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POST CERTiFICATE WITNIN 3' OF ELECTRICAL PANEL• TABLE R4fl2.4.1.1 Z m `
<br /> R401.3 CERTIFICAIE(YAWDATOR�. A PERMANENT t�RTIFlCATE SHALL 8E CO�IPIETED 8Y THE BUILOER QR REGlS1EREQ �Si(�1 R403.3.4. UUCT LEAICAGE(ki1WDATORI�. THE TOTAL LEAKAGE � i}� OUCTS, M�fRE �iEASURED W ACCORD/� iM1H SECTION AIR BARRIER AND INSULATI�1 INSTALLA110N � y �
<br /> PROFESS{ONAL AND POSIED ON A WALL IN THE SPACE 1MiERE iNE FURNACE IS LOCATED, A U1�.ITY R001�1, OR AN APPRdVED R403.3.3, SHAIL BE AS fO110W5: 1. ROIJGH-IN TEST: TOTAL LEAKA(� SFUUl� IESS 1HAN OR EQUAL TO 4 CF1Y1 (113.3 L/I�IIN) �� M�
<br /> LOCATION INSHIE TNE BUtLDING. WHEN LOCATED QN MI ELECTRICAL PANQ THE CERTIFlCATE SHALL. NOT C�VER OR OBSTRUCT PER 100 SQUARE FEET(9.29 M2) OF CONqT10NE0 F100R AREA WHEN IESiFD AT A PRESSURE �fFERENIIAL OF 0.1 INqiES W.G. ��P4NENT CRITEPoA° z¢ �,r o� :
<br /> iHE VISIBILITY OF iHE qRCUIT DIRECTORY LABEL, SERVICE qSCOF�CT LABEL, aR OTHER REQUIRED LA�LS. 1NE CERi1FICATE (25 PA) ACROSS THE SYSTEN, INCLUDING 1}� NAMUFACTURER'S AIR HANDLEFt ENCLOSURE. ALL REqSTERS SHAl1 8E TAPED OR AIR BARRIER ANO THERMAL BARRIER A tX1NN11NU0US NR BARPo[�R SHALL ff INSTAIJ.ED IN iHE BULDING EHVEtOPE. 0(1ERIOR 1FE72MAL ENVQOPE OONTNNS A � �� ,�;�
<br /> SHALL UST 11iE PREDOMINANT R-VALUES OF INSULATION INSTNI.ED IN OR ON CEIUNG/h00F, W/�ILS, FOUNDATION (SI.AB, oTHERNASE SEALED DURING 1HE TEST. IF THE AIR HANOLER IS NQT INSTALLED AT THE TIME OF 1HE IEST, TOTAI IEAKAGE SHALL Cq�I11MJ0US A�t BARRIER.Bt�Ju(S UR JOINTS IN TFIE AIR eARRIFR SHNL�SEAI.ED. NR-PEI�IEAeI.E NSUUTiq�l�IALL NOt �F �a�
<br /> BELOW-GRADE WALL, AND/(lR FLOOR) ANO DUCTS OUTSIDE CqV01TI0NED SPACES; U-FACTORS FOR FENESTRATION AND THE BE LESS THAN OR EQUAL TO 3 CFTrt (85 L//I�IIMI) PER 104 SQUAR£ FEET(9.29 N2j OF CONOITIONED FLOOR AREA.2 �� �A���A��" z �� N N ' .
<br /> POSTCdNSTRUCTiON iEST: IEAKAGE TO tx11D00RS SHal BE LfSS iNAN aR EQUAL T04 CFA1 (113.3 L/MIN) PER t00 S4uARE CAVITY INSULA110N INSTALLATION au c�Hn�s� t� n�a�.avao�s��e�FlUFu w�r�s�non. tt�oa�n a�n�Hwunar� s��u e�ar o a� ��
<br /> SOLAR HEAT GAIN CAEFFIqENT(SHGC) OF FENESiRA110N, ANO THE RESULTS FROM MIY RE{�U�iED DUCT SY51IId AND �lILOING � o
<br /> �EET (9.29 M2) OF CONOI1IaNE0 FLOUR AREA OR TOTAL LEAKAGE SHAIL BE LESS THAN OR EQUAL TO 4 CF1�1 (113.3 L/M iIN) PER m�r�,��c�u�s'�aoucr r�car�ao�no� x+o sw oa�n sn�u e��f�r�n FaR �u.vau�a�E�c�►wn <�
<br /> ENVELOPE AIR LEAI(AGE TEST�IG O4WE ON THE BUILOING. WHERE TI�RE IS AIORE THAN ONE VALUE FOR EACH COtdPONENT, THE eATT TYPE�l1U110N MIt1 SHOw NO V�IDS OR GMS ANO YNNTNN AN EVEN �NSITY FOR 1HE EN1�E CAHTY. eATf = �
<br /> CERTIFICAIE SIiALL UST THE YALUE C04ERING THE LAftGEST AREA. THE CERTIFlCATE SHALL LIST T}� TYPES AND E�'IC�NCIES OF 100 SQUA(� fEET(9.29 M2) OF CON�TIONED fL�R AREA iM�N TESIED AT A �tESSIIRE DIFFERENTIAL OF 0.1 INqiES W.G. (25 INSU�AiIp� g�At18E N�STN1fD�1 1FIE RECOA�IENDm CANiY OEP1H. NNERE MI fleSiRUCT10N W 1tIE CAM1Y DUE TO °° W 85
<br /> HEATING, COOUNG AND SERYtCE WATER HEATING EqUIPMENL MNERE A GAS-FlRED UNVE�IIED ROOM t�ATER, ELECTRfC FtJRNACE, PAl ACROSS THE ENi1RE 5Y5'tE�i, iNCLUDING THE AIANUFACTURER'S A�t NNVDLER ENaQS�E. N_L REqSTER BOOTS SHALL� � �.ax� e�na�c at ot�rt oesmuct�E�asts, n�enn�taouct�e�cur m Flr n��u�c oEaM �3 ��
<br /> TAF�ED OR 41HERWISE SEALEO OUI�NG THE TESL Of THE CANTY. �TFE BATT IS q1T MOUND�STRUC1tONS� LOOSE FlLL nVSULAl10N SHN.L 8E PUCED TO fll ANl( �� rn
