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RC-0599-2022 OffiC&Use Only T-• -11. 11110 PERMITAfP ' •N Permit Fee:$ • 2.0: Town of'1CiuMisturi , 742 Bay Road ; . *Rec Fee:'$ 1\1\Pr \DYIZN -drov,\ q.mensbury, NY 12804 618-:.'161";8216 vti/w.luaensligry.riot. InvOce#: . , Flood Zone? y Reviewed Project Location: . POILJ,T7 Tax Map #: - Subdivision Name: L. *TOWN BD2RE$OLOTION38S42020•$1000 recreation fee for new-dwetling.UnitS:single family,duplexesitinio-family, multiple family, apartments,!condominiums,tOwnhouSes, and/or mariufaCturedturniiiii!lar'ilv7irp:fkf, t:not mobile hornOS.'ThiS iSlin addition to:the,Pef-mit fee(s). D E: PROJECtINFORMATION: SEP 0 1 2022 X Residential Commercial, Proposed Use TOWI IEENSBURY BUILDING &CODES X •Single-Family: Two-Family (# 1. Custom 2: Modular(REclyiRp:Nys stampedenginepred drawingS of-fpupOqtion,plans) Townhouse Garage (#of cars_) Business Office Retail Hotel/Motel Industrial Heated Warehouse/Storage, Buildinv __Unheated Warehouse/Storage Pyilding Amusement Ride Other(describe: MAIN STRUCTURE SQUARE FOOTAGE: GARAGE SQUARE FOOTAIE: VT floor: 116'60 (+ Sle2) 15TfIor: le24 2nd floor: ea') 2nd flopr: °Pell 3rdfloor """7,"""'" Total square feet 7(20 Basement(habitable space) L: T.9•0):gillarq feet: ‘SS1;1:. ' Principle StruitUre.Packet Revised MFcif2022 • ADDITIONAL PROJECTINFORMATION: Estimated Cost pf,ConstruCtion:$ :goo az. - 2. Proposed use of the building gti.,611,.. It)( 3. if:COrnmercial or Industrial, indicate the name of the business 4-7—°--- 4. Source of Heat: Gas pi! X:Pricipane ' Solar 'Other: (Fireplaces need a separateFueLilurningAPiiliancegtChimneif4pliCatien;One•verabpliance) .5. .)+1'.e there anystructurO:Pdst:shown on the plot plan? YES X NO Explain, if yes 6. Are there any easements on the proPertY? YES NO Le1014a(k4-1 7. .SITE INFQRMATION: a.:What is the dimensions or acreage of the parcel? 0.B71. Is this a corner lot? . .YES •XN0 c. Will the grade be changed as a result of the construction? YEU.( 10 d. What is the water soUrCe?__ _;PUBLIC ;X PRIVATE VVELi. 11,..1.5r44.1,00 What type of wastewater system is on the parcel? SEWER .,,S4 PRIVATE SEPTIC - Peg1-4IT DECLARATION: 1 I acknowledge that no construction shall be commenced,orior to the issuance of a'valid permit and will be completed within a 12 month'period.Any changes to the approved plans prior to/during construction will require the submittal of amended plans,additional reviews and re-approval. 2. If,for any reason,the building permit application is withdrawn, 30%of the feels retained by the Town of Queensbury.After 1 year from the initial application date, 100%of the fee is retained. 3. I certify that the application, plans and supporting materials are a true and complete statement and/or description of the work proposed, that all work will be:performed in accordance with the NYS Building Codes, local building laws and ordinances, and in conforma nce with local zoning reguiailons. 4. I acknowledge that prior to occupying the facilities proposed I,or my agents,will obtain a certificate of occupancy. 5. I also understand that I/we are required to provide an as-built survey by.a NYS licensed land surveyor of all newly constructed facilities prior to issuance of certificate of occupancy. have read and agree to the above: o.:: torc15A SIGNATURE:: . .DATE• '..• . Principle Structure Packet Revised March 2022 • CONTACT'.INFORM ATIONJLEASE PRINT LEGIBLY OR TYPE,`;PLEASE'INCLUDE'AN 'EMAIL •. ,Applicant: Names) � R O . !►, ., Mailing Address,C/S/Z; ! . Cell Phone:` ( ) Land Line: ;;(.:.' :: :_). . Email: ;Primary,Owner(s): LIALic Mailing Address C/S/Z: 'Cell;Phone: (.6I ).. �1. Land Li . � • 1 : Email: aC7t:, ( ;.,: .(.1: .. �" []. Check if all work will be:performed:by K r,operty.owner,on-y - • Contractor(s)::(List all additional contractors on - he;back.of.this form) Contractor Names): ti Cam. _ Ut,s, . L : . Contractor Trade: r� - ,.� , 2,::) - Mailing.Address, C/S/Z: 14O ,� / .. t2 Cell 1662. � l�. �,. � 7 Phone: (5I , ) 31 . Land Line: "'. Email: 6.4 17,z14-1. Q ..elaki(' LAC :. **Workers' Comp:documentation must be submitted with,this.ap application • • ,ACchikat(s.)/Engine ed r(s) Business Name:. • . Contact Name(s): t, 1_' _ Mailing.Address, C/S/Z: D ' Lilez`` 26e-, :U :_I(2 c Cell Phone: .( G 12) ) 0% i56-4 i Land Li ( SIP ) i�n.(.o9 ;6. Line: Email: !�.l i , ,� . �, ° / 1=1 . ; .4' _ � c (, 41 �tJics Contact Person for Compliance toahis project: � i, � . � -; p regards Cell Phone: ) Land Line: ( ;)_ Principle Structure Packet Revised March 2022 i'; CHECKIIST--SINGLE.FAMILY : Project"Location: 4Q. E „.,..e: d lea REQUIRED' 3SETS. 1: Building;Permit application; completed YES: NO N/A 2 Energy Code inspector's report from ResCheck, impIeted&signed : X: • ' 3: Septic;alteration;application,if':applicable ' X 4:Solid fuel burning.or gas,",insert appliance form(s), if•,applicable. 5 Driveway;permit, if applicable 6 :Structural.drawings:(3'SETS),,including: a. Floor plans b. Foundation plans c. "'Cross:sections .d. EleVatjorls e. Window_&door schedule • f. :Natural light,ventilation &emergency egress: 7.'Plot plan:showing proposed structures) with•setback diimensions,fr:.om all X surveyed;property 8.;Electrical inspectiion.agency selected 9. Manual:S&J 10. HRVorERV 11. Kitchen Hood specs, ifnecessary CHECKLIST--MULTI-DWELLING/COMMERCIAL Piroject Location: REQUIRED-2 SETS 1.;Building Permit application, completed _ YES NO N/A 2.Energy Code inspector's report from ComCheck;•completed &:slimed.. 3. Septic alteration application,if applicable 4.Solid fuel burning or gas insert;appliance form(s),.if'applicable 5. Driveway permit, if applicable 6, 'Structural drawings, including: a. Floor plans b. Foundation plans c. Cross sections d. Elevations e. Design loads including floor, snow&wind load f. Seismic design ..g. Plans.,signed;and sealeddby.registered,architect,or engineer h. .Window;&";door•.schedule • 7:'Plot,pla_n:showing proposedstructure(s),"with.setbiack dimensions from all surveyed,property,lines: -8.?Electrical.inspection`agency selected 9:FINAL iAS-BUILT PLANS SUBMIITfED ELECTRONICAI:LY Principle$tracture Packet Revised March 2022 NATURAL LIGHT,VENTILATION,& EMERGENCY EGRESS CALCULATION SHEET (please complete if details are not provided on plans) Project Location: 42° 1UJ. Primary Owner. (s): t11 ('. + L i!l ` Habitable: �:Sq. Ft. ,;;Required Actual.•- Required . . Actual. Sq.ft. Rooms of Light Light Ventilation :Ventilation. opening Room.. ;(8%®`of:rm.). (sq. ft.) (4% of room .) for Egress s;1/4k1;OW too (2. i IQ.o ..c7 19.8, 1a- aridiee0 11 1.6 19.40 4.8 10. 9., :2. O 61,0= ("00 4.0 J 6'' 184 4.1 121.7 1.4 1.4.E 16 .C.0 `ds 14- 103 I . o tl 10.4 0.4 .4( 14ec '22.‘v 7.$ 24. I •C 1 gel 16'.' ` 31 .'ItePM4 -48.4 (2 a 6, 15. Principle Structure Packet Revised March 2022 -5b1T-ract3Z4-2 Residential Plan Review: 1- and 2- Family Dwellings Y/N/NA (1 of 2) 'i3 Two (2)full sets of plans y/i Over 1,500 sq.ft. requires engineering stamp yt< Design loads on plans: 115 Wind Floor Loads 40 psf ' (North of Rte. 149 60) 50 Ground Snow Load Sleeping Areas &Attics 30 psf Calculations Decks 40 psf Wind design for lake front properties (li. Window schedule with glass size & main doors/Air leakage < .5 cfm for doors, < .3 cfm for windows/Tempered glass in bathrooms Door schedule/Main entrance 36" door Emergency Escape or Bedrooms & Habitable Space /1) Above-grade: 5.7 sq.ft. y/// Grade: 5.0 sq. ft. f' 7t7 24" (h)x,20" (w) minimum 44" maximum height above door Window control devices 24" or less 2nd story or 72" above grade Egress window from basement 5.0 sq.ft. %tr Floor system sizing per table 502.3.1 Residential check ERI or Prescriptive method /�,�Ip Driveway length: 300' or more-12' width required/500' or more,turnaround required Foundation drainage on plans, if required 47 6" drop in 10' exterior grade Framing cross section for each roof line, vertical fire stopping every 10'where required/joist spans pg. 127 ktiC Ice &snow shield—24"from exterior wall Platforms at exterior doors A-WV (.. 4 P f Stairway headroom 6'8"; all stairs 36" width °red Stair run and rise pc)fr Winder run and rise AMySpiral stairs meet requirements TSmoke detectors—battery backup & proper location, interconnected Bathroom fixtures—proper clearance Hall width-36"width Handrails more than four risers on open sides Railing&guards >30"/basement stairs included/closed risers more than 4" in height rt Safety glazing notes for required areas Garage fire separation:%" gable end/5/8" under living space &%" on walls/20 min. door and closer `raj Garage floor sloped --iK5 Attic access: gasket seal & R-value equal to roof insulation Roof over 30"—22"x 30"/Crawl spaces 18" x 24" access Continued on back 4 4 Residential Plan Review Revised October 2021 Residential Plan Review: 1- and 2- Family Dwellings Y/N/NA (2 of 2) 1„467 Carbon Monoxide detector outside lowest sleeping area, on every level & interconnected within 15' of sleeping area It/IA—Soil test results, if required V40) Septic to well or water line separation 5r :4_71;;r- ` liz� All paperwork signed i"{ `K Note on plans energy saving light bulbs 90% Me—) Blower door test agency paperwork -1V-5 Floodplain Permit required—check map: 2 feet above flood elevation it Hurricane clips required • Floors less than 2 x 10 covered by 1/2" gypsum or 5/8" wood panel d4- 'C.� °V Manuals S &J required for heating system. Cold air return hard piped I N Separate room for draft HVAC or hot water heater with fresh air ::, '�, HRV shown and calculations E5 Baffles at eaves for insulations and knee walls j` 14, Makeup air for range hood >400 cfm / • g) Continuous header for garage doors to end wall Chimney rain cap shown for fireplaces Deck hold down shown not less than 4 lags and bolts per table 507.2 j r \i . Residential Plan Review Revised October 2021 :... 's$is T,.? ;155: MAX • ,, ;., :1HEAT'RECOVERY--=VENTILATOR - : - `i -.-' LIFEBRERTH' 'i`,'.,= ENGINEERING DATA THERMALLY CONDUCTIVE,PATENTED DEFROST ALUMINUM CORE Recirculating damper defrost system. The counter-flow heat recovery core transfers heat between the two airstreams.It is easily removed for cleaning or service. CASE Twenty gauge prepainted galvanized steel for superior corrosion resistance.Insulated to MOTORS AND BLOWERS prevent exterior condensation.Drain connections 2-1/2 in.(12 mm)0D.Balancing ports Each airstream has one centrifugal blower driven by a common PSC motor,with multiple are located on door. fan speed operations. ELECTRONICS FILTERS The DXPLO2 control included with the unit can be wall mounted in a central location of Washable air filters in exhaust and supply air streams, the home.3 wire 20 gauge(min.)100 ft length(max.). MOUNTING Four threaded inserts at corners of the cabinet designed to accept the"s"hooks and l� .. ."i iWARRANTY-` j' 4 , .