowrateofwasteexitingthe p treatmentprocessduringeachrun_i_,_m3_/hr @  (ft3/hr). "N (#N (# 0 ` Ci0 ` (#` (#=0N (# (#Averageconcentrationofbenzeneinthewaste `" $ streamexitingthetreatmentprocessduringeachrun_i_,_ppmw_. N (#N (# 0 ` n0 ` (#` (#=0N (# (#Numberofruns.' *N (#N (# 0 ` 106=0N ` (#` (#Conversionfactorfor_ppmw_.(`",N (#N (#  ` (f)*** ` (3)*** ` _Eb_0 =0N (# (#Massflowrateofbenzeneenteringthe P-'2 combustionunit,kg/hr(lb/hr). N (#N (# 0 ` K0 ` (#` (#=0N (# (#Densityofthewastestream,kg/_m3_(lb/ft3).N (#N (# 0 ` Vi0 ` (#` (#=0N (# (#Averagevolumeflowrateofwasteenteringthe `  combustionunitduringeachrun_i_,_m3_/hr   (ft3/hr). @N (#N (# 0 ` Ci0 ` (#` (#=0N (# (#Averageconcentrationofbenzeneinthewaste   streamenteringthecombustionunitduringeachrun_i_,_ppmw_. N (#N (# 0 ` n0 ` (#` (#=0N (# (#Numberofruns. N (#N (# 0 ` 106=0N ` (#` (#Conversionfactorfor_ppmw_.PN (#N (#  ` (4)*** ` (iii)***@*Mi=_DbVC_(106)  0 ` wwhere: ` (#` (#  ` Mi0 =0N (# (#Massofbenzeneemittedduringrun_i_,kg(lb). N (#N (# 0 ` V0 ` (#` (#=0N (# (#Volumeofairvapormixtureexhaustedat p standardconditions,_m3_(ft3).@ N (#N (# 0 ` C0 ` (#` (#=0N (# (#Concentrationofbenzenemeasuredinthe  " exhaust,_ppmv_. N (#N (# 0 ` Db0 ` (#` (#=0N (# (#Densityofbenzene,3.24kg/_m3_(0.202lb/ft3).#&N (#N (# 0 ` 106= N Conversionfactorfor_ppmv_.%@(` (#` (#  ` (iv)*** ` Ea0 =0N (# (#Massflowrateofbenzeneemittedfromthe (`", combustionunit,kg/hr(lb/hr). N (#N (#  ` Mi0 =0N (# (#Massofbenzeneemittedfromthecombustionunit +%0 duringrun_i_,kg(lb).P-'2N (#N (# 0 ` T0 ` (#` (#=0N (# (#Totaltimeofallruns,hr.@N (#N (# 0 ` n0 ` (#` (#=0N (# (#Numberofruns.N (#N (#  ` (5)*** ` R =0 N Benzenedestructionefficiencyforthe   combustionunit,percent. N (#N (#  ` _Eb_0 =0N (# (#Massflowrateofbenzeneenteringthe   combustionunit,kg/hr(lb/hr). N (#N (#  ` Ea0 =0N (# (#Massflowrateofbenzeneemittedfromthe 0  combustionunit,kg/hr(lb/hr). N (#N (# ***** ` (_i_)*** ` (3)*** ` (iii)***  RB>zx pX @Xdddddddd@E   _ db B n   (#(#                     (#(#    R B>zx pX @Xdddddddd@E  _ db B n ߰B" XS  pXXX N XB ` Maj0 m =0 m (#m (#Massof_organics_Ԁorbenzeneintheventstream ' * enteringthecontroldeviceduringrunj,kg(lb).  (# (#  ` _Mbj_0 m =0 m (#m (#Massof_organics_Ԁorbenzeneintheventstream +%0 exitingthecontroldeviceduringrunj,kg P-'2 (lb).  (# (#  ` _Vaj_0 m =0 m (#m (#Volumeofventstreamenteringthecontrol  deviceduringrunj,atstandardconditions,_m3_ `  (ft3).  (# (#  ` _Vbj_0 m =0 m (#m (#Volumeofventstreamexitingthecontroldevice  @ duringrunj,atstandardconditions,_m3_(ft3).  (# (# 0 ` _Cai_0m ` (#` (#=0 m (#m (#Organicconcentrationofcompound_i_Ԁorthe `  benzeneconcentrationmeasuredintheventstreamenteringthecontroldeviceasdeterminedbyMethod18,_ppm_Ԁbyvolumeonadrybasis.  (# (# 0 ` _Cbi_0m ` (#` (#=0 m (#m (#Organicconcentrationofcompound_i_Ԁorthe  benzeneconcentrationmeasuredintheventstreamexitingthecontroldeviceasdeterminedbyMethod18,_ppm_Ԁbyvolumeonadrybasis.  (# (# 0 ` _MWi_0m ` (#` (#=0 m (#m (#Molecularweightoforganiccompound_i_Ԁinthe  (# (#  `  m 0 ventstream,orthemolecularweightofbenzene,kg/kgmol(lb/lbmole).  (# (# 0 ` n0m ` (#` (#=0 m (#m (#Numberoforganiccompoundsintheventstream;  " ifbenzenereductionefficiencyisbeingdemonstrated,thenn=1.  (# (# 0 ` K10m ` (#` (#=0 m (#m (#Conversionfactorformolarvolumeatstandard %@( conditions[293Kand760mmHg(527Rand14.7_psia_)]  (# (# 0 `  m =0 ` (#` (#0.0416kgmol/_m3_(0.00118lbmol/ft3)0*#. (# (# 0 ` 106 m =0 ` (#` (#Conversionfactorfor_ppmv_.+%0 (# (#  ` (iv)*** P-'2  ` Ea0 m =0 m (#m (#Massflowrateof_organics_Ԁorbenzeneentering @ thecontroldevice,kg/hr(lb/hr).  (# (#  ` _Eb_0 m =0 m (#m (#Massflowrateof_organics_Ԁorbenzeneexiting `  thecontroldevice,kg/hr(lb/hr).  (# (#  ` Maj0 m =0 m (#m (#Massof_organics_Ԁorbenzeneintheventstream  @ enteringthecontroldeviceduringrunj,kg(lb).  (# (#  ` _Mbj_0 m =0 m (#m (#Massof_organics_Ԁorbenzeneintheventstream 0  exitingthecontroldeviceduringrunj,kg(lb).  (# (# 0 ` T0m ` (#` (#=0 m (#m (#Totaltimeofallruns,hr. (# (# 0 ` n0m ` (#` (#=0 m (#m (#Numberofruns.p0 (# (#  ` (4)*** ` R m =0 Totalorganicreductionefficiencyorbenzene P reductionefficiencyforthecontroldevice,percent.  (# (#  ` _Eb_0 m =0 m (#m (#Massflowrateof_organics_Ԁorbenzeneentering @  thecontroldevice,kg/hr(lb/hr).  (# (#  ` Ea0 m =0 m (#m (#Massflowrateof_organics_Ԁorbenzeneemitted `" $ fromthecontroldevice,kg/hr(lb/hr).  (# (# ***** 61.356[Amended]  ' *  ` 60.Amend61.356asfollows: ` a.Paragraph(b)(2)(_i_)isamendedbyrevisingthe  *@$. _ords_Ԁ"0.02litersperminute"toread"0.02liters(0.005gallons)perminute." ` b.Paragraph(b)(2)(_i_)isamendedbyrevisingthewords"10Mg/yr"toread"10Mg/yr(11ton/yr)." ` c.Paragraph(b)(2)(ii)isamendedbyrevisingthewords"2.0Mg/yr"toread"2.0Mg/yr(2.2ton/yr)." ` d.Paragraph(b)(4)isamendedbyrevisingthewords"6.0Mg/yr"toread"6.0Mg/yr(6.6ton/yr)." ` e.Paragraphs(j)(4),(j)(5),and(j)(6)areamendedbyrevisingthewords"28$C"toread"28$C(50$F)" P wherevertheyoccur. ` f.Paragraph(j)(6)isamendedbyrevisingthewords"44MW"toread"44MW(150'106BTU/hr)"whereverthey  occur. ` g.Paragraph(j)(8)isamendedbyrevisingthewords"6$C"toread"6$C(11$F)"wherevertheyoccur. p  61.357[Amended]  @   ` 61.Amend61.357asfollows: ` a.Paragraphs(b)and_(c)_Ԁareamendedbyrevisingthewords"1Mg/yr"toread"1Mg/yr(1.1ton/yr)"wherevertheyoccur.  `' !*  ` b.Paragraphs_(c)_Ԁand(d)areamendedbyrevisingthewords"10Mg/yr"toread"10Mg/yr(11ton/yr)"wherevertheyoccur. ` c.Paragraphs(d)(6)(iii)(A),(d)(6)(iii)(B),and(d)(6)(iii)(C)areamendedbyrevisingthewords"28$C"to  @ read"28$C(50$F)"wherevertheyoccur.    ` d.Paragraph(d)(6)(iii)(C)isamendedbyrevisingthewords"44MW"toread"44MW(150'106BTU/hr)." 0   ` e.Paragraph(d)(6)(iii)(E)isamendedbyrevisingthewords"6$C"toread"6$C(11$F)." P