<br /> OR 8ASE8QAR0 ELEC1RIC HEATER IS �ISTAUFD IN iHE RESIOENCE, THE CEFtTIFICATE SHALL UST 'GAS-FlRED UNVENTEQ ROOAi R403.3,5 BUILOING CAVITIES AIANOATOR BUILDING FRANING CANTIES SHALL NOT BE USED AS OUCTS OR PLENUMS. SURfACE OR CUNCENFO 1IOIOS, AND AT TIiE YANUFACTURERS'SPECFim DENSiTIf. NkERE fACEO BATT IS USED, 1F� � W~- �N
<br /> HEAiER,' "ELECTRIC fURNACE' OR 'BASEBOARD ELECTt�C HEATER,' AS APPROPPoATE. AN EFFIqENCY�iALL NOT BE USiE'D FOR � � INST11lJ.AT10N TABS MUST 8E STAPIID TO THE fACE OF TF�SiUO. 1HERE s�w.6E aa�a� m n�E B�Tf�T THE � �� `n°O
<br /> INSTAUATION OF DUCTS IN RIOR WA , FLOORS t�t CEIUNGS SHHLI.NOT DISPLACE REQUIRED ENVELOPE INSULAIIWV �
<br /> EDGES Of 1HE CAVITY OUE TO INSET STAPt�IG INSTAtJ.AiION TABS. = y rn
<br /> G A S-Fl R E D U N V E N 1 E D R O O A 1 H E A T E R S, E L E C T f�C F U R N A C E S O R E l F C T R I C B A S E B O A R D H E A T E R S �
<br /> R403.4 YECHAI�ICAL SYSiEM PIPING INSULATION (MANOATORY). MECHAPHGAL SYSTEM WPING CAPA9LE OF CARRYING FLUIDS ABQVE INSUUTIUN 1HAT UPUI INSTN.LATION ftfJ10LY OONfORMS TO AYAIIABIf SPACE SHALL�INSTNIFD FlLLNG THE ENTiRE CAN w `"N �n�
<br /> DESIGN CONOITIONS: 105'F (41'C) OR BEIOW 55F (13'C) SHALL BE INSULATEQ TO A MINIMUN OF R-6. EX(�RTl�ti: UP TO 2()0 FEET aF HYORONIC NrD Wt1Fi�1 1F�MNiUfACTURERS'OENSIIY REt�1a1DA110N• W �� Q
<br /> SYSTEN PIPiNG INSTALLEU MlTHIN iHE CONDITI(INED SRACE MAY 8E INSUUTED WITH A IrttlN�lU�I OF J�-INCN INSULATION 4N1H A K � �,�' ��
<br /> R302.1 INTERIOR OESIqV WNDI110NS. THE INTERIOR DESIGN 1EaIPERATURES USED FOR HEAT1NG ANO CO�UNG 10A0 CALCULAiIONS CEIUNG ATT1C 1FE NR 9ARRIER IN ANY OROPPED CEIUNG/SOfFlT SHALL�ALIGt�D WIiH 1HE NISI�AliON AND JWY GAPS IN iliE NR
<br /> YAWE OF 0.28. � g � �''�
<br /> SHAIl 8E A 11Abt�lUAI OF 72F (22'C) FOR HEAiiNG ANO YIN�iUY Of 75f (24C) FOR COOLJNG. BARRlER SEALED. ACCESS aPE1�NGS,ORaP OONN STNR OR KtEE WN.L UOURS TO 1NC01+�ITI0t1EU ATf1C SPA�S SHALL 8E � � �,�
<br /> R302.2 EXTERIOR DESIGN CONDI110NS. THE HEAIING OR COOLING OUIDOOR DESIGN TEMPERATURES SHALL BE SELECTED FRO�I R403.4.1 PROIECTiON � PIP�IG INSULATI(lN. PI�NG INStA.ATION E�OSED TQ wEATHER S�-IALL BE PROTECIED FROM DAMAt�, SEAIfD. BATT�I91L.ATIW INSTALLID IN ATOG ROOF A�NAY 8E�AT EXTEPoOR WPLL UNES TO ALL4W FnR � --
<br /> APPENOIX C. INCLU�NG THAT CAUSED 8Y SUNLIGHT, YqS1URE, EQUIPMENT NNNTENANCE, AND WIND, AND SHALL PROVIDE SFIIEL�IG FRON �Qui�n �rnC vanh�.
<br /> SOLAR RA�ATit1N 1HAT CAN CAUSE OEGRADATION OF THE �iATER1AL. AOHESIVE TAPE SHALL NOT BE PERMITfEO. WALLS 1HE,�uNCTION OF 11iE�ATroN MIO Su1 PutE SMAt1 eE SEN.ED. 1HE,�lNC1ION af iHE TaP PUTE M� TOP OF
<br /> BUILDING THERI�AL ENVELOPE REQUIREMENTS: R�o3.5 s�wc� Hor wa�tt srs�s. Er�cr ca�satvanar �EasuREs fat satv� Hat wat�t srst�s s��eE iN Ex�o�w�u.s s�w.e�s��o. a�M�us s��u.e�s�ru�n. c�v�nEs►x�r, ca��s µo�o�s a���wE wu,_s
<br /> ACCOROAN(� WItH SECi1�IS R403.5.1 THROUGH R4U3.5.5. SHAu 8E NSuutED 8Y Ca1P�ElEtY FlWNG 1HE GNTY YNTH A YAIERINL HAVMIG A THERMAL RESISTANCE af R-3 PER Npi oo "
<br /> INSULATION: �.E� n�r�au�.�a�su�ana� Fa��wm ww.s s��u eE u�sru�o n� suesTa�nu.co�racr�wo �o �
<br /> UNLESS NOTED OTHERWISE, INSULA11aN TO BE PER WSEC TABLE R402.1.1, CLIMATE ZUNES 5 AND MARINE 4, AND THE SPEqFlC R4a3.5.1 HEATED WATER C�CULATION ANO 1EMPERAIURE MNNIENANCE SYSIEM (11ANOATaRY). HEATEO WATER qRCULATIQN (jON11NU0US N1t�lT NITH iHE NR BMRIER.