� r act s� ��tilW.!), ,.. , t � hanging straps supplied with the unit Units carry fe,timefwarranty on the HRV core,and a 5year 2.i t k tr-4replacement parts warranty .i :i 'OPTIONAVACCESSORIES: " . , • ' • , TechGrille Wireless 20/40/60 Weather Hood 99-EAG4 Terminator 99-185 99-EAGS Fitting Min Timer 99 186 99 TM4 99-DET02 99-EAGB � 99-EAG6 "-i 99 167 �- i:• ç 99-TM5 Idu / LIFEBREATH CONTROL OPTIONS TIMER OPTIONS f 99-DET01-Lifebreath 20/40/60 Minute Timer 'FEATURES 99 DXPL02 E•99 BCO2 99 8CO3 1 99 BC04 -�., F . • ,_/ :,r Initiates high speed Ventilation for 20.40 or 60 5 speed fan operation on each mode ✓ minutes.3 wire connection. 99-DET02 2 speed fan operation(Low/High) Wireless Lifebreath 20/40/60 Minute Timer Continuous low speed fan operation ✓ Initiates high speed Ventilation for 20,40 or 60 minutes.Wirelessly connects to main control for Humidity control through adjustable Dehumidistat , '`✓ ✓ ✓,;' ease of installation.40'approximate range. Excusive to Lifebreath. Large digital LCD screen 99-RX02-Wireless Lifebreath Repeater LED status indicator lights Extends range of 99-DET02 Wireless Timers.Plugs into 120V power outlet.Wirelessly connects to Continuous Ventilation `� main control and 99-DET02,Install at halfway point between timer and main wall control if timer ✓. :✓. :,' Continuous Recirculation is out of range. 20 ON/40 OFF -- :>, :,.::7_._ ,e:,,.. 10 ON/50 OFF 4.z .' 20 ON/40 Recirculation :`! `� `�' .. 20/40/60 min.High speed override button 99 0XPL02 •.1 99-DET02 Compatible with 99-DET02 Wireless Timer v, `V ':'_V ,' V 0 0 3 wire connection V V ` ""t '^• `_ LIFEBREATH` C indoor Air systems 1SSMAX(01-01-18) www.lifebreath.com r\ • 11:1 155MAX ., . • . HEAT RECOVERY VENTILATOR 1,7 r E PERFORMANCE (HVI CERTIFIED) LIFEBRERTH' -,-.Li -IN.W.6•(PA) 'I.01(25) {�•0.2(50) iF,.03(75) ;:0.4(100)±1 0.5(125)31 0.6(150) I; 0,7(175)1; ELECTRICAL SPECIFICATIONS • i CFM(Us) ( CFM(Us) CFM(Us) '; CFM(Us) CFM(Us); CFM(Us):I CFM(Us) VAC @ 60HZ ;'115; .= Net Supply Airflow 184(81) 163(11) 146(69); 132(62) 115(54) 92(43) - 60(28) Watts/Low Speed 66 Gross Supply Airflow 188(87) `' 166(78) 149(10) 134(63) ;117(55) 94(44) 61(29) Watts/High Speed ;'''118`;a;: Gross Exhaust Airflow '239(113) ' 228(107). 212(100) 193(91) 112(81) 150(11) ,126(60) ' Amp Rating 1A ;.y Sensible Effectiveness(ASE) ' " ; _ 160 WEIGHT: @ 59 CFM(28 Us) 92°F[0°C). ;84/ 71 LBS(32 KG) Sensible Efficiency o'. 16o SHIPPING WEIGHT: 32 F(QC) •i.' °7-5% @ 59 CFM(28 Us) I 73 LBS(33 KG)Sensible Efficiency(SRE) ° ° 10o NOTE: Front clearance of 25 inr(635 mm)is so recommended for servicing unit.All ducts _ ce S+ use 6 in.(152 mm)round collars.Balancing Vp ® LSD s�oHR4I so dampers are located in all air streams. 6.,�.,4 c us NV VI 9001 .�• CERTIFIED Hun= 11111111 0.1 0.2 0.3 0.4 0.5 0.6 07 0.6 Static Pressure(in w.g.) DIMENSIONS FRONT VIEW TOP VIEW Filter i 143/4 in.(315mm) I Recirculating Defrost .. tt� _--, I I I I Damper _ • tilollillMill. fell Blower Rert eat .; ,, ��i Stale air to outside Recmery _ Motor ECare i. Fresh air from outside rikTfs :_:_=- .� ';<t,__ _ �e... .., iI Stale air from inside 1 --.. m.... h - Fresh air to inside 61Rounn.(d152iCollarsmn) 14 — 33518 In.(854mm) — I •u v Date: ti1 ;:;WARRANTY ri -_ Contractor. •-"Units carry a*lifetirrie"warranty''':. Tag: • '-on the.HRV core and a S year, — >'•replacement partswarranty xa Project' Oty: Supplier: i`« warran. < Quote#: All units conform to CSA and UL standards Engineer. Control: Submitted By: LIFEBREFI TI!' el Indoor Air Systems Timer: Timer Oty: 1SSMAX(01-01-18) www.lifebreath.com , ig Generated by REScheck-Web Software Compliance C rtificate ' o N w ElECIEDVE - 1 aaN X IR ` N Li 1 Project Randles Residence SEP 0 1 2022 ! 9 fD Energy Code: 2018 IECC TOWN OF QUEENSBURY - °'c Location: Lake George,.New York BUILDING& CODES rt _• Ca w M Construction Type: Single-family I w ''* 2 cu Project Type: New Construction N a 7 Conditioned Floor Area: 5,247 ft2 cn A GlazingArea 19% h �C P Climate Zone: 6 (7377 HDD) FILE COPY N Permit Date: i kp Permit Number: N tO CDN Construction Site: Owner/Agent: Designer/Contractor: ?n N 42 Old Assembly Point Road Jeffrey&Nancy Randles Curtis Dybas , '.-11 Queensbury, NY 12804 same retired 19 Deer Run Lake George, NY 12845 15186685591 cdybas@yahoo.com Compliance: Passes using UA trade-off Compliance: 0.0%Better Than Code Maximum UA: 389 Your UA: 389 The%Better or Worse Than Code Index reflects how close to compliance the house Is based on code trade-off rules. It DOES NOT provide an estimate of energy use or cost relative to a minimum-code home. Slab-on-grade tradeoffs are no longer considered in the UA or performance compliance path in REScheck. Each slab-on-grade assembly in the specified climate zone must meet the minimum energy code insulation R-value and depth requirements. Envelope Assemblies Gross Area Cavity Cont. Prop. Req. Prop. Req. Assembly or R-Value R-Value U-Factor U-Factor UA UA Perimeter Ceiling: Flat Ceiling or Scissor Truss 1,016 38.0 0.0 0.030 0.026 30 26 Ceiling 1:Cathedral Ceiling 1,269 38.0 0.0 0.027 0.026 34 33 Wall:Wood Frame, 16"o.c. 2,500 21.0 6.6 0.040 0.045 79 89 Window:Wood Frame 94 0.290 0.300 27 28 Window 1: Wood Frame 423 0.300 0.300 127 127 Window 3:Vinyl Frame 11 0.320 0.300 4 3 Wall 1: Wood Frame, 16"o.c. 336 21.0 0.0 0.057 0.045 19 15 Basement Wall: Solid Concrete or Masonry Wall height: 7.0' 1,351 0.0 15.0 0.051 0.050 69 68 Depth below grade:5.0' Insulation depth:7.0' Project Title: Randles Residence Report date: 08/24/22 Data filename: Page.1 of10 leo Compliance Statement: The proposed building design described here is consistent with the building plans,specifications,and other calculations submitted with the permit application.The proposed building has been designed to meet the 2018 IECC requirements in REScheck Version : REScheck-Web and to comply with the mandatory requir tslisted in the REScheck Inspection Checklist. Name- itle Signature Date BRED Akc J y rat •/N! STAlt�E Project Title: Randles Residence Report date: 08/24/22 Data filename: Page 2 of10 i 0 REScheck Software Version : REScheck-Web Inspection Checklist Energy Code: 2018 IECC Requirements: 0.0% were addressed directly in the REScheck software Text in the "Comments/Assumptions" column is provided by the user in the REScheck Requirements screen. For each requirement, the user certifies that a code requirement will be met and how that is documented, or that an exception is being claimed. Where compliance is itemized in a separate table, a reference to that table is provided. Section Plans Verified '.Field Verified, # Pre-Inspection/Plan Review Complies? ,Comments/Assumptions . "Req.ID Value" Value , 103.1, Construction drawings and `, IOComplies 103.2 documentation demonstrate i ;❑Does Not [PR1]1 energy code compliance for the } ; L building envelope.Thermal ; ;❑Not Observable envelope represented on ;❑Not Applicable construction documents. } 103.1, Construction drawings and ' • ❑Complies 103.2, documentation demonstrate ❑Does Not 403.7 energy code compliance for 1 [PR3]1 lighting and mechanical systems. IDNot Observable Systems serving multiple i❑Not Applicable dwelling units must demonstrate compliance with the IECC Commercial Provisions. 302.1, Heating and cooling equipment is Heating: Heating: ❑Complies 403.7 sized per ACCA Manual S based Btu/hr Btu/hr ❑Does Not [PR2]2 on loads calculated per ACCA Cooling: Cooling: `g, Manual J or other methods Btu/hr Btu/hr ❑Not Observable i approved by the code official. ❑Not Applicable Additional Comments/Assumptions: 1 High Impact(Tier 1) 2 Medium Impact(Tier 2) 3 Low Impact(Tier 3) Project Title: Randles Residence Report date: 08/24/22 Data filename: Page 3 of10 1 Section Plans Verified ` Field Verified " # Foundation Inspection. Complies? Comments/Assumptions & Req.ID Value • Value 402.1.1 Conditioned basement wall I R- _ R- ❑Complies See the Envelope Assemblies [FO4]1 insulation R-value.Where interior R. R- DDoes Not table for values. insulation is used,verification (4) may need to occur during [Not Observable Insulation Inspection. Not ❑Not Applicable required in warm-humid locations in Climate Zone 3. 303.2 Conditioned basement wall .: ❑Complies [FO5]1 insulation installed per ❑Does Not manufacturer's instructions.l� , ❑Not Observable ❑Not Applicable 402.2.9 Conditioned basement wall ft ft ❑Complies See the Envelope Assemblies [F06]1 insulation depth of burial or ❑Does Not table for values. r4 distance from top of wall, ❑Not Observable ❑Not Applicable 303.2.1 }A protective covering is installed ; {❑Complies [FO11]2 sto protect exposed exterior ❑Does Not insulation and extends a 4❑Not Observable tminimum of 6 in. below grade. i S ❑Not Applicable 403.9 'Snow-and ice-melting system DComplies [FO12]2 controls installed. f ❑Does Not l ' :Not Observable , , ❑Not Applicable Additional Comments/Assumptions: 1 High Impact(Tier 1) 2 Medium Impact(Tier 2) 3 Low Impact(Tier 3) Project Title: Randles Residence Report date: 08/24/22 Data filename: Page 4 of10 Section Plans Verified Field Verified # Framing/Rough-In Inspection Complies? Comments/Assumptions & Req.ID Value Value. 402.1.1, Glazing U-factor(area-weighted U- U- ❑Complies See the Envelope Assemblies 402.3.1, average). DDoes Not table for values. 402,3.3, 402.5 ❑Not Observable [FR2]1 ❑Not Applicable U 303.1.3 U-factors of fenestration products E . i❑Complies [FR4]1 are determined in accordance '❑Does Not v with the NFRC test procedure or [Not Observable taken from the default table. F ❑Not Applicable 402.4.1.1 Air barrier and thermal barrier ❑Complies [FR23]1 installed per manufacturer's ❑Does Not ;y, instructions. ❑Not Observable ❑Not Applicable 402.4.3 Fenestration that is not site built F❑Complies [FR20]1 is listed and labeled as meeting I❑Does Not O AAMA/WDMA/CSA 101/I.S.2/A440 or has infiltration rates per NFRC i❑Not Observable 400 that do not exceed code '❑Not Applicable limits. s• 402.4.5 IC-rated recessed lighting fixtures; ;❑Complies [FR1612 ;sealed at housing/interior finish f ;❑Does Not !and labeled to indicate s2.0 cfm ; ;leakage at 75 Pa. ❑Not Observable j ;❑Not Applicable 403.3.1 Supply and return ducts in attics r❑Complies [FR12]1 insulated >= R-8 where duct is y❑Does Not :7 >=3 inches in diameter and >= R-6 where <3 inches. Supply and ❑Not Observable return ducts in other portions of ❑Not Applicable the building insulated >= R-6 for diameter>= 3 inches and R-4.2 for<3 inches in diameter. I 403.3.2 Ducts,air handlers and filter ; - . ':Complies [FR13]1 boxes are sealed with i❑Does Not joints/seams compliant with International Mechanical Code or ; ❑Not Observable International Residential Code, as f ❑Not Applicable applicable. , 403.3.5 4 Building cavities are not used as ;❑Complies [FR1.5]3 „ ducts or plenums. ❑Does Not i '❑Not Observable b , ;❑Not Applicable 403:3.7 'Ducts declared to be within the !. I❑Complies [FR28]3 conditioned space are either 1) i❑Does Not �,., I completely within the continuous ; air barrier and within the building f ['Not Observable `thermal envelope, 2) buried f ❑Not Applicable ' f within ceiling insulation in ;accordance with Section ; R403.3.6 and the air handler is located completely within the ;continuous air barrier and within ithe building thermal envelope { and the duct leakage is<= 1.5 cfm/100 square feet of conditioned floor area served by the duct system,or 3)the ceiling !insulation R-value installed Iagainst and above the insulated I duct>=to the proposed ceiling • Insulation R-value,less the R- , value of the insulation on the I 1 High Impact(Tier 1) 2 Medium Impact(Tier 2) 3 Low Impact(Tier 3) Project Title: Randles Residence Report date: 08/24/22 Data filename: Page 5 of10 i . ': Section Plans.Verified : . Field Verified # Framing/Rough-In Inspection Complies? Comments/Assumptions & Req.ID Value ,. Value 403.4 ;HVAC piping conveying fluids R- R- ❑Complies [FR17]2 ;above 105 2F or chilled fluids ❑Does Not lj below 55 QF are insulated to aR- ❑Not Observable ❑Not Applicable 403.4.1 Protection of insulation on HVAC 10Complies [FR24]1 piping. ;❑Does Not °` .. ;I❑Not Observable ❑Not Applicable 403.5.3 f Hot water pipes are insulated to i R- R- ❑Complies (FR18]2 eR-3. ❑Does Not• I❑Not Observable ❑Not Applicable 403.6 Automatic or gravity dampers are ' ❑Complies [FR19]2 s installed on all outdoor air I❑Does Not lintakes and exhausts. ❑Not Observable 1 ;❑Not Applicable Additional Comments/Assumptions: 1 High Impact(Tier 1) 2 Medium Impact(Tier 2) 3' Low Impact(Tier 3) Project Title: Randles Residence Report date: 08/24/22 Data filename: Page 6 of10 Section Plans Verified. .,:.Field Verified- ' # Insulation Inspection Complies?. Comments/Assumptions & Req.ID Value Value 303.1 All installed insulation is labeled ', ;❑Complies [IN1332 Iorthe installed R-values F l❑Does Not `9 provided. . '❑Not Observable . . E❑Not Applicable 402.1.1, Wall insulation R-value. If this is a' R- R- ❑Complies See the Envelope Assemblies 402.2.5, mass wall with at least'/2 of the 0 Wood 0 Wood DDoes Not table for values. 402.2.6 wall insulation on the wall [IN3]1 exterior,the exterior insulation ❑ Mass ❑ Mass :Not Observable a, requirement applies (FR10). 0 Steel 0 Steel ❑Not Applicable 303.2 Wall insulation is installed per ' ;❑Complies [IN4]1 manufacturer's instructions. ;❑Does Not ' ;❑Not Observable ❑Not Applicable Additional Comments/Assumptions: 1 High Impact(Tier 1) 2 Medium Impact(Tier 2) 3 Low Impact(Tier 3) Project Title: Randles Residence Report date: 08/24/22 Data filename: Page 7 of10 Section' Plans Verified Field Verified' # Final Inspection Provisions • Complies? Comments/Assumptions • - Value' - Value & Req.ID 402.1.1, Ceiling insulation R-value. R- R- ❑Complies See the Envelope Assemblies 402.2.1, 0 Wood 0 Wood DDoes Not table for values. 402.2.2, 0 Steel 0 Steel 402.2.E ❑Not Observable [FI1]1 ONot Applicable 303.1.1.1, Ceiling insulation installed per - ❑Complies 303.2 manufacturer's instructions. ; ;❑Does Not [F1211 Blown insulation marked every 300 ft2. i❑Not Observable Not Applicable 402.2.3 JVented attics with air permeable ;❑Complies [F122]2 (insulation include baffle adjacent ❑Does Not to soffit and eave vents that ;extends over insulation. r IONot Observable . , I❑Not Applicable 402.2.4 ;Attic access hatch and door R- R- ❑Complies [F1311 .insulation R-value of the ODoes Not adjacent assembly. ONot Observable ❑Not Applicable 402.4.1.2 Blower door test @ 50 Pa. <=5 ACH 50 = ACH 50= ❑Complies [F117]1 ach in Climate Zones 1-2,and DDoes Not <=3 ach in Climate Zones 3-8. :Not Observable ❑Not Applicable - 403.3.3 Ducts are pressure tested to cfm/100 cfm/100 ❑Complies [F127]1 determine air leakage with ft2 ft2 DDoes Not either: Rough-in test:Total leakage measured with a :Not Observable pressure differential of 0.1 inch ❑Not Applicable w.g. across the system including the manufacturer's air handler enclosure if installed at time of test. Postconstruction test:Total leakage measured with a pressure differential of 0.1 inch w.g. across the entire system including the manufacturer's air handler enclosure. 403.3.4 Duct tightness test result of<=4 cfm/100 cfm/100 ❑Complies [F14]1 cfm/100 ft2 across the system or ft2 ft2 DDoes Not <=3 cfm/100 ft2 without air handler @ 25 Pa. For rough-in ONot Observable tests,verification may need to ONot Applicable occur during Framing Inspection. 403.3.2.1 Air handler leakage designated ! ;❑Complies [FI24]1 by manufacturer at<=2%of ' 1❑Does Not design air flow. bNot Observable l❑Not Applicable 403.1.1 €Programmable thermostats ❑Complies [F1912 ;installed for control of primary {❑Does Not heating and cooling systems and initially set by manufacturer to ONot Observable {code specifications. ❑Not Applicable 403.1.2 ;Heat pump thermostat installed f ❑Complies [FI10]2 on heat pumps. DDoes Not t .. { ,ONot Observable ❑Not Applicable 403.5.1 IClrculating service hot water ❑Complies [FI11]2 (systems have automatic or IODoes Not accessible manual controls. ❑Not Observable i I❑Not Applicable 1 High Impact(Tier 1) 2 Medium Impact(Tier 2) 3 Low Impact(Tier 3) Project Title: Randles Residence Report date: 08/24/22 Data filename: Page 8 of10 a Section. plans Verified ' Field Verified # Final Inspection Provisions Complies? Comments/Assumptions & Req.ID .Value Value 403.6.1 {All mechanical ventilation system ❑Complies [FI25]z ?fans not part of tested and listed -IODoes Not HVAC equipment meet efficacy .. . and air flow limits per Table ;❑Not Observable ;R403.6.1. ;❑Not Applicable 403.2 ;Hot water boilers supplying heat $ 1❑Complies [F126 2 !through one-or two-pipe heating • s ❑Does Not systems have outdoor setback + ❑Not Observable scontrol to lower boiler water temperature based on outdoor ❑Not Applicable temperature. 403.5.1.1 Z Heated water circulation systems ;❑Complies [FI28]2 i have a circulation pump.The ;❑Does Not isystem return pipe is a dedicated I return pipe or a cold water supply ❑Not Observable }pipe. Gravity and thermos- Applicable ;syphon circulation systems are ?not present. Controls for ' circulating hot water system ' pumps start the pump with signal for hot water demand within the ,; occupancy.Controls automatically turn off the pump i when water is in circulation loop f • is at set-point temperature and ! no demand for hot water exists. ; . 403.5.1.2 I Electric heat trace systems 4 ;❑Complies [FI29)2 3comply with IEEE 515.1 or UL ;❑Does Not 515. Controls automatically ) adjust the energy input to the ❑Not Observable heat tracing ta'maintain the DNot Applicable /desired water temperature in the , !piping. 403.5.2 :Demand recirculation water ;❑Complies [F130)2 isystems have controls that ;❑Does Not Imanage operation of the pump f ;❑Not Observable land limit the temperature of the water entering the cold water I ;❑Not Applicable !piping to<= 104I2F. 403.5.4 I Drain water heat recovery units - - IDComplies [FI31]2 ;tested in accordance with CSA !❑Does Not B55.1. Potable water-side pressure loss of drain water heat ❑Not Observable I recovery units<3 psi for ❑Not Applicable individual units connected to one . i or two showers. Potable water- !side pressure loss of drain water , I heat recovery units < 2 psi for I individual units connected to i. , ;three or more showers. 404.1 90%or more of permanent f❑Complies [F16)1 fixtures have high efficacy lamps.i ;❑Does Not 10Not Observable 11:1Not Applicable 404.1.1 (Fuel gas lighting systems have ;❑Complies [FI23)3 ,no continuous pilot light. ?❑Does Not 4 ❑Not Observable I ❑Not Applicable 401.3 (Compliance certificate posted. i❑Complies [FI7)2 i ❑Does Not f ❑Not Observable ❑Not Applicable 1 High Impact(Tier 1) 2 Medium Impact(Tier 2) 3 Low Impact(Tier 3) Project Title: Randles Residence Report date: 08/24/22 Data filename: Page 9 of10 r\ Section Plant Verified Field. Verified.`.'`' Final Inspection Provisions Complies? Comments/Assumptions &Req.ID Value Value :303.3 f Manufacturer manuals for ❑Complies KFI18]3 mechanical and water heating • ❑Does Not systems have been provided. - DNot Observable } ❑Not Applicable Additional Comments/Assumptions: 1 High Impact(Tier 1) 2 Medium Impact(Tier 2) 3 Low Impact(Tier 3) Project Title: Randles Residence Report date: 08/24/22 Data filename: Page 10 of10 2018 IECC Energy Efficiency Certificate Insulation Rating f R-Value Above-Grade Wall 27.60 Below-Grade Wall 15.00 Floor 0.00 Ceiling/Roof 38.00 Ductwork (unconditioned spaces): Glass & Door Rating U-Factor S:HG`C Window 0.30 Door Heating & Cooling'Equipment x Efficiency Heating System: Cooling System: Water Heater: Name: Date: Comments - 1 j Rhvac Online Elite Software Development, Inc. FW Webb Co .f; 'di CGM Randles Ballston Spa, New York :i . , Page 1 Manual S Performance,Data- System 1-- Main Loads and Design Conditions ilf. " ::; 1. r Cooling: Outdoor Dry Bulb: 85 Sensible Gain: 21.000 Outdoor Wet Bulb: 71 Latent Gain: 4.000 Indoor Dry Bulb: 75 Total Gain: 25.000 Indoor RH: 50 Load SHR: 0.84 Supply Airflow: 1200 Entering Dry Bulb: 75 . Entering Wet Bulb: 62.5 Heating: \-- Outdoor Dry Bulb: -5 Sensible Loss: 85.000 Indoor Dry Bulb: 70 Entering Dry Bulb: -4.0 Indoor RH: 30 Supply Airflow: 1,200 Equipment Performance Data at System D;e`sign Conditions ;! °°Rj : ;I This system's equipment was selected in accordance with ACCA Manual S. Cooling: Model Type:Standard Air Conditioner, Outdoor Model:YCD36B23,Indoor Model:H,YE32(1,2)36 AHRI Reference Number:204816676, Nominal Capacity:34.000,Manufacturer:York Entered Interpolation Data: EDB EDB Total 75°F 75°F EWB Airflow ODB Capacity Sen.Cap Sen. Cap °F CFM °F MBtuhaa MBtuh 62.5 1200 85 34 0.79 27 Interpolation Results: Percent _Lad of Load Sensible Capacity: 27.000 21.000 129% Latent Capacity: 7.000 4.000 175% Total Capacity: 34.000 25.000 136% Heating: Model Type:Natural Gas Furnace, Model:TM9E060B12MP12,Nominal Capacity:60.000,Manufacturer.York Results: I Percent � ,.�,.....�.,,_.._...o. Load of Load } Li tE IJ Iv EE Heating Capacity: 60.000 85.000 71% L/ SEP 2 6 2022 TOWN OF QUEF'N bury 239.12-2-11 RC-0599-2022 BUILDING&COE Randles, Jeffrey & Nancy 42 Old Assembly Point Rd SFD on existing fndt 3372 s.f., Gar. 720 s.f. CGM Randles Friday,September 16,2022 r *= Rhvac Online ! Elite Software Development,Inc., FW Webb Co di) 1 CGM Randles Ballston Spa, New York Page 2 Manual S Performance Data - System 2- Secondary Loads and Design Conditions '. 1 , Cooling: Outdoor Dry Bulb: 85 Sensible Gain: 21.000 Outdoor Wet Bulb: 71 Latent Gain: 4.000 Indoor Dry Bulb: 75 Total Gain: 25.000 Indoor RH: 50 Load SHR: 0.84 Supply Airflow: 1200 Entering Dry Bulb: 75 • Entering Wet Bulb: 62.5 Heating: Outdoor Dry Bulb: -5 Sensible Loss: 85.000 Indoor Dry Bulb: 70 Entering Dry Bulb: -4.0 Indoor RH: 30 Supply Airflow: 1,200 Equipment Performance Data at System Design Conditions ; ;: This system's equipment was selected in accordance with ACCA Manual S. Cooling: Model Type:Standard Air Conditioner,Outdoor Model:YCD48B21, Indoor Model:H,YE32(1,2)36 AHRI Reference Number:204816676,Nominal Capacity:34.000,Manufacturer:York Entered Interpolation Data: EDB EDB Total 75°F 75°F EWB Airflow ODB Capacity Sen.Cap Sen.Cap °F CF�(i °F MBtuh aa MBtuh 62.5 1200 85 34 0.79 27 Interpolation Results: Percent Load of Load Sensible Capacity: 27.000 21.000 129% Latent Capacity: 7.000 4.000 175% Total Capacity: 34.000 25.000 136% Heating: Model Type:Natural Gas Furnace,Model:TM9E060B12MP12,Nominal Capacity:60.000,Manufacturer.York Results: Percent Load of Load Heating Capacity: 60.000 85.000 71% CGM Randles Friday,September 16,2022 '1 [ECEOW, 1[E, t1 SEP 2 6 2022 Form J1 • upon01 Manual J8 Load Calculation TOWN OF QUEENSBURY Project#:9/13l22-2 BUILDING&CODES September 13,2022 Project Information Project#: 9/13/22-2 Notes: Name: Randles Residence Location: 42 Old Assembly Point Road,Town of Queensbur,NY Form J1 (Summer) 1 ,(lame of Room Randles Residence Entire House 2 Running Feet of Exposed Wall 578 3 Ceiling Height(Ft)and Gross Wall Area(SgFt) 10.0 5.989 4 Room Dimensions(Ft)and Floor Plan Area(SgFt( 5,753 Ceiling Siope"(Deg.