<br /> REQUIRENIENTS OF SEC110NS R4022.1 THROUGH R4022.11. Sl"STENS SHALL BE IN AC�ORDANCE WI1H SECTION R403.5.1.1. HEAT 1RACE lE1lPERAit�MA�lTENMICE SYSTENS SHALL BE IN o 0
<br /> RE ACCOROANCE w11H SECi1aW R403.5.1.2 AUT4MATiC CANTROLS, 1E1�11PERATURE SENSORS ANO PUMPS SHAt1 � ACCESSIBLE. WINDOWS, SKriJGHTS ANO DOORS m�s��eErr� wn�ooN/booR d�uaas�wo r��wc �rn�ucnTs���c sriui.a�s�uFo. � �
<br /> FENESTRATION: �ariva� ccx+rnt�.s s�au.� �aa�Y accEs��. r� �asrs r�r,�asrs s�u�.��r�+�a�wo� n�,v�e�.
<br /> R402.3 FENESiRATiON (PRESCRIPTiVE). IN ADOITION TO THE REQUIREIIENTS OF SEC110N R402, FEPIESTRA110N SHALL COAIPI.Y IMTH R403.5.1.1 qRCULATWN SYSTENS. HEATED wATER C�2CULATION SYSTEMS SHALL �PROVIDEO 4NTH A (�RCULaTION Pt1�P. TNE �pp� (q�aU�NG ABOVE-GARAGE AND ��nari s�ul eE ursruim m��rn� �n�r conr�Cf wn�uroEes�oE o�SUB�tooR oEaaNG. tHE n�t �
<br /> SEC110NS R402.3.1 THROUGH R442.3.5. SYSTEII RETURN P�E SHALL BE A DEDICATED RETURN PIPE OR A COLO WATER SUPPLY PIPE. GRAWTY AND TNER110-SYPHON BARRIER SHNl BE INSTAUID AT hNY E�OSFD EDGE OF INSu_AiION.
<br /> qRCULAl10N SYSTEMS SHALL BE PR4HI81TED. CONTROLS FOR qRCULATING HOT WATER SYSTEM PUMPS SHALL START THE PUMP CANIILEVERED FLOORS) p
<br /> AIR LEAKAGE: BASED ON THE �EWT�ICAiION OF A DEt�1AN0 f4R HOT WATER WITIiIN THE OCWPANCY. THE CONIROLS SHALL AUTOI�AiiCALLY CRAN�. SPACE WALLS Mt►ERE PROVID�D M1 uEu OF Fl.oOR NSUI.Aiit+N, u�suu�na�s��u.e�r�,warnr�n�m ro�c��r��w,�us. .
<br /> R402.4 AIR LEAI(A(� (MANDAT Y}. THE BUILDING THERMAL ENVEIOPE SFfALL 8E CONSTRUGTED TO LINIT AIR LEAKAGE IN �� � �E PUA1P WHEN THE WA1ER IN THE CIRCULAT1tMV LOOP IS AT THE DESIRED IEMPERATURE AIVD WHEN TF�RE IS NO EXPOSED EAR1H IN UNVENIED CRAIM.SPACES SHALL 8E COVEAfD wI1H A CIASS I VMaR RETARDER IMTH OVFR�APPING JOINT'S
<br /> ACCOROANCE NITH THE REQUIREMENTS OF SECTIONS R402.4.1 THROUGH R402.4.4. DEYANO FOR HO? WATER. T�•
<br /> R402.4.1 BUILDING iHERMAI ENVELOPE. i}1E BUILOIN6 THERNAL ENVELOPE SHALI CONPLY fMTH SECTIONS R4424.1.1 AND R403.5.1.2 HEAT TRACE SYSiEMS. ELECTPoC HEAT TRACE SYSTEMS SFIALL COMPLY YYITN IEEE 515.1 OR UL 515. C�NIROLS FOR �q�, pQrE1RATI0NS ���, UIUJTY PErE1RA110NS, AI�f111E SHAFTS OPENING TO EX1E7iIDR UR UNCONDIIIQNED SPACE SNIUl.8E SEALED.