(and Gross Ceiling Area,(SgFt). 2,243 HIM Stub Type of Exposure Construction(lumber Panel Faces Area or Length Htg. Clg. Heating S-CIg- L-Clg. a 1D-d H 93.25 12.92 124 4,874 1,725 b 113-d S 17.73 5.44 197 97 c 1D-cf 97- 35.25 45 93 293 10,538 13,3E9 Es Windows and Glass c ID-d S _5,2e 20.12 10.07 355 203 Doors e 1C-d E ae.2e. 5.53 17.95 051 818 1 1D•d S 35.25 20.12 45.93 1,701 944 g 1D-ct• 5 35.25 20.12 35.23 1,275 708 , h 1D-cf S 35.25 20.79 30.03 1,033 524 Skylights a 7 Wood and Metal Doors a 119 4-4.40 15.53 75.55 3.155 1,179 a 15C15-Ow '' 7.40 1.14 7e5 5,5E3 972 8 Above Grade Walls and h 12FAsx 4.81 0,99 3,224 15,537 3,20E Partitions c 12F0salFsniticn) 4.81 0.51 245 1,181 128 9 Below Grade Walls s 15C 1 E-Ow left) • 3.522 - 1,143 4,02E a 18A-193 ad . 1.92 1.82 2,18E 4,203 2,975 . 10 Ceilings _ b leA•333d ' ' 1.92 0.29 58.57 113 23 , s 21E-24p 1.2e 2,1E3 2.705 11 Floors b 23F-10cp 5.99 0.81 90.87 74 Heating Load(Btuh) 0.373 22.232 • 12 Infiltration Sensible Load(Muhl Effec ACH WAR 110 2,325 0.193 Latent Load(Blab) _ 2°09 a Occupants at 230 and 200 Stub S 1,280 1,230 b _Scenario!lumber Cef 1,230 13 Internal c Default Adjustments . d _Custom Appliances - e Plants Other User specified addidcnal Icads • - 14 Subtotals Sum lines 43 tnrcugh 13 • • ' 30,422 32.848 4,809 EHLF 8 ESGF I 15 Duct Loads ELG . 15 Ventilation Loads I VentCfm I 120 ECfm 120 4,329 973 3,039 17 Winter Humidification Load GaltDay - . . _ 1S Piping Load - 19 Eloise,Heat • 1,705 20 AED Excursion ' 7,157 21 Total Load I Sum lines 13 through 19 35,251 42.533 7,348 Some rooms have codling;cads that peak in Odcber. 239.12-2-11 RC-0599-2022 Randles,Jeffrey & Nancy 42 Old Assembly Point Rd SFD on existing fndt 3372 s.f., Gar. 720 s.f. All load values shown In Btu/hr Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Software Version:22.0.0594 R See sections at end of report for important Notes,Assumptions and Disclaimers. Page 1 of 2 • Project#:9/13/22-2 Form J1 Name:Randles Residence September 13,2022 Warnings This application has glass areas that produced large cooling loads for part of the day.Zoning may be required to overcome solar load spikes for one or more rooms. Consider a zoned system,or provide zone control(individual,motorized,thermostatically controlled dampers)for problem room.Single speed equipment may not be suitable for the application. The sensible load for some rooms peak during late fall or early winter.This behavior is caused by glass that faces South East,South or South West.Room temperature may • be difficult to control if zoning is not provided. Disclaimers With the permission of the Air Conditioning Contractors of America("ACCA"),material is reproduced from Manual J Residential Load Calculation(8th Edition)which is copyrighted by ACCA.The program and data are provided"as is"without warranty of any kind either expressed or implied.The entire risk as the quality and performance of the program and data is with you.In no event will ACCA be liable to you for any damages,Including without limitation any lost profits,lost savings,or other incidental or consequential damages arising out of the use or inability to use this program or the data.©2015 Air Conditioning Contractors of America.All Rights Reserved.www.acca.org ACCA,Manual J and Powered by ACCA Manual J are registered trademarks of the Air Conditioning Contractors of America.All rights reserved. Cold weather humidification,or some lifestyles that produce excessive moisture,may cause condensation to occur if the absolute humidity of the indoor air is too high for the momentary circumstances.Condensation can occur on surfaces or concealed within the structure,and can lead to mold,mildew,frost damage,and moisture damage.The software does not perform calculations for the estimation or detection of possible condensation problems,and it is the designers(i.e.software users)responsibility to do so Independently if required.For guidance and additional cautions refer to ACCA Manual J 8th Edition,including Section 1-11 and Section 27. The calculated values shown in this report are based on the data Input by the user of the software.Inaccurate or erroneous data Input will result in inaccurate or erroneous results. You are strongly advised to review all Input data carefully,and to have the calculated results reviewed by an experienced heating professional to ensure reasonableness and suitability for your application. IN NO EVENT WILL AVENIR SOFTWARE INC.("AVENIR")OR ITS AFFILIATES BE LIABLE UNDER ANY CONTRACT,NEGLIGENCE,STRICT LIABILITY OR OTHER LEGAL OR EQUITABLE THEORY FOR ANY CONSEQUENTIAL,INCIDENTAL,INDIRECT OR SPECIAL OR PUNITIVE DAMAGES WHATSOEVER(INCLUDING,BUT NOT LIMITED TO,DAMAGES FOR LOSS OF BUSINESS PROFITS,BUSINESS INTERRUPTION,LOSS OF BUSINESS INFORMATION OR DATA AND THE LIKE),EVEN IF SUCH PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.AVENIR'S CUMULATIVE LIABILITY FROM ANY CAUSE RELATED TO OR ARISING FROM THE USE THIS REPORT,AND REGARDLESS OF THE FORM OF THE ACTION,SHALL BE LIMITED TO NO GREATER THAN THE AMOUNT OF FEES PAID TO AVENIR UNDER THE SOFTWARE LICENSE AGREEMENT. All load values shown In Btu/hr Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Software Version:22.0.0594 R See sections at end of report for important Notes,Assumptions and Disclaimers. Page 2 of 2 f ll • l Load Summary up li Manual J8 Load Calculation Project#:9/13/22-2 September 13,2022 Project Information Project#: 9/13/22-2 Notes: Name: Randles Residence Location: 42 Old Assembly Point Road,Town of Queensbur,NY • • Outdoor Conditions Indoor Conditions Floorplan/Levels Location: Glens Falls AP,New Heating Cooling Basement 2,150 ft2 York Room Temp: 70°F 70°F Main Floor 2,143 ft' Elevation: 335' Design Temp Diff: 74.0°F 15.0°F Second Floor 1,460 ft2 Latitude: 43 Humidity: 35 50 Heating Cooling Moisture Diff(Grains): 37.7 Total Heated Area: 5,753 ft' Dry Bulb: -4.0°F 85.0°F Total Cooled Area: 5,753 ft2 Daily Range: Medium- Ventilation Wet Bulb: 71.0°F Num Occupants: 6 Infiltration Heating Cooling Method: Simple Type: Heat Recovery Type: Heat Recovery Stories: 2 ACH: 0.16 ACH: 0.16 Construction: Average Outside Air. 120 cfm Outside Air: 120 cfm Exposure Category: Three or Four Exposures Sensible Eff: 50% Sensible Eff: 50% Num Fireplaces: None Net Air Changes(H/C): 0.37/0.19 Net Flow(H/C): 277 cfm/142 cfm Total Heating:85,251 Btulhr Heating Load Breakdown Sensible Load Breakdown Total Sensible:42,690 Btu/hr Total Latent:7,848 Btu/hr Doors Windows' Load Breakdown - -Windows' Name Heating Sensible Latent We . Doors Windows" 20,790 18,487lil t Below Skylights* 0 0 c Grade Walls Doors 3,355 1,179 Walls �/ Ceilings Ventilation Gangs Walls 22,350 4,205 Roam` )i'i. Floora AED. Below Grade Walls 4,028 nn a Infiltration 1 f ' slower Heat L nngratron Ventilation-) t; Ltnternal Ceilings 4,316 3,999 Floors 3,250 74 Infiltration 22,333 2,325 3,609 - Fenestration Load vs Hour of Day-Block Load(Summer) Internal 2,580 1,200 Other 0 • Duct Loads 0 0 • 0 38000- '� Ventilation 4,829 979 3,039 34000 0$I Humidification 0 30000 ®- �"- e Piping Load 0 s 26000 Legend Radiant Back Loss 0 ca 22000 i, ® Load Line Blower Heat 1,706 18000 ® Average AED' 7,157 14000 Total 85,251 42,690 7,848 10000- 30 Percent M Total Area 5,753 ft' 5,753 ft' 6000- 'Average Load Procedure 8 9 10 11 12 13 14 15 16 17 18 19 20 Hour of Day (1)AT:Difference between supply air and return air (2)Estimated air flow based on specified supply air AT Length=ft Area=ft2 Temperature=°F Flowrate=USGPM Air Flow=cfm Heat Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Loss=Btulhr Software Version:22.0.0594 R Unit Heat Loss=Btu/(heft') Rv=hrft2.°F/btu Head Loss=ft water RH=Radiant Floor Heating BB=Baseboard FA=Forced Air OTH=Other Heating SM=Snowmelt N=Not Heated See sections at end of report for important Notes,Assumptions and Disclaimers. Page 1 of 3 Project#:9/13/22-2 Load Summary Name:Randles Residence September 13,2022 Heating AT':70.0 JSHR:0.84 Average Load:24,272 Btu/hr Peak Load:38,710 Btu/hr Cooling AT':20.0 MJ8 Tons:4.21 Excursion Limit:31,553 Btu/hr AED Load:7,157 Btu/hr Est.Heating CFM2:1055 SgFt/Ton:1366 Est.Cooling CFM2:1837 CFM/SqFt:0.32 (1)AT:Difference between supply air and return air (2)Estimated air flow based on specified supply air AT Length=ft Area=ft Temperature=°F Flowrate=USGPM Air Flow=cfm Heat Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Loss=Btu/hr Software Version:22.0.0594 R Unit Heat Loss=Btu/(hrft2) Rv=hrft2.°F/btu Head Loss=ft water RH=Radiant Floor Heating BB=Baseboard FA=Forced Air OTH=Other Heating SM=Snowmelt N=Not Heated See sections at end of report for important Notes,Assumptions and Disclaimers. Page 2 of 3 Project#:9/13/22-2 Load Summary Name:Randles Residence September 13,2022 Warnings This application has glass areas that produced large cooling loads for part of the day.Zoning may be required to overcome solar load spikes for one or more rooms. Consider a zoned system,or provide zone control(individual,motorized,thermostatically controlled dampers)for problem room.Single speed equipment may not be suitable for the application. The sensible load for some rooms peak during late fall or early winter.This behavior is caused by glass that faces South East,South or South West.Room temperature may be difficult to control if zoning is not provided. Disclaimers With the permission of the Air Conditioning Contractors of America(°ACCA"),material is reproduced from Manual J Residential Load Calculation(8th Edition)which is copyrighted by ACCA.The program and data are provided"as Is"without warranty of any kind either expressed or implied.The entire risk as the quality and performance of the program and data is with you.In no event will ACCA be liable to you for any damages,including without limitation any lost profits,lost savings,or other Incidental or consequential damages arising out of the use or inability to use this program or the data.©2045 Air Conditioning Contractors of America.All Rights Reserved.www.acca.org ACCA,Manual J and Powered by ACCA Manual J are registered trademarks of the Air Conditioning Contractors of America.All rights reserved. Cold weather humidification,or some lifestyles that produce excessive moisture,may cause condensation to occur if the absolute humidity of the indoor air is too high for the momentary circumstances.Condensation can occur on surfaces or concealed within the structure,and can lead to mold,mildew,frost damage,and moisture damage.The software does not perform calculations for the estimation or detection of possible condensation problems,and it is the designers(I.e.software users)responsibility to do so independently if required.For guidance and additional cautions refer to ACCA Manual J Bth Edition,including Section 1-11 and Section 27. The calculated values shown in this report are based on the data Input by the user of the software.Inaccurate or erroneous data input will result in Inaccurate or erroneous results. You are strongly advised to review all input data carefully,and to have the calculated results reviewed by an experienced heating professional to ensure reasonableness and suitability for your application. IN NO EVENT WILL AVENIR SOFTWARE INC.("AVENIR°)OR ITS AFFILIATES BE LIABLE UNDER ANY CONTRACT,NEGLIGENCE,STRICT LIABILITY OR OTHER LEGAL OR EQUITABLE THEORY FOR ANY CONSEQUENTIAL,INCIDENTAL,INDIRECT OR SPECIAL OR PUNITIVE DAMAGES WHATSOEVER(INCLUDING,BUT NOT LIMITED TO,DAMAGES FOR LOSS OF BUSINESS PROFITS,BUSINESS INTERRUPTION.LOSS OF BUSINESS INFORMATION OR DATA AND THE LIKE),EVEN IF SUCH PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.AVENIR'S CUMULATIVE LIABILITY FROM ANY CAUSE RELATED TO OR ARISING FROM THE USE THIS REPORT,AND REGARDLESS OF THE FORM OF THE ACTION,SHALL BE LIMITED TO NO GREATER THAN THE AMOUNT OF FEES PAID TO AVENIR UNDER THE SOFTWARE LICENSE AGREEMENT. • (1)AT:Difference between supply air and return air (2)Estimated air flow based on specified supply air AT Length=ft Area=ft2 Temperature=°F Flowrate=USGPM Air Row=cfm Heat Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Loss=Btu/hr Software Version:22.0.0594 R Unit Heat Loss=Btu/(hrft2) Rv=hrft2.°F/btu Head Loss=ft water RH=Radiant Floor Heating BB=Baseboard FA=Forced Air OTH=Other Heating SM=Snowmelt N=Not Heated See sections at end of report for important Notes,Assumptions and Disclaimers. Page 3 of 3 Load Report UPOn Of Manual J8 Load Calculation Project#:9/13/22-2 September 13,2022 Project Information Project#: 9/13/22-2 Notes: Name: Randles Residence Location: 42 Old Assembly Point Road,Town of Queensbur,NY Manual J Load Summary Total Heating:85,251 Btu/hr Total Sensible:42,690 Btu/hr Total Latent: 7,848 Btu/hr Outdoor Conditions Indoor Conditions Location: Glens Falls AP,New York Heating Cooling Elevation: 335' Room Temp: 70°F 70°F Latitude: 43 Design Temp Diff: 74.0°F 15.0°F Heating Cooling Humidity: 35 50 Dry Bulb: -4.0°F 85.0°F Moisture Diff(Grains): 37.7 Daily Range: Medium Wet Bulb: 71.0°F Infiltration Ventilation Method: Simple Num Occupants: 6 Stories: 2 Heating Cooling Construction: Average Type: Heat Recovery Type: Heat Recovery Exposure Category: Three or Four Exposures ACH: 0.16 ACH: 0.16 Num Fireplaces: None Outside Air. 120 cfm Outside Air: 120 cfm Net Air Changes(Heat/Cool): 0.37/0.19 Sensible Eff: 50% Sensible Eff: 50% Net Flow(Heat/Cool): 277 cfm/142 cfm Floorplan/Levels Basement 2,150 ft2 Total Heated Area: 5,753 ft2 Main Floor 2,143 ft2 Total Cooled Area: 5,753 ft2 Second Floor 1,460 ft2 (1)AT:Difference between supply air and return air (2)Estimated air flow based on specified supply air AT Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Length=ft Area=ft2 Temperature=°F Flowrate=USGPM Air Flow=cfm Heat Loss=Btu/hr Unit Heat Loss=Btu/(hr•ft2) Rv=hr•ft2°F/btu Version:22.0.0594 R Head Loss=ft water RH=Radiant Floor Heating BB=Baseboard FA=Forced Air OTH=Other Heating SM=Snowmelt N=Not Heated See end of report for important Notes and Disclaimers. Page 1 of 9 Name:Randles Residence Load Report Project#:9/13/22-2 September 13,2022 Constructions Walls Code Description U-Value Area Heating Cooling 15C15-0w Four Inch Concrete;Wood Framing;R-15 Insulation in 2 x 4 Stud Cavity;Plus 0.100 765 5,663 872 Interior Finish 12F-0sw Frame Wall or Partition;Wood Framing;R-21 Insulation in 2 x 6 Stud Cavity; 0.065 3,224 15,507 3,206 Stucco or Wood Siding;Plus Interior Finish 12F-Osw Frame Wall or Partition;Wood Framing;R-21 Insulation in 2 x 6 Stud Cavity; 0.065 245 1,181 126 Stucco or Wood Siding;Plus Interior Finish Below Grade Walls Code Description U-Value Area Heating Cooling 15C15-0w(6 ft) Four Inch Concrete;Wood Framing;R-15 Insulation in 2 x 4 Stud Cavity;Plus 0.100 1,143 4,028 0 Interior Finish Doors Code Description U-Value Area Heating Cooling 11J Metal Door with Fiberglass Core 0.600 76 3,355 1,179 Floors Code Description U-Value Area Heating Cooling 21B-24p 0.100 2,150 2,705 0 20P-10cp Carpet or Hardwood Cover;R-10 board Insulation 0.081 91 545 74 Ceilings Code Description U-Value Area Heating Cooling 16A-38ad No radiant barrier over ceiling or same type of air space behind an attic knee 0.026 2,185 4,203 3,976 wall;R-38 Insulation;Materials:Asphalt Shingles(a),Metal(m),Wood Shakes(w),Tar/Gravel(x),Membrane(z),Tile,Slate or Concrete;Colors: Dark(d),Light(I),White(w); 16A-38ad No radiant barrier over ceiling or same type of air space behind an attic knee 0.026 59 113 23 wall;R-38 Insulation;Materials:Asphalt Shingles(a),Metal(m),Wood Shakes(w),Tar/Gravel(x),Membrane(z),Tile,Slate or Concrete;Colors: Dark(d),Light(I),White(w); (1)AT:Difference between supply air and return air (2)Estimated air flow based on specified supply air AT Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Length=ft Area=ft' Temperature='F Fiowrate=USGPM Air Flow=cfrn Heat Loss=Btu/hr Unit Heat Loss=Btu/(hrft') Rv=hrft'•'F/btu Version:22.0.0594 R Head Loss=ft water RH=Radiant Floor Heating BB=Baseboard FA=Forced Air OTH=Other Heating SM=Snowmelt N=Not Heated See end of report for important Notes and Disclaimers. Page 2 of 9 Name:Randles Residence Load Report • Project#:9/13/22-2 September 13,2022 Glazing Windows Code Description Exposure U-Value SHGC Area Heating Cooling 1 D-cf Double pane operable window or sliding glass door,with N 0.49 0.56 134 4,874 1,736 Clear Glass-Insulated Fiberglass Framing, BlindsMedium45(50%),1',1'above. 1 D-cf Double pane operable window or sliding glass door,with S 0.49 0.56 5 197 97 Clear Glass-Insulated Fiberglass Framing, BlindsMedium45(50%),1',1'above. 1 D-cf Double pane operable window or sliding glass door,with W 0.49 0.56 293 10,638 13,359 Clear Glass-Insulated Fiberglass Framing, BlindsMedium45(50%),1',1'above. 1 D-cf Double pane operable window or sliding glass door,with S 0.49 0.56 10 365 203 Clear Glass-Insulated Fiberglass Framing, BlindsMedium45(50%),1',1'above. 1 D-cf Double pane operable window or sliding glass door,with E 0.49 0.56 18 651 818 Clear Glass-Insulated Fiberglass Framing, BlindsMedium45(50%),1',1'above. 1 D-cf Double pane operable window or sliding glass door,with S 0.49 0.56 47 1,701 944 Clear Glass-Insulated Fiberglass Framing, BlindsMedium45(50%),1',1'above. 1D-cf Double pane operable window or sliding glass door,with S 0.49 0.56 35 1,276 708 Clear Glass-Insulated Fiberglass Framing, BlindsMedium45(50%),1',1'above. 1 D-cf Double pane operable window or sliding glass door,with S 0.49 0.56 30 1,088 624 Clear Glass-Insulated Fiberglass Framing, BlindsMedium45(50%),1',1'above. (1)AT:Difference between supply air and return aft (2)Estimated air flow based on specified supply air AT Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Length=ft Area=ft2 Temperature=°F Flowrate=USGPM Air Flow=cfm Heat Loss=Btu/hr Unit Heat Loss=Btu/(hrft2) Rv=hrft2•°F/btu Version:22.0.0594 R Head Loss=ft water RH=Radiant Floor Heating BB=Baseboard FA=Forced Air OTH=Other Heating SM=Snowmelt N=Not Heated See end of report for important Notes and Disclaimers. Page 3 of 9 Name:Randles Residence Load Report Project#:9/13/22-2 September 13,2022 Internal Loads Other Loads Description Sensible Latent Blower Load 1,706 Btu/hr Default(1,200 Btuh) 1,200 0 6 Occupants: 1,380 1,200 Total 2,580 1,200 (1)AT:Difference between supply air and return air (2)Estimated air flow based on specified supply air AT Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Length=ft Area=fF Temperature=°F Flowrate=USGPM Air Flow=cfm Heat Loss=Btu/hr Unit Heat Loss=Btu/(hrft2) Rv=hrft'•°F/btu Version:22.0.0594 R Head Loss=ft water RH=Radiant Floor Heating BB=Baseboard FA=Forced Air OTH=Other Heating SM=Snowmelt N=Not Heated See end of report for important Notes and Disclaimers. Page 4 of 9 Name:Randles Residence Load Report Project#:9/13/22-2 September 13,2022 Load Breakdown Heating Load Breakdown Name Heating Sensible Latent Windows* 20,790 18,487 Skylights* 0 0 Doors Doors 3,355 1,179 Walls 22,350 4,205 Windows* Below Grade Walls 4,028 Walls Ceilings 4,316 3,999 Floors 3,250 74 Infiltration 22,333 2,325 3,609 Below Internal 2,580 1,200 Grade Other 0 — _ — r Walls Ceilings _ Ventilation Duct Loads 0 0 0 Floors Ventilation 4,829 979 3,039 Humidification 0 LJnfil .tion Piping Load 0 Radiant Back Loss 0 Blower Heat 1,706 AED• 7,157 Sensible Load Breakdown Total 85,251 42,690 7,848 Total Area 5,753 ftz 5,753 ft2 Windows* `Average Load Procedure Heating Al':70.0 JSHR:0.84 Cooling AT':20.0 MJ8 Tons:4.21 Est.Heating CFM2:1055 SaFt/Ton:1366 Est.Cooling CFM2:1837 CFM/SaFt:0.32 Doors Walls _ .. \_ * Ceilings AED Floors=� Infiltration \.—.Blower Heat Ventilation ntemal (1)AT:Difference between supply air and return air (2)Estimated air flow based on specified supply air AT Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Length=ft Area=ft2 Temperature=°F Flowrate=USGPM Air Flow=cfm Heat Loss=Btu/hr Unit Heat Loss=Btu/(hr•ft') Rv=hr•ft2-°F/btu Version:22.0.0594 R Head Loss=ft water RH=Radiant Floor Heating BB=Baseboard FA=Forced Air OTH=Other Heating SM=Snowmelt N=Not Heated See end of report for important Notes and Disclaimers. Page 5 of 9 Name:Randles Residence Load Report - Project#:9/13/22-2 September 13,2022 AED Fenestration Load vs Hour of Day-Block Load(Summer) 40000- 38000- 36000- 34000- 32000- 30000- 28000- 26000- - \ t 24000- Legend z - ® Load Line 00 22000- - — Average 20000- — 30 Percent 18000- 16000- .4,1'�f. 14000- '� 12000- 10000- 8000- 6000 1 I i 1 1 1 I I I I 1 I I 8 9 10 11 12 13 14 15 16 17 18 19 20 Hour of Day Average Load:24,272 Btu/hr Peak Load:38,710 Btu/hr Excursion Limit:31,553 Btu/hr AED Load:7,157 Btu/hr (1)AT:Difference between supply air and return air (2)Estimated air flow based on specified supply air AT Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Length=ft Area=ft° Temperature=°F Flowrate=USGPM Air Flow=cfm Heat Loss=Btu/hr Unit Heat Loss=Btu/(hr•ft') Rv=hr•ft=•°F/btu Version:22.0.0594 R Head Loss=ft water RH=Radiant Floor Heating BB=Baseboard FA=Forced Air OTH=Other Heating SM=Snowmelt N=Not Heated See end of report for important Notes and Disclaimers. Page 6 of 9 Name:Randles Residence Load Report - Project#:9/13/22-2 September 13,2022 Heating Zones Zone Area Room Temp Total Load Zone 101 2,150 70 18,373 Zone 201 2,143 70 33,852 Zone 301 1,460 70 28,197 Heating Rooms Room Area • Room Temp Total Load* Basement 959 70 7,018 Bath 53 70 2,396 Bath 81 70 1,115 Bedroom 143 70 1,461 Bedroom 175 70 1,660 Bedroom 176 70 2,246 Bedroom 204 70 2,956 Bunk 221 70 4,587 Kitchen,Great,Dining Room 1,474 70 22,133 Laundry 112 70 2,754 Master Bath 182 70 2,092 Office 86 70 2,166 Open to Below 422 70 8,175 Pantry 84 70 2,696 Powder 38 70 539 Primary Bedroom 269 70 5,436 Room A-03 723 70 6,681 Room C-02 107 70 1,694 Stairs 95 70 1,486 Stairs 54 70 67 W.I.0 94 70 1,063 •The sum of room loads may not be equal to the project