<br /> R402.4.1.2. THE SEAUN6 iaETHODS �TMIEEN DISSIi�UR UATERtALS SHALL ALLOW FOR OifF'ERENIIAL EXPANSION AND S�1CN SYSTENS SHALL AUT011AT1CALLY ADJUST THE ENER6Y INPUT TO THE t�AT TRAqNG TO AI{UNTAIN 1HE DESIi�D WATER
<br /> CONTRACTION. 1ENPERATURE IN 1HE PIPING IN AOGQRDMl� IMTH THE TIf�S WHEN t�ATED WATER IS USEQ IN THE �0(XIPANCY. NARRQW CAVITIES BAT15 IN NMftOW CANIIES SIIAI.L 8E CUT TO FlT N�10 NSTAl1FD TO 1HE CORRECT OENSITY WiHOUT ANY VO�S OR GAPS OR
<br /> R403.5.2 QEAIfWO REqRCUlATION SYSTEMS. A WATER OISTRIBUTION SYSTEM HAVING ONE OR AiORE REGRCULATION PUMIPS THAT �ON• NIIRRON CA4ITIES 5HlW.ff Ftl1.ED 81f INSUJII�N 1HAT Q9�VSTN.LATION REAqUf t�NffURAiS TO 1HE AV
<br /> R402.4.1.1 INSTALLATION. iHE CUMPONENTS OF THE BINLDING THERMAL ENVELOPE AS USTED IN TABLE R4Q2.4.1.1 SHALL 8E CA+ATY SPA�
<br /> INSTALLEO IN AC()OROANCE WITH THE NANUFACTURER�S INSTRUCTIONS AND 1HE CRIIERIA L1S1ED IN TABLE R4024.1.1, AS � wAIER FROAi A HEATED WAIER SUPPIY PIPE BAq( TO iHE HEATED NATER S4URCE 1HROUGH A COLD WATER SUPPLY PIPE
<br /> APPlICABLE TO THE YE1H00 aF CONSTRUCiION. WHERE REQIJiRED BY THE CODE OfFlqAI, AN APPROVED THIRD PARTY SHALL ��- � A OE�IAND REqRCULATION WATER SYSTEF�I. PUYPS SHALL HAVE CONTROLS THAT COMPLY YNTH 801H OF THE 6ARAGE SEPARA110N NR SEIUING SHAtl BE PROV�ED BEtY�FFN 1FE GARAt�MID QONDITIONED SPACES. -
<br /> FOLLOINNG: 1. THE CflNTRdL SHALL START THE PUAIP UPON RECEIVING A SIGNAL FROM THE ACTION t1F A USER aF A FlXIURE OR co �
<br /> INSPECT ALL COYPONENTS AND VERIFY COMPUANCE. APpLIANCE, SENSING THE PRESENCE OF A USER OF A FlXNRE OR SENSING THE fLOW OF HQT OR TE�IPERED WAiER TO A (�CfSSED 11qiT1NG �� ��T FlXNRES INSTALIED IN THE BUILDING iHFRNAI fN4ELOPE St1Al1 BE AIR TIGHT, IC RAtED, At�O SEAIED TO THE �
<br /> R402.4.1.2 lEST1NG. iHE BUILDING OR OWEWNG UNIT SHALL BE TESTED ANO VE(�FlED AS HAVIN6 AN AIR LEAI(AGE RATE Of NOT FlXTURE FlTTING OR APPLIANCE. 2 1HE CONTROL SHAI.L LJMIT THE TEMPERAIURE OF 1HE WATER ENIERING THE COLD WATER ��� � �
<br /> EXCEEDING 5 NR CHANGES PER HWR. 1ES11NG SHALL BE CONDUCTED W1TH A BLOWER DOOR AT A PRESSURE OF 0.2 INqiES P�NG TO 104'F(40 'Cj. PLUMBING AND YNRING eATf INStkATIdN SHAt18E q1T NEAiLY TO FlT AROUND N�ING M�PLU�181NG p�EX1El�OR MIN.�S. TIiERE SHALL BE NO `j Q N
<br /> W.G. (50 PASCALS). MIHERE REQIlIRED BY THE (:OOE OFfIqAI, TESTING SHAIL BE CONDUCTED BY AN APPROVED TFNRD PARTY. A R�03.5.3 HOT WATER Plf� INSULATtt�! PRES(�t1P11YE. �1SStA.Ai1dN FOR HQT WA1ER P�'E, �1H WI1H�1 AMO DUT�� THE vi0�s OR GAPS OR�ON MMERE CUT TO EtL�15Ut.AtiON 1HAT UN MISTALLAiION READtIY Cq�tFOl�IS TO AVAlt_AeIE � x �
<br /> WRITTEN REPORT OF THE RESIJLTS OF THE TEST SHALL BE SlGNED BY 1HE PARTY CONDUCTING TNE TEST ANO F�20N�D TO 1HE � � 'A ����a������
<br /> CaQE flFE1CIAL. TESTING SHAIL � PERFORAIED AT ANY 11�1E AFTER CREATION Of ALL PElVE1RATI0NNS OF THE BUILD�IG THERNAL C O N D I T I a N N E D S P A C E, S H A L L H A V E A N I N I M U N i H E R Y A L R E S I S T A M C E R-V A t.U E) 4 F R-3. E X C E P T I O N: W P E I N S U L A T l O N i S Z � �
<br /> PERMII`TED TO 8E DISCQNTiNUOUS YYHERE IT PASSES THROUGH STUO J�ISTS OR O1HER STRUCT1�tAL ME�iBERS AND WHERE iHE g{pyy� �8 QN EX1ER14R WAI.L EX1E]t�OR WAi1S ADJACENT TO SHOMERS AND NBS SHN.L BE�SUlATEO ANO 1HE NR eNtRIER INSTAUED SEPARATMG TtiEll � m N
<br /> ENVELOPE ONCE VISUAL IN�'ECTION HAS CONFlRAIED SEALING (SEE TABLE R4024.1.1 j, OPERABLE IMNDOWS AND DOORS �$��p�D PIPES PASS QTHER PIPING, CONDUIT OR VENTS, PROVIt�D THE INSULATION IS INSTALLED 11GNT TO EAqi OBSTRUC110N. � �I 1HE SFiO�RS M1D 1UBS. � �
<br /> AIANUFACTURED BY SUAIL BUSINESS SHALL 8E PERMITTEO TO 8E SEALEU OFF AT iHE FRAME PRIOR TO THE TEST.
<br /> QECTRICAL/P HONE 80X ON EXTERIOR WALLS THE NR BARRIER SHNJ.BE INSTNIID BEHND ELECTf�CAI aR COANIUNICATION BQX6 OR NR SEAIfD BO�S SHAl18E � �
<br /> DURING TESTING: R�U3.5.4 DRAIN WATER HEAT RECOVERY UNITS. DRAIN WATER HEAT RE(�VERY UPIITS SHALL CONPLY WITH CSA 55.2. DRAIN INSTAu.EO.