total due to additional system loads. Cooling Zones Zone Area Room Temp AED Sensible Load Entire Building 5,753 70 NO 40,005 (Average Load Procedure) Cooling Rooms (1)AT:Difference between supply air and return air (2)Estimated air flow based on specified supply air AT Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Length=ft Area=ft2 Temperature=°F Flowrate=USGPM Air Flow=cfm Heat Loss=Btu/hr Unit Heat Loss=Btu/(hr•ft2) Rv=hr•ftz•°F/btu Version:22.0.0594 R Head Loss=ft water RH=Radiant Floor Heating BB=Baseboard FA=Forced Air OTH=Other Heating SM=Snowmelt N=Not Heated See end of report for important Notes and Disclaimers. Page 7 of 9 Name:Randles Residence Load Report Project#:9/13/22-2 September 13,2022 Room Area Room Temp AED Sensible Load* Basement 959 70 NO 1,176 Bath 53 70 YES 470 Bath 81 70 NO 600 Bedroom 143 70 NO 1,668 Bedroom 175 70 NO 1,697 Bedroom 176 70 NO 1,670 Bedroom 204 70 NO 1,396 Bunk 221 70 YES 1,361 Kitchen,Great,Dining Room 1,474 70 NO 18,677 Laundry 112 70 NO 1,026 Master Bath 182 70 NO 1,063 Office 86 70 YES 459 Open to Below 422 70 NO 5,360 Pantry 84 70 YES 724 Powder 38 70 YES 101 Primary Bedroom 269 70 NO - 3,837 Room A-03 723 70 YES 986 Room C-02 107 70 YES 629 Stairs 95 70 YES 171 Stairs 54 70 YES 24 W.I.0 94 70 YES 350 *(Average Load Procedure) The sum of room loads may not equal the project total due to variations in solar gain and system loads. . (1)AT:Difference between supply air and return air (2)Estimated air flow based on specified supply air AT Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Length=ft Area=ft' Temperature=°F Flowrate=USGPM Alr Flow=cfm Heat Loss=Btu/hr Unit Heat Loss=Btu/(hr•ft2) Rv=hr•ft'•°F/btu Version:22.0.0594 R Head Loss=ft water RH=Radiant Floor Heating BB=Baseboard FA=Forced Air OTH=Other Heating SM=Snowmelt N=Not Heated See end of report for important Notes and Disclaimers. Page 8 of 9 Name:Randles Residence Load Report • Project#:9/13/22-2 September 13,2022 Warnings This application has glass areas that produced large cooling loads for part of the day.Zoning may be required to overcome solar load spikes for one or more moms.Consider a zoned system,or provide zone control(individual, motorized,thermostatically controlled dampers)for problem room.Single speed equipment may not be suitable for the application. The sensible load for some rooms peak during late fall or early winter.This behavior is caused by glass that faces South East,South or South West.Room temperature may be difficult to control if zoning is not provided. Disclaimers With the permission of the Air Conditioning Contractors of America("ACCA"),material is reproduced from Manual J Residential Load Calculation(8th Edition)which is copyrighted by ACCA.The program and data are provided"as is"without warranty of any kind either expressed or implied.The entire risk as the quality and performance of the program and data is with you.In no event will ACCA be liable to you for any damages,including without limitation any lost profits,lost savings,or other incidental or consequential damages arising out of the use or inability to use this program or the data.©2015 Air Conditioning Contractors of America.All Rights Reserved.www.acca.org ACCA,Manual J and Powered by ACCA Manual J are registered trademarks of the Air Conditioning Contractors of America.All rights reserved. Cold weather humidification,or some lifestyles that produce excessive moisture,may cause condensation to occur if the absolute humidity of the Indoor air is too high for the momentary circumstances.Condensation can occur on surfaces or concealed within the structure,and can lead to mold,mildew,frost damage,and moisture damage.The software does not perform calculations for the estimation or detection of possible condensation problems,and it is the designers(i.e.software users)responsibility to do so independently if required.For guidance and additional cautions refer to ACCA Manual J 8th Edition,including Section 1-11 and Section 27. The calculated values shown in this report are based on the data input by the user of the software.Inaccurate or erroneous data input will result in inaccurate or erroneous results.You are strongly advised to review all input data • carefully,and to have the calculated results reviewed by an experienced heating professional to ensure reasonableness and suitability for your application. IN NO EVENT WILL AVENIR SOFTWARE INC.("AVENIR")OR ITS AFFILIATES BE LIABLE UNDER ANY CONTRACT,NEGLIGENCE,STRICT LIABILITY OR OTHER LEGAL OR EQUITABLE THEORY FOR ANY CONSEQUENTIAL,INCIDENTAL,INDIRECT OR SPECIAL OR PUNITIVE DAMAGES WHATSOEVER(INCLUDING,BUT NOT LIMITED TO,DAMAGES FOR LOSS OF BUSINESS PROFITS,BUSINESS INTERRUPTION,LOSS OF BUSINESS INFORMATION OR DATA AND THE LIKE),EVEN IF SUCH PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.AVENIR'S CUMULATIVE LIABILITY FROM ANY CAUSE RELATED TO OR ARISING FROM THE USE THIS REPORT,AND REGARDLESS OF THE FORM OF THE ACTION,SHALL BE LIMITED TO NO GREATER THAN THE AMOUNT OF FEES PAID TO AVENIR UNDER THE SOFTWARE LICENSE AGREEMENT. (1)AT:Difference between supply air and return air (2)Estimated air flow based on specified supply air AT Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Length=ft Area=ft2 Temperature=°F Flowrate=USGPM Air Flow=cfm Heat Loss=Btu/hr Unit Heat Loss=Btu/(hr•ft2) Rv=hr•ft2'°F/btu Version:22.0.0594 R Head Loss=ft water RH=Radiant Floor Heating BB=Baseboard FA=Forced Air OTH=Other Heating SM=Snowmelt N=Not Heated See end of report for important Notes and Disclaimers. Page 9 of 9 AED Report uponor Manual J8 Load Calculation Project#:9/13/22-2 September 13,2022 Project Information Project#: 9/13/22-2 Notes: Name: Randles Residence Location: 42 Old Assembly Point Road,Town of Queensbur,NY Outdoor Conditions Indoor Conditions Floorplan/Levels Location: Glens Falls Heating Cooling Basement - 2,150 ft2 AP,New York Room Temp: 70°F 70°F Main Floor 2,143 ft2 Elevation: 335' Design Temp 74.0°F 15.0°F Second Floor 1,460 ft2 Latitude: 43 Diff: Heating Cooling Humidity: 35 50 Total Heated Area: 5,753 ft2 Dry Bulb: -4.0°F 85.0°F Moisture Diff(Grains): 37.7 Total Cooled Area: 5,753 ft2 Daily Range: Medium Wet Bulb: 71.0°F Fenestration Load vs Hour of Day(Summer) 40000- 38000- • 36000- 34000- 32000- 30000- / 28000- 26000- t 24000- ®- Legend - 4/ ® Load Line m 22000- 20000- ver — Average - 18000- — 30 Percent 16000- 14000- 12000- ��^ 10000- 8000- '1/44,...°,® 6000 i i i i i i i i i i i i i 8 9 10 11 12 13 14 15 16 17 18 19 20 Hour of Day Average Load:24,272 Btu/hr Peak Load:38,710 Btu/hr Excursion Limit:31,553 Btu/hr AED Load:7,157 Btu/hr All load values shown in Btu/hr Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Software Version:22.0.0594 R See sections at end of report for important Notes,Assumptions and Disclaimers. Page 1 of 5 Project#:9/13/22-2 AED Report Name:Randles Residence September 13,2022 Cooling Rooms Basement(Summer) Room A-03(Summer) 1000- 1000 .c t o w w co .e." 0- i i i i I I I I I i 1 -1-1 0 t I I I 'I : I I I I I I I 8 9 10 11 12 13 14 15 16 17 18 19 20 8 9 10 11 12 13 14 15 16 17 18 19 20 Hour of Day Hour of Day Average Load:329 Btu/hr Peak Load:495 Btu/hr Average Load:218 Btu/hr Peak Load:259 Btu/hr Excursion Limit:427 Btu/hr AED Load:68 Btu/hr Excursion Limit:284 Btu/hr AED Load:0 Btu/hr Bedroom(Summer) Bedroom(Summer) 3000- 3000 2000- 2000 Aigw, it m — m 1000— 1000 0 i i i i I I I I I I I I I 0 i i i i I i I I I I I I I 8 9 10 11 12 13 14 15 16 17 18 19 20 8 9 10 11 12 13 14 15 16 17 18 19 20 Hour of Day Hour of Day Average Load:966 Btu/hr Peak Load:1,956 Btu/hr Average Load:966 Btu/hr Peak Load:1,956 Btu/hr Excursion Limit:1,256 Btu/hr AED Load:700 Btu/hr Excursion Limit:1,256 Btu/hr AED Load:700 Btu/hr Kitchen,Great,Dining Room(Summer) Bedroom (Summer) 20000 3000 L17000 kl 14000 2000 0m 11000 0 co 8000 . 1000 5000 2000 i i i i i i i '... i 0 8 9 10 11 12 13 14 15 16 17 18 19 20 8 9 10 11 12 13 14 15 16 17 18 19 20 Hour of Day Hour of Day Average Load:11,438 Btu/hr Peak Load:20,109 Btu/hr Average Load:1,527 Btu/hr Peak Load:2,081 Btu/hr Excursion Limit:14,869 Btu/hr AED Load:5,240 Btu/hr Excursion Limit:1,988 Btu/hr AED Load:95 Btu/hr All load values shown in Btu/hr Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Software Version:22.0.0594 R See sections at end of report for important Notes,Assumptions and Disclaimers. Page 2 of 5 Project#:9/13/22-2 AED Report Name:Randles Residence September 13,2022 Bath(October) Bedroom(October) 2000- 4000 3000 "o .51000- 5 2000 coco7 ®. 1000 �„. 0 I i 1 I I I I I I I I I t 0 III 1 1 I I I I I I 1 8 9 10 11 12 13 14 15 16 17 18 '19 20 8 9 10 11 12 13 14 15 16 17 18 19 20 Hour of Day Hour of Day Average Load:639 Btu/hr Peak Load:1,149 Btu/hr Average Load:1,798 Btu/hr Peak Load:3,232 Btu/hr Excursion Limit:831 Btu/hr AED Load:318 Btu/hr Excursion Limit:2,338 Btu/hr AED Load:895 Btu/hr Office(Summer) Open to Below(Summer) 1000- 5000- Ark4000- w 3000- Lm CO Ca2000- l a„..a" `I 1000- 0 I I I I I 1 1 1 1 1 1 1 1 0 I l I l I $ l 1 1 1 1 1 1 8 9 10 11 12 13 14 15 16 17 18 19 20 8 9 10 11 12 13 14 15 16 17 18 19 20 Hour of Day Hour of Day Average Load:240 Btu/hr Peak Load:286 Btu/hr Average Load:2,204 Btu/hr Peak Load:4,462 Btu/hr Excursion Limit:312 Btu/hr AED Load:0 Btu/hr Excursion Limit:2,865 Btulhr AED Load:1,597 Btu/hr Primary Bedroom(Summer) Master Bath(Summer) 5000- 1000- 4000- —. — ______ — = 3000- 01 �. _ 00 2000- o, °° 1000- 0- 1 1 1 I I 1 I 1 I I I I I 0 I I I I i i I I I I 1 II 8 9 10 11 12 13 14 15 16 17 18 19 20 8 9 10 11 12 13 14 15 16 17 18 19 20 Hour of Day Hour of Day Average Load:2,851 Btu/hr Peak Load:4,461 Btulhr Average Load:532 Btu/hr Peak Load:897 Btu/hr Excursion Limit:3,706 Btu/hr AED Load:755 Btu/hr Excursion Limit:692 Btu/hr AED Load:205 Btu/hr All load values shown in Btu/hr Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Software Version:22.0.0594 R See sections at end of report for important Notes,Assumptions and Disclaimers. Page 3 of 5 3 Project#:9/13/22-2 AED Report Name:Randles Residence September 13,2022 Laundry(Summer) Bunk(Summer) 1000- 1000- m ® ® • m 0 1 I i i r r 1 ill i 1 1 0 i i 1 i 1 1 ➢ i 1 1 1 1' -1 8 9 10 11 12 13 14 15 16 17 18 19 20 8 9 10 11 12 13 14 15 16 17 18 19 20 Hour of Day Hour of Day Average Load:532 Btu/hr Peak Load:897 Btu/hr Average Load:677 Btu/hr Peak Load:804 Btu/hr Excursion Limit:692 Btu/hr AED Load:205 Btu/hr Excursion Limit:880 Btu/hr AED Load:0 Btu/hr All load values shown in Btu/hr Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Software Version:22.0.0594 R See sections at end of report for important Notes,Assumptions and Disclaimers. Page 4 of 5 Project#:9/13/22-2 AED Report Name:Randles Residence September 13,2022 Warnings This application has glass areas that produced large cooling loads for part of the day.Zoning may be required to overcome solar load spikes for one or more rooms. Consider a zoned system,or provide zone control(Individual,motorized,thermostatically controlled dampers)for problem room.Single speed equipment may not be suitable for the application. The sensible load for some rooms peak during late fall or early winter.This behavior is caused by glass that faces South East,South or South West.Room temperature may be difficult to control if zoning is not provided. Disclaimers With the permission of the Air Conditioning Contractors of America("ACCA"),material is reproduced from Manual J Residential Load Calculation(8th Edition)which Is copyrighted by ACCA.The program and data are provided"as Is"without warranty of any kind either expressed or Implied.The entire risk as the quality and performance of the program and data is with you.In no event will ACCA be liable to you for any damages,including without limitation any lost profits,lost savings,or other incidental or consequential damages arising out of the use or Inability to use this program or the data.©20115 Air Conditioning Contractors of America.All Rights Reserved.www.acca.org ACCA,Manual J and Powered by ACCA Manual J are registered trademarks of the Air Conditioning Contractors of America.All rights reserved. Cold weather humidification,or some lifestyles that produce excessive moisture,may cause condensation to occur if the absolute humidity of the indoor air is too high for the momentary circumstances.Condensation can occur on surfaces or concealed within the structure,and can lead to mold,mildew,frost damage,and moisture damage.The software does not perform calculations for the estimation or detection of possible condensation problems,and it is the designers(i.e.software users)responsibility to do so Independently if required.For guidance and additional cautions refer to ACCA Manual J 8th Edition,including Section 1-11 and Section 27. The calculated values shown in this report are based on the data Input by the user of the software.Inaccurate or erroneous data input will result in inaccurate or erroneous results. You are strongly advised to review all Input data carefully,and to have the calculated results reviewed by an experienced heating professional to ensure reasonableness and suitability for your application. IN NO EVENT WILL AVENIR SOFTWARE INC.CAVENIR")OR ITS AFFILIATES BE LIABLE UNDER ANY CONTRACT,NEGLIGENCE,STRICT LIABILITY OR OTHER LEGAL OR EQUITABLE THEORY FOR ANY CONSEQUENTIAL,INCIDENTAL,INDIRECT OR SPECIAL OR PUNITIVE DAMAGES WHATSOEVER(INCLUDING,BUT NOT LIMITED TO,DAMAGES FOR LOSS OF BUSINESS PROFITS,BUSINESS INTERRUPTION,LOSS OF BUSINESS INFORMATION OR DATA.AND THE LIKE),EVEN IF SUCH PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.AVENIR'S CUMULATIVE LIABILITY FROM ANY CAUSE RELATED TO OR ARISING FROM THE USE THIS REPORT,AND REGARDLESS OF THE FORM OF THE ACTION,SHALL BE LIMITED TO NO GREATER THAN THE AMOUNT OF FEES PAID TO AVENIR UNDER THE SOFTWARE LICENSE AGREEMENT. All load values shown in Btu/hr Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Software Version:22.0.0594 R See sections at end of report for important Notes,Assumptions and Disclaimers. Page 5 of 5 • Manual J Worksheets uponofManual J8 Load Calculation Project#:9/13/22-2 September 13,2022 Project Information Project#: 9/13/22-2 Notes: Name: Randles Residence Location: 42 Old Assembly Point Road,Town of Queensbur,NY Form J1(Summer) I !lame of Room Rendles P.e;i4ence Entire House 2 Running Feet of Exposed Wall 573 Ceiling Height(Ft)and Gross Wall Area(SgFt) 10 0 5,989 ^ Room Dimensions IFl)and Floor Plan Area(SgFt) 5.7E3 Ceiling Slope IDeg.)and Gross Ceiling Area)SgFt) 2.243 TM Btuh Type of Exposure Construction(lumber Panel Faces Area or Length Htg. CIg_ Heating S-Cig, L-Clg. a 1D-d IF, .25.25 12.52 134 .t574 1,725 10-d S 38.29 17.73 5.44 197 97 c 1D•d N; 3928 45.52. 292 10.e2£ 13,355 Ca Windows and Glass 1D•d S 33.2@ 20:l2 t0A7 399 233 Doors 1 O.d E 3fi1$ 45.53 17 9e Edt 813 . f 1D-d S 20,12 48.93 1,701 944 - g ID-d S 2228 20.12 35.23 1,278 703 h ID-cf S 2.5.2. 20.75 23.03 'LOSS 524 - eb Skylights a 7 Wood and Metal Doors a lid 44,43 15.53 75 cn a.arc, 1,179 a 15C1E-0a' 7.40 1.14 7E5 5.553 872 Above Grade Walls and 3 b 12F•0.r.r 4,31 0.93 3:224 5.507 2,2oe Partitions — C 12F-OsvdPaditicn) 4.31 0.51 245 1,131 12, • 9 Below Grade Walls a 15C15-0s left) 3.52 1.143 4,323 a 1eA-3sad 1.92, 1.32 2,135 4.003 3.97e 10 Ceilings b IIA-2.3ad - 1.52 0 39 53.57 I'13 23, a 21E-24p 1.25 2.150' 2,705 11 Floors b 20P•10 5.99 0.31 50.87 545 74 Heating Load(Btuh) 0.373 22.222 12 Infiltration Sensible Load(Btuh) Effect ACH WAR 1.0 2,325 ---• 0.150 Latent Load Pub) • 3,`33 a Occupants at 230 and 200 Btuh I I,390 1,200 b Scenario(lumber Def 1,200 13 Internal c Default Adjustments ' d Custom Appliances Plants Other User specified adoiticn al lc ads 14 Subtotals Sum line;5 through 13 . 30,422 32.843 4,339 EHLF 8 ESGF 15 Duct Loads , ELG 15 Ventilation Loads I Vent Clot I 123 E Cfm 120 4,529 979 3,333 17 Winter Humidification Load Gal/Day . 18 Piping Load 19 Blower Heat 1,708 20 AED Excursion 7,157 • 21 Total Load I Sum lines 13 through 15 35,251 42,e90 7.345 Some roans have tootling loads that pea',in Odoter. All load values shown In Btu/hr Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Software Version:22.0.0594 R See sections at end of report for important Notes,Assumptions and Disclaimers. Page 1 of 14 • • Project#:9/13/22-2 Manual J Worksheets Name:Randles Residence September 13,2022 Worksheet A Location And Design Conditions Location:Elms Falls AP,New Yorl. Elevation:335 ft Latitude:43 Indoor Conditions,Heating: DB=70.0,2F RH=35?5, Indoor Conditions,Cooling: DB=70.0'F RH=50% Table 1 Conditions 99%DB=-4.0-'F 114 DB=05.0'F Coincident WE=71.0'F Daffy Range=Medium Design Temperature Differences HTD=74 0'F .CTD=15.0'F AGrains=37.7 • • • • • • • • All load values shown in Btu/hr Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Software Version:22.0.0594 R See sections at end of report for important Notes,Assumptions and Disclaimers. Page 2 of 14 • Project#:9/13/22-2 Manual J Worksheets Name:Randles Residence September 13,2022 Worksheet B HTM Values for Windows and Glass Doors Randles Residence Panel Const.❑umber Internal Shade Faces U-Value SHGC Insect Screen External Shading Overhang Heat HMI Cool HTM s ID-d Elin0;l Ie-oium»Ef'_-2% 11 0.400 0.E0 Fiche 1.02 1 ft-1 ft Abcvd 3e.2d 72:n2 b ID-d ElinisLIecium4E(00t) S 0.400 0.55 L'cae 1.00 t ft-1 ft Acove _...__ 17.73 c, ID-d Elind;I Iedium4:{?0%j %V 0.4E0 055 Ttcns 1.00_ 1 ft-1 ft Axve 25.25 45.52 d 1D-d Elinas0ledium45150%) S 0.490 D 55' 0icne . 1.00 I ft-1 h Accve 28.25 20.12 _ e IC-d Elird;T,lsaium»E(EO%j E 0.45{1 0.'_3 Ncns 1.00 1 li-1 ftAxv= 35.20 0.03 f 1C-d ElincslIeoiuns40l00%) S 0490 0.58 t{cns 1.00 1 ft-1F,ibcvs 2.5.2e. 20.12 0 ID-d Elind?l,l_dum4F{E0%j S 0<90 0.t5 T:cne 1.00 1 ft-1 hAbcve 28.28 20.12 h 1C-d BlinoeI ledium45('0%) S • 0.490 0.E8 Hone 1.00 I ft-1 h Accve 28.25 20.79 All load values shown in Btu/hr Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Software Version:22.0.0594 R See sections at end of report for important Notes,Assumptions and Disclaimers. • Page 3 of 14 • 1 � Project#:9/13/22-2 Manual J Worksheets Name:Randles Residence September 13,2022 Worksheet C HTM Values for Skylights Randles Residence Item _Const.'lumber' Internal Shading Tilt Faces U-Value SHGC Description Perimeter 'Area UDR Heating HTM Cooling H1I I • All load values shown In Btu/hr Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Software Version:22.0.0594 R See sections at end of report for important Notes,Assumptions and Disclaimers. Page 4 of 14 4 Project#:9/13/22-2 Manual J Worksheets Name:Randles Residence September 13,2022 Worksheet D HMI Values and Net Area for Opaque Panels Randles Residence Hestinb r4TLI=Us HTD cr U x PTCH Construction HID=74.0'F CM=15.0'F Design Range=I.Ieaium Construction Cooling HTRI=U x CLTD cr u x FTC\C llurnher and Exposure Average U-Value P Gross Opening Het Slab HTD Group CLTD aB Direction,or Length Height/ or Slab Heating Cooling Ceiling Slope IFI) Width Area Area Area Edge F•Value or Humber or HTM HTA1 ` (FI} .(SgFti (S4Ft) (SOB IFt) 4A. PTDH SA PTDC Wood and Metal Doors a 111J I it I 7 I ,see I I I I o.eoo I 74.0 . I 28.o. I 44.43 I 1550 Above Grade Walls a 1501E-0'x 197 4 787 21.73 725 0.100 74.3 1 114 7.40 1.14 t 12F-0sa 381 10 3,814 253 3.224 3.0E5 74.3 F 15,3 4.81 0.99 Partition Walls s. I12F-11ss1Pa:titicn) I 25 I 10 I 245 I I 245 I I 0.025 I 74.0 I F I 7.9 I 4.81 I 0.51 Below Grade Walls 3 11501E-0m42 h) I 197 I 6 I 1,143 I I. I I 0.046 I 74A I I I 3.52 Ceilings s 12A-23a2 2,1SE 2,155 0.029 74.o ' _ 70.0. 1.92 1.E2 b 12A-38ad 5.8.57 58.57 _ . 0.025 74.3 15.0 1.52 0.29 Passive Floors 3 218-24c 2,150 3.017 74.0 0.0 1.25 0100 b 23P-10= 90.87 • - 0.051 74.0 10.0 6.99 - 0.31 Radiant Floors _ I I I I I I I I I I I I I • All load values shown In Btu/hr Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Software Verslon:22.0.0594 R See sections at end of report for important Notes,Assumptions and Disclaimers. Page 5 of 14 Project#:9/13/22_2 Manual J Worksheets Name:Randles Residence September 13,2022 Worksheet E Infiltration Loads HTD=74.0'F I CTo=15.0'F I Design Grains=37.7 I fable 10A ACF=0 95 Step 1,Option 1-Infiltration Loads for neutral Space Pressure Based en Table 5 ACH Values - Operating Floor Table 5 Space AGV Space Fireplace Total Mode Area Leakage ACH (CuFt) ICFM ICFM ICFM (CuFt) Category Heating 9,753 A.verage 0.37 oa,9E4 277 0 277 Cooling - 9,7553 Average 0.19 44,9E4 142' 142 Step 2-Infiltration Loads on Central Equipment'(Adjusted far Space Pressure) Type of VCFM OACfm Cfm ICFh1 Het H 8 C Line 11, Flowing to Exhausted CFM.,4 Infilt.CFfd Loads Load (Option 1) WorksbeetH Space from Space IICFM ,(Utuh) Heat Load 120 123 129 0 277 277 22.333 Sens Load 2225 120 123 120 0 1:2 142 Lat Load' 2.509 1. The room infiltration Ica:equals the block infiltration load an th4 ceobal equipment multiplied by life gross wall area ratio MAR). 