<br /> t. EXTERIOR iMNDOWS ANO DOORS, FlREPLACE ANO STOVE DOORS SHALL 8E CLOSED, BUT NQT SEALEQ, BEYOND THE INTENOED WATER HEAT RECOVERY UNITS SHALL BE IN ACCORDANCF WITH CSA 55.1. POTABLE WATER-SIOE PRESSURE LOSS aF DRAIN HVAC REqSTER 800TS HVAC REqSTER BOOTS THAT PENetRATE eUaOING 1FiE�r1Ai ENYE�UPE SHN18E SEN.FD TO 1HE SUBFl00R aR ORYWAtL
<br /> WEATHERSTRIPPIN6 OR 4THER INFlLTRATION C(�iTRal. I�IEASURES; WATER HEAT RECOVERY UNITS SHALL BE LESS THAN 3 PSI (20.7 kPa) FOR INqVIOUAL UNITS CflNNECTED TO ONE OR TWO
<br /> 2 DAI�FRS INCLUDING EItHAU5L INTAKE, NAKEUP AIR, BACKORAff ANO FLUE OAMPERS SHALL BE q.OSEO, BUT NOT SEALED g.�y�� pOTA�E WA1ER-SIOE PRESSURE LOSS OF DRNN WATER HEAT RECOVERY UNns SHAIL eE IESS 1HAN 2 P� (13.& CONCEA�EO SPRINKLERS �+ �� �� �+�. ������+��Y��ID� A uMINER 1H�T�s RECU�NDED BY
<br /> BEYOND INIENQEQ IP�ILTRATION CONTRQL NEASURES; kPn) FOR INDIVIOUAL U�q?S (�NNECTED TQ THREE 4R MORE SHOWERS. TNE YANUFACNt2ER. CAUI1aNG OR O1HER ADHESIYE SEALANTS SHML NOT�USED TO FllL V'O�S 8E1MIEfN fIRE SPRNKLER
<br /> 3. INTERIOR DOORS, IF INSTALLEO AT THE TIA1E OF THE TEST, SHAIL BE OPEN, ACCESS HATqiES TO CONDI110NED CRAWL SPA(�S CovER�ATES Arro wk1S oR C�uNGs.
<br /> AND LbWDITIONED ATfI(S SHALL BE �PEN; R403.5.5 ELECTPoC WATER HEATFR INSULATtON. ALL ELECiRIC WATER HEAiERS IN UNHEATED SPACES OR ON CONCRETE FLOORS
<br /> 4. EXTERIOR OPEMINGS FOR CONTINUWS VENT1LAl1qV SYSTEhIIS ANO HEAT RECOVERY VENTILATORS SHALL BE CLOSED AND SHAIL 8E PLACEO UN AN INCOrIPRESSIBLE, INSULATEQ SURFA� IMTH A NINIMIUN THERMIAL RESIStANCE OF R-10. ° In addition, inspectiai of log Molls shall be in accordance with the provisions of ICC-400. _ .
<br /> ��' R403.6 k1EqiArNCAL VENTILATION (1iANDATORYj. TF� BUIIDING SHALL BE PROVIOEQ YNTH VENTILA110N THAT MEETS THE
<br /> 5. HEATING AMO Ct)OIJNG SYSTEMS, IF INSTAIJFD AT THE TINE OF iNE TEST, SHAU. 8E TURNEO OfF; AND (�q��Q�n � mE INTERNATI(JNAL RESIOENTIAL CODE OR INIERNATI4NAL LIECHAI�CAL COOE, AS APPLICABIE, OR 4NiH 4THER �"'�
<br /> 6. SUPPLY AI� RETURN REGISiERS, IF INSTN_LED AT THE TIME aF 1HE TEST, SHALL BE FULLY OPEN. pppROVED I�ANS OF YENIILATION. OUTDOOR AIR INTAKES AfVO EXHAUSTS SHALL HAVE AUTONATIC �t GRAVITY DAMPERS THAT R403.7 E4UIPAIENT S171NG ANO EFFlqENCY RA1�IG(NANDATflR1�. FEAIING AND CaOUNG E�llP1�NT SHAt18E SZFD IN AOCaROANCE 1MTH ACCA YANUAI S eASED q�18uu�ING LOIIOS Q
<br /> EXCEPTIONS: (t)AODITIONS LESS THAM 50Q SQUARE fEET OF CONDITIONED FLOOR AREA. {2)ADDITIaVS TES1ID C��E MIHEN THE 1�ENTILATION SYSIEM IS NOT OPERATING. C�LtXJLATED IN ACCOROMIf.E Wllli ACCA MANUAL J OR OTHER APPROVED tEATNG 11t�COOL�IG CALCl�A110N METFIODOLOqES. 1HE QUIPUT CAPAqTY ff HEA11N6 Al10 COOL�IG EQUIPMENT ,,�
<br /> W1TH 1}� EXIS�N6 HOA1E HAVING A C01i81NED YAXIMIUM LFAKAGE RAIE OF 7 NR CHMIGES/HR. TO QUA(.�Y FOR R403.6.1 WHOLE-HOUSE A�CHMNCAL VENiILATION SYSTEM FAN ffFlCACY. MECHANICAL VENTa.A110N SYSTEN FANS SHALL MEET ���T eE GI�AIER 1NM!1HAT OF 111E SAIAU.EST AVAIIA&.E EQUIPNENT SIZE 1H1►T D(C�S iF�lOADS CAlq11.AlED, INCLtIDNG ALLOYIABIE 01�ERSfIIt�t�TS.I�W aR iiEPlACQ1ENT � F.:o �.
<br /> FE'AiING At�QDOIJNG EQI�PI�IT SHALL HAME AN fffl�lCY RATNG EQUAL TO dR t�tEATER iHMI TFE YNNI�ItN�I REQl�REO 8Y FEDERAL LAW FUR 1FIE GEOGRAPHIC LOCAIIaN IIHERE iFE N N o
<br /> THiS 0(CEP110N, 1HE DATE OF CONSTRUCTION OF THE EXlSTING HOUSE MUST BE PRIOR TO 1HE 2009 WSEC. THE EFfICACY REQUIREMENTS QF TABLE R403.6.1. Eq��T�$���p, O �a�i ,�°�'
<br /> EX(�I'TION: MlHERE MECHAPIICAL VENTILATION fANS ARE INTEqiAI TQ TESTED AND LISTEO HVpC EQUIP�fENT, THEY SHA�L 8E R�03.7.1 ELECTRIC RESISTMICE ZONE ffAIED UNI15. N.L OETACHED q�lE- AND TMO-FAYILY OMiEl1.NGS MID AIUL'I�LE SINGLE-fMNt.Y ON�EII.LIN6S(TOWNNOUSES)UP TO iHflEE STOR�S IN Z� ►
<br /> SYSTEMS: POWEf� 8Y AN ELECTRONICALLY COMMUTATEO YOTOR. Npq{T A80VE GRAOE PLAN USING ElECiRIC ZaltAL HEAIING AS THE PRINARY HEAT SOURCE�iN.L INSTN.L AN INVERTER-ORII�EN WCTIESS AIIN-SPIJT t#AT PUMP IN THE IARGEST ZaPlE � �� 'n
<br /> R4Q3.1 (�NiROLS (MANDATORI�. AT LEAST 4NE THER�IOSTAT SHALL BE PROVIDED FOR EAqi SEPARATE HEAl1NG ANO C40UNG TABLE R403.6.1 �THE�,O o����PERAiIT DRAWNGS SHALL�'ECFY THE HEATIN6 EQUPfff!!T Tl'PE AND LOCAllali OF lliE HEAIING SYSTEIi.EXCEPiION: TOTAL INStAU.ED HEATING CMApTY Of ��^
<br /> SYSTEM. MECHANICAL VENTILATION SYSTEM FAN EFFICACY
<br /> R403.1.1 PROGRAMMABLF THERMOSTAL YMiERE 1HE PRRIA1fARY NEATING SYSTEM IS A FORCED-AIR FURNACE, AT IFAST ONE R�03.8 SYSIEMS SER4ING IAULi1PLE OVEWN6 UINTS(YMIDATOR'�. SYS1E11S SERVING 11UL11PLE OMELLING UtHTS SHN.L CONPLY WTH SECTIONS G03 AND C404 aF TNE WSfC-OO�iAERqAI � o� rCO-�
<br /> THERNOSTAT PER DMI�WNG Ut�T SHALL BE CAPABLE Of CONTROLLING THE F�ATING AI� COOIJNG SYSTE�i ON A ONLY SqiEDULE F� ��¶� AIR FLOMt RATE �IINIMUAi MINIMUM EFFlCACY AIR FLOW RATE MAXIAIUN pRpy1SI0NS IN UEU Of SECiWt�1 R�03. � ca��-
<br /> TO MAINTAIN DIFFERENT TEAIPERAIURE SET POINTS AT OIFFERENT 111�ES � 1t� DAY. 1HE TFIE(�IOSTAT SHALL ALLOW FOR, AT A (C�1) (C F f d/W A T T) (C F N) R�0 3.9 S N O M I A 1 E L T S Y S T E Y O O NiROts(N�a T O R�.S N o w�w D�C E-N E�t�t G S Y 5 I E N S, 9 u P P U E D T F�u c� E I�E R G Y S E R V I C E i 0 1 F�E B U I t,O t 1 G,S fl�t�a u D E x�T O UA t t C C O N t R O�s �
<br /> CAPA�.E OF Stt�lTT1NG OFF THE SYSTEf�WHEN THE PAYEMENT 1EMPERAIURE IS A804E 50f, Al10 NU PREqPITAt14N IS FAWNG AND API AUTq1A11C OR MANIJAL CONIROL 1HAT Wl1
<br /> NINI�tUM, A 5-2 PROGRAlINABLE SCHEOUIE (WEEI(DAYS/WEEKENDS) AND 8E CAPABLE OF PROVI�NG AT LEAST TWO RMI(�HOOOS ANY 2.8 CFM WATT ANY N10W SHUTafF M�EN 1HE OUIDOOR T0�IPFRATURE IS A84VE 40F. �
<br /> PROGRJWYABIF SETBAq( PERIODS PER DAY. 1HI5 THERAfOSTAT SHALL INCLUDE THE CAPABIUTY TO SET BACK OR TENPt)RARILY IN-UNE FAN ANY 2.8 CFII ATf ANY �
<br /> OPERATE THE SYSIEN TO MNNTAIN ZONE TE�IPERAIURES DOWN TO 55F (13C) OR UP TO 85'f (29'C). THE iHERMOSTAT SHALL BAiHR00�i, UTILITY ROO�A �0 1.4 CFA1 ATT �g0 �
<br /> INITIALLY BE PROGRAI�MED IM1N A NEAIING TEIr11PERATURE SET PqNT NO HIGHER 1HAN 70f (21'C) APID A CUOLING lEI�IPERAIURE gATHR0�11, UilLITY ROOA1 94 2.8 CfY WATT ANY AODITIONAL ENERGY EFFICIENCY REQUIREMENTS: �
<br /> SET POINT NO LOWER THAN 78'F (26�). THE THERYOSTAT ANDJOR CONTROL SYSTEM SHALL HA4E AN ADJUSTABLE DEAOBAND OF
<br /> NOT IESS iHAN 10'f. R406.1 SCOPE T�pS SECiION ESTABLISHES OP11aNS F�R hDpilaNAl{�11ERIA TO 8E IIET fOR ONE- AND iYYO-fAYILY dWELIlN6S ANO TOWNHOUSES, AS OEFNm IM SECTION 101.2 Of THE
<br /> ��P��s: TABIF R402.1.1 r��a�n�a�nK caoE ro oaa�s�a�carau,wc�w� mis co�.
<br /> t. SYSTFl�iS CqVTROLLED BY AN OCq1PANT SENSOR THAT IS CAPABLE OF SHUTIiNG THE SYS1E�i aFF NhiEN NO OtxUPAMT IS INSULATION ANO FEWESTRATION REQUIREMENTS BY C�iP{�VVENT° ����Y�r�t�p�a��YANOATORY).EACH DYYIE331NG UfUT�1 A RESIOENML BULaNG SHN.L CO�iPLY M11H SUFFlqE�It OPTIONS fRaFA TABLE R�06.2 SO AS
<br /> SENSED FOR A PFRIOD OF l� TO 30 M�IUTES. tS.
<br /> 2. SYSTEMS CONiROI.LED SOLELY BY A MANUALI.Y OPERATED i1MER CAPABLE OF OF'ERATMIG THE SYSTEM FQR NO �It1RE THAN CLINATE ZONE 5 AND MARINE 4
<br /> 1. S1JAL1.ONEWPIG IRNT: ................... 1.5 CREDITS 3. UIRGE DM�EWNG lNIIL• ............ +.5 CREDITS I.� O �
<br /> TWO HOURS. FENESTRATION U- b 0.3d ONEWNG UNITS LESS 1HAN 1500 SQUAftE FEEf�V OWEWNG UlN15 D(CFEDNG 5000 SQUARE
<br /> R403.1.2 HEAT PUNP SUPPLE�ENTARY HEAT(MANDATORI� UNITARY AIR COOLED HEAT PUMPS SHALL INCLUDE CONTR()LS THAT SKYLIGHI' U- O,�p ca�ana�m�.00R ��n wm �ss mu� 30o s�un�E �r o�carrpna�n �oaR u�.
<br /> NINIMIZE SUPPLE)a1ENTAL HEAT uSAGE OURtNG START-UP, SET-UP, MIO DEFROST CONaTIONS. 1HE� CIXVTROLS SHALL � �T a���s�nar� ��. �oana�s ro�asnnc aca��: ONFll.NG UNTS SERNNG R-2 ,
<br /> ANiIqPAIE NEED FOR HEAT AND USE C06iPRESSION HEATING AS THE FlRST STA(� � HEAL CQNTROLS SHALL INDICATE WHEN �� ���A110N SHGC NR Bw�DIMG THAT I�E GREATER THAN 50o sq�lARE fEET OCCUPMIqES SNALL REQu1�25 a�nliS
<br /> CEILING R-VALUE�` 49 OF HEAIED fLUOR Af�A 8UT LESS 1HAP1 1500 SQUARE FEET. b A001110NS LESS THAN 500 SQUARE fEEL...0.5 CREOITS �
<br /> S4IPPLE�lENTRL HEAiING IS BEING USED THROUGH VISUAI NEANS(E.6., LED INDICATORS. HEAT PU�IPS EQUIPPED IM1H 2 ME�IUM OMiELI.NG UNL• ........ 3.5 CAEDIiS
<br /> SUPPLEMENTARY NEATERS SHALL � INSTAtJ.ED WI1N CONTROLS THAT PREVENT ENTAL F�ATfR OPERATION ABQ4E MI'f. MIOOD FRAYE WAll4""'R-YALUE 21 ink ALL D�NELLNG UNTS 1HAT NtE NOT INCWUED N 1NE DRAM�S INCLUOED WTH 1HE BU�.OING PQtIMT APPLICATIaN SHALL Q �,
<br /> AT FlNAL �VSPEC11flN THE AU�UARY HEAT LOCK OUT CaNTROL SHAL1 BE SET TO 35F OR LESS. MASS WAIL R-VAIUE� 21 21 � �p, ro�nFr wr�ai�naas H�r�em� s�c�o ,wo rt��r v�a� +�Z
<br /> Df�EP11aN: DYELLING UNITS SERNMG R-2 EACH OP110N,t�GARDI£SS aF YHETFER SEPMATE MIECHMUCM, PllH18NIG, C1 ��
<br /> R443.3 DUCTS. OUCTS AND AIR HANOLERS SHJUl BE IN ACCORDANCE WIiH SECTI4WS R403.3.1 1HROUqi R403.3.5. FLOOR R-VALUE 3U9 OCq1PANqES SHAl1 REQ1uRE 25 C�OI15. ELECiRICN.,aR O1HER PEf�11TS ARE U1llJZfD FOR THE PROJECL � N c� �
<br /> R403.3.1 INSULATION (PRESCRIPiIVE). DUCTS OUTSIDE THE BUIIDING THERMAL ENVFlOPE SHALL 8E INSULATED TO A ANNIYUN OF BELOW-GRADE"" WALL R-VALUE 10 15 21 int+iH �_ � �
<br /> R-8. OUCTS IMTHIN A CaNCRETE SLAB OR IN THE GROUNO SHALL BE INSULATED TO R-10 WITH INSULATIQN DESIGNEO T0 8E SLABa R-VAIUE �c OEPTH 10 2 ft �`"a
<br /> USED BELOW CRADE EXCfPTION: DUCTS OR PORTIONS THEREQF LOGAIEO C011PLETELY INSIDE 1HE BUILIIING EN4ELOPE. DUCTS =3
<br /> LOCAIID IN CRAWL SPACES DO NOT QUAUFY FOR THIS EXCEPiION, For SI: t foot=3Q4.8mm, ci=cantinuous insulation, int= intermediate framing wr ^ ��
<br /> t 'R-vdues are mninums. U-factars and SHGC are ma�drnums N�hai insulation is �
<br /> R4U3.3.2 SEAUNG I�ANOATORY�. OUGTS, NR HANULERS, AND FILTER BOXES SHALL BE SEAIED. JOINTS ANO SEAMS SHALL instdled in a cmity rhirfi is las than the labd or daign thiduiess of the inwlation, v ��
<br /> COtriPLY WITH �THER THE INTERNATIONAL AIECHAPbCAI. CODE OR INIERNAT10NAl RESIDENTIAL CODE, AS APPLICABLE. the carqare�ed R-vdue ot the r�lotiat from Appa�6x Table A101.4 shaN rrot be I�s ELECIRICAL POWER ANQ LIGHTING SYSTEMS: Q .��y
<br /> EXCEPTIONS: thm the R-vahu specified 'n the tade. R404.1 LIGHIING EQUIPNENT{YANDATORY� A �iINI�iUY UF 75 �/ � �`'
<br /> 1. aR-IMPERIIEABLE SPRAY FOAM PROOUCTS �iN.1 8E PERMITTEQ TO 8E APPUEO WITHWT ADDI110NAL JaNT SEALS. °ihe fenestroGon U-factor cdumn exdudes sk�lights. The SHGC cdumn applies to d1 PERCENT OF PERMANENTLY INSTALLEO LAMPS IN LIGHTIN6
<br /> �azed fenestration.