2. WAR=Gross room wall bre9+Gross:Y311 area for all rooms Served ty the central equipment. • All load values shown in Btulhr Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Software Version:22.0.0594 R See sections at end of report for important Notes,Assumptions and Disclaimers. Page 6 of 14 r , Project#:9/13/22-2 Manual J Worksheets Name:Randles Residence September 13,2022 Worksheet F Internal Loads Sensible Latent Load Use Sensible, Latent Source of Internal Load Count Factor Factor (Stub) pith) Factor Factor Load Load 3 Occupants 0 230 200 1.0 1.0 1",3&0 1.200 _ Total occupancy load for Form JI(Stub'= 1.233 1,230 Default Scenario ' Default 0.200 Stuh),I 1 I 1.200 I I 1.0 I 1.0 1,200 _ Default scenario toad for Form J1(Btuh)= 1.203 Adjustments to Default Scenario `lone I I •I . I I Total adjustment options for Form J1 letuh) Individual Appliance Options p fiche I I J I I Total individual appliance load for Form J1(Btuh)= Plants Small 0 10 • Medium 0 20 Large 0 20 . Total plant load for Form J1.fBtuhl= • Consider diverity;Load Factor=Aversge input/hated:a tlameplste Input;Use Factor=Percent operating time for are hour AJI load values shown In Btu/hr Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Software Version:22.0.0594 R See sections at end of report for important Notes,Assumptions and Disclaimers. Page 7 of 14 • Project#:9/13/22-2 Manual J Worksheets Name:Randles Residence September 13,2022 Worksheet H Ventilation Loads Randles Residence Site For VDH HID LATio(a .SER Elevation Table 1 Condition of Onl and VCFM LER Y Outdoor Vent Type of Air Leaving CTD V.Grains or for Hest Condition 335 Loads Load Ventilation Indoor for Indoor I CFMTxv Recovery and If3tuh very Dehumidifier Grains F,•em Ventilabcn Drybulb Ventilator Grains Table 10A for Site 47rshtA 'air ACF Elevation Heat Load 120 0.5 LATT7n -40°F 74.0°F 33.0 70.0 4.829 Table 12 Sen Load 0.5 LATv-n, - 55.0'F 15.3'F 77.5 0.59 70.0 979 123 Lat Load 0 Grainvfol 37.7 37.e 2.039 All load values shown In Btu/hr Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Software Version:22.0.0594 R See sections at end of report for important Notes,Assumptions and Disclaimers. Page 8 of 14 r Project#:9/13/22-2 Manual J Worksheets Name:Randles Residence September 13,2022 Worksheet I Ancillary Loads Randles Residence Winter Humidification Heating Load . Indoor Conditions Table 1 Values Table Table 12 Grains Outdoor CFM Htimid Gallons Dy Relative Winter Site 10A Outdoor Indoor Het InfilL Vent Total H-Load Per Bulb Humidity Dry Bulb Elevation ACF ODOR IDGR tiCFM VCFM TCFM IBtuhI Day 70.0 35% -4.0 335 0.399592 2.5 39.5 tit 120 397 0.0 Heat of evaporaticn provided by central healing equipment, Heating Lcas=0.es a TCFM x,(IDGR-CCGR)r,ACF Humidification IRK Valuejshall not cause visible cr xncasled xndensstibn Galleys Per Dag=0.00272 x Hearing Load iper Section 27 prceeduresj. Hot Water Piping Load Feet Water Ambient Table 9 Piping WTO=Tu T, Walt TD SizefType •of Pipe Temp. -Temp. Factor Load PL.=1.1 r-L>r.:hTD,aF9, Li T.°F T,'F 471Th F91 Pla System Total(&uhj=Sum PL, System Total Blower Motor Load Manufacturer's Blower Motor Power from Default Default Sensible Sensible Loan a 3.413 x watts Sensible Capacity Manufacturer's Blower Table Power Load Load Sensible Load u 3,413 x FYI. Data not Adjusted Watts KW HP Watts Stub Btuh Data Lcac=3.0 0 x HP for Blower Heat °LO 1,70E Moisture Migration Load . Moisture:will migrate_through porous Ceiling,well,and floor materials that are not protected ty a vapor retarding membrane.The latent moisture migration load for summer cooling may be Sr. important issue if the structure does rot have en appropriate vapor retarding membrane for the local summer climate.Fcr,winter humidification,moisture migration may cause visible or xncested condensation,mold.mildest.ann itructurai damage.See the full version of Manual:,Seclipn 28 for basic guidance.Contact the Energy Efficient Building Association IEEBA)far xmctehensive guidance pertaining to membrane need and use.See(he 2312 ASHRAE Hardtop*.of Fundamentals,Chapter 25•end Chapter 25.Compare local code with EEEArASHRAE guidance. Incompatibilities require-me attention of the local code authority.Jae Lstibureh is the primary authority on this issue;obtain contact info.from the EEBA,ASKPAE,or intemet search). All load values shown In Btu/hr Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Software Version:22.0.0594 R See sections at end of report for important Notes,Assumptions and Disclaimers. Page 9 of 14 Project#:9/13/22-2 Manual J Worksheets Name:Randles Residence September 13,2022 Room Loads Randles Residence Room Heat Load Sens Load peak Season (stuh) (Btuh) Basement 7,018 1,176 Summer , Stairs 67 24 ,Summer Room A-03 6,681 9E6 Summer Bedroom 1,461 1,058 Summer Bedroom 1,660 1,697 Summer Stairs 1,4E6 171 Summer K4chen,Great,Diming Room 22,133 18,577 Summer Bedfoori 2,955 1,396 Summer Bath 1,115 540 October Bedroom 2.245 1,238 October Office 2,166 459 Summer Pantry 2,696 724 Summer Ponder 539 101 Summer Open to Below 8,175 52)30 Summer Primary Bedroom 5,426 3,837 Summer Si.1.0 1.063 350 Summer !.taster Bath 2,092 1,063 •Summer Laundry 2,754 1,025 'Summer Bath 2,396 • 470 Summer Bunk 4,587 1,361 Summer Room C-02 1.694 629 Summer • -Average Load Prccedure All load values shown In Btu/hr Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Software Version:22.0.0594 R See sections at end of report for important Notes,Assumptions and Disclaimers. Page 10 of 14 r i Project#:9/13/22-2 Manual J Worksheets Name:Randles Residence September 13,2022 Total Heating:85,251 Total Sensible:42,690. Total Latent 7,848 name Heating Sensible. Latent Windows' 20,790 13,437 Skylights' 0 0 Doors 3,355 1,179 Walls 22,350 4,205 . Below Grade Walls 4,023 Ceilings 4,316 3.999 Floors 3.250 74 infiltration 22,233 2,32S 3,609 internal 2,560 1,200 Duct Loads 0 0 0 Ventilation 4,829 979 3,039 Humldification 0 Piping Load. 0 • Radiant Back Loss 0 Recovered Back Loss 0 Blower Heat 1,706 ' AEC' 7.157 Total Load 35,251 42,690 7,848 Total Area 5,753 ft' 5,753 ft' 'A.re:egs Load Procedu,e(scros rams nave fall Fes'toada) • All load values shown in Btu/hr Created Using LoopCAO 2022 Uponor(US)(9/13/2022) Software Version:22.0.0594 R See sections at end of report for important Notes,Assumptions and Disclaimers. Page 11 of 14 • • Project#:9/13/22-2 Manual J Worksheets Name:Randles Residence September 13,2022 Constructions Walls Code Description .U-Value)btu/lhrfN.°F)) 15C15-0.v Four Int.Ccrr ete;Wood Framing:R-15 Insulation In 2x 4 Stud Csvity,Plus InleriC Finish 0.100 12F-0s-N Frame Wall or Partition:Woad Framing,R 21 Insulation in 2 x e Stud Cavity:Stucx cr Waoo Siding:Plus Interior Finish 0.08O 12F-0WFartiticn) Frame%Vail or Partition:Woad Framing;--21 Insulation in 2 x 0 Stud Cavity:Stucco or Wood Siding;Plus Interior Finish 0.005 Below Grade Walls Code Description U-Value(btWlhrftr`F)) 15C15.O.v Four Inch Concrete:Wood Framing:R-151nsulatioe In 2 x 4 Stud Cavity;Plus Inlericr Finish 0,100 Doors Code Description U-Value lbtui(hr-re-`F)t 11J Metal Outer with Fiberglass Core O.000 Floors Code Description 'U-Value(btuilhrftmF)) 219-24p 0.100 20P-10op Carpet or Hardwood Cover,R-10 board Insulation, 0.091 Ceilings .Code Description U.Value lbturlhrftr.'F)t 1 P.A'Sad ffe,radiant barrier over ceiling or same type cf air space behind an attic nee wall;P.-OS Insulation:Materials:Asphalt Shinglssis). O.OZt: h utallm),flood Shales,;w).Tar:Gravelle).I°tembrsr•.etc),Tile.Slate or Connate;Colors:Derald),Lightll),Whiterw): Glazings Windows- Code Description U-Value(btul{hrftr•'F)) 1 D-cf Double pane operable window or sliding glass door,with Clear Glass-Insulated Fiberglass Framing ISHGC=0.08) 0.450 All load values shown in Btu/hr Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Software Version:22.0.0594 R See sections at end of report for important Notes,Assumptions and Disclaimers. Page 12 of 14 Project#:9/13/22-2 Manual J Worksheets Name:Randles Residence September 13,2022 Fenestration Load vs Hour of Day(Summer) 40000- 38000- 36000- 34000- 32000- �.. 30000- 28000- 26000- .c 24000- Legend 11 m 22000_ Load Line 20000- ® Average 18000- ® 30 Percent 16000- 14000- 12000- 10000- 8000- �... 6000 8 9 10 11 12 13 14 15 16 17 18 19 20 Hour of Day Average Load:24,272 Btu/hr Peak Load:38,710 Btu/hr Excursion Limit:31,553 Btu/hr AED Load:7,157 Btu/hr All load values shown In Btu/hr Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Software Verslon:22.0.0594 R See sections at end of report for important Notes,Assumptions and Disclaimers. Page 13 of 14 Project#:9/13/22-2 Manual J Worksheets Name:Randles Residence September 13,2022 Warnings This application has glass areas that produced large cooling loads for part of the day.Zoning may be required to overcome solar load spikes for one or more rooms. Consider a zoned system,or provide zone control(individual,motorized,thermostatically controlled dampers)for problem room.Single speed equipment may not be suitable for the application. The sensible load for some rooms peak during late fall or early winter.This behavior is caused by glass that faces South East,South or South West.Room temperature may be difficult to control if zoning is not provided. Disclaimers With the permission of the Air Conditioning Contractors of America("ACCA"),material is reproduced from Manual J Residential Load Calculation(8th Edition)which is copyrighted by ACCA.The program and data are provided"as is without warranty of any kind either expressed or implied.The entire risk as the quality and performance of the program and data is with you.In no event will ACCA be liable to you for any damages,Including without limitation any lost profits,lost savings,or other incidental or consequential damages arising out of the use or inability to use this program or the data.©20115 Air Conditioning Contractors of America.All Rights Reserved.www.acca.org ACCA,Manual J and Powered by ACCA Manual J are registered trademarks of the Air Conditioning Contractors of America.All rights reserved. Cold weather humidification,or some lifestyles that produce excessive moisture,may cause condensation to occur if the absolute humidity of the Indoor air is too high for the momentary circumstances.Condensation can occur on surfaces or concealed within the structure,and can lead to mold,mildew,frost damage,and moisture damage.The software does not perform calculations for the estimation or detection of possible condensation problems,and it is the designers(I.e.software users)responsibility to do so Independently if required.For guidance and additional cautions refer to ACCA Manual J 8th Edition,including Section 1-11 and Section 27. The calculated values shown in this report are based on the data Input by the user of the software.Inaccurate or erroneous data input will result in inaccurate or erroneous results. You are strongly advised to review all input data carefully,and to have the calculated results reviewed by an experienced heating professional to ensure reasonableness and suitability for your application. IN NO EVENT WILL AVENIR SOFTWARE INC.("AVENIR")OR ITS AFFILIATES BE LIABLE UNDER ANY CONTRACT,NEGLIGENCE,STRICT LIABILITY OR OTHER LEGAL OR EQUITABLE THEORY FOR ANY CONSEQUENTIAL,INCIDENTAL,INDIRECT OR SPECIAL OR PUNITIVE DAMAGES WHATSOEVER(INCLUDING,BUT NOT LIMITED TO,DAMAGES FOR LOSS OF BUSINESS PROFITS,BUSINESS INTERRUPTION,LOSS OF BUSINESS INFORMATION OR DATA AND THE LIKE),EVEN IF SUCH PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.AVENIR'S CUMULATIVE LIABILITY FROM ANY CAUSE RELATED TO OR ARISING FROM THE USE THIS REPORT,AND REGARDLESS OF THE FORM OF THE ACTION,SHALL BE LIMITED TO NO GREATER THAN THE AMOUNT OF FEES PAID TO AVENIR UNDER THE SOFTWARE LICENSE AGREEMENT. • All load values shown in Btu/hr Created Using LoopCAD 2022 Uponor(US)(9/13/2022) Software Version:22.0.0594 R See sections at end of report for important Notes,Assumptions and Disclaimers. Page 14 of 14 I'• t.. .t 'r'. i, f i-IRV/ERv 5 :s ems° r BA LANGED<.FRES- .H'AI R'>SOLUT ON.' i. 11 Field Controls Heat Recovery Ventilators (HRVs) and Energy Recovery Ventilators (ERVs) are balanced �' `4 ventilation systems and have the lowest operating cost of ventilation options. The purpose of an HRVy - ;' 1 or an ERV is to deliver fresh air into your home. Our If systems are designed for optimal ventilation and ° :j `s; ;*s quiet, dependable operation. '• - ' E .l HRV/ERV systems offer a balanced , lir0-;::::,: ,. approach to fresh