<br /> 2. fOR aUGTS HAYING A STATIC PRESSURE CLASSIFlCATION OF LESS iHAN 2 IN(�iES OF WATER COLUIIN (500 PA), ADOITIQNAL FlXTURES SHAIL 8E HIGH-ffFlCACY LMIPS. Q �z
<br /> (�..OSURE SYSTEAIS SHAU. NOT BE REQUIRED FOR COMTINUOUSLY WELDED JOINTS AND SEAMS, AND LO(�(ING-TYPE ,101NTS ANO `'10/15/21.+iB'means R-10 continuous insulation an the extaiar of the rdl, or R404.1.1 UGHTING EQUIPMENT(MANDATORY). FUEL GAS � r� N
<br /> SEA�IS OF O T HER THAN SNAP-LOq( AND BUTTON-LOCK TYPES. R-15 cantinuous insulatan on �c i►teriar oi du ra�.a R-21 cavity inwlatan plus a 11GHTING SYSTEYS SliAll NOT HA1IE CONi1NU0USLY �J p w
<br /> thamol bredc bekreen khe skb and the basemmt sdl at the intaar af the b�anent BU(tNING PILOT UGHTS. z
<br /> R403.3.21 SEALED!UR HANDtER.NR HANDLERS SHALL HAYE A MAMJFACTUHER'S OE9GNA'IION FOR IW ANt LErKAGE af NO f� TNMI 2 PERCE�IT �. '10f15/21.+1H" andl be pamitted to be met �ikh R-13 cavity insulation an the =J
<br /> OF iF�DESIGN AIR FLON RATE MIHEN TESTED IN hCCORDANCE W1N ASHRAE 193� aterior of thc bas�nent rdl plus R-5 cantinuous insilatim on �he ietaiot a extaia HIGH EFFICACY LAAIPS: • ��
<br /> af tlu+�aN. '1B'm�ns thamal 6redc bet�een Il�oor slab md basanent waH. COMPACT FLOURESCENT LAMPS, T-8 OR SMALLER �-
<br /> or
<br /> R 4 0 3.3.3 D U C T T E S 1 1N G(Y A N DA T a tI� D U C T S S HALL 8 E t ENC l E S 1 E D IN A�A N C E �N T H W 5 U R S-3 3,U S I N G 1 H E YAl(IMUd D U C T L E A K A G E a R-10 continuous insulation is roquied u�heated slab an grade Aoors.See R40229.1. (�AYEIER UNEAR FLOUf�SCENT LANPS, OR LAGPS WITH � o 0
<br /> RA1ES SPECff1E0.EXCEP110N: THE T4TM.LENCAGE TEST aR LEAKAGE TO lliE QUi�00RS IS NOT REqINRED fOR OUCTS AND NR HANOLERS � � .
<br /> LOCAlEO ENiIf�ELY tMTFMN THE BUN.OING TNERMAL ENYEIaPE. FaR F�tCED NR DUCTS, A MAXlul�l OF 10 UNEAR FEET Of REIURN OUCTS MIO 5 me�e are no SHGC r e q uirements in the Fl arin e Z o n e. A N I I�M U I� E F F I C A CY 4 F. � �
<br /> LINEIIR FEET OF SdJPPLY OUCTS 11AY BE L4CAIED OUT'S10E THE CdN0111aNED SPACE ALL YETAWC DUCTS IOCATEO OUl'S10E 1HE(�ITIOt�D �'Resuvcd. 1. $0 LUMENS PER WATf fOR LAAIPS OVER 40 WATTS; I �
<br /> SPACE YUST HAVE BOTH TRAN5YEI2SE AND LONq1U0NAl.JOINTS SEALED MITH YASTIC.�fLEX OUCTS ARE USEU, iHEY CAN�OT CONtAIN SPUCES. '1}�e sawnd R-vdue applies when more than half the nsulation is an the intuiar of 2 50 LU�IEN$ PER WATT FOR LANPS OVER 15 WATTS �
<br /> Fl.EX OUCT CaNNEG11aNS MUST 8E NAOE WITH NtLON SiFiAPS ANO INSTALLED USING A PLASIIC STRhPPING TENSIONNG TOOL. OUCTS LOCATfD N the mass rdL TO 40 WATT'S;
<br /> CRANL SPACES 00 NOT QUN.fY FaR THS EXC�EPTION. A WRITIFN REPORT OF 1HE RESU.TS SHALL BE SIt�EQ BY THE PMiY�NOUCTNG 1HE i R��, 3. 40 LUNENS PER WATT FOR LAMPS 15 WATTS OR
<br /> IEST ANQ PRONDED TO 1HE COOE OfFlqAI. k for single mfter-ar joist-�aufted ceiings, ihe insulation may be reduced to R-38. �g$.
<br /> �Retavad.
<br /> "'Ink. (intdmediate framing}danotes stmdard framing t$inrhss m anker rith �
<br /> headas insdoted rith a moimum of R-10 insulntian.
<br /> "Log and sdid timbrr�dls rith a minKnum average thidcness of 3.5 neh�are �F
<br /> exenpt frcm this insuladon requ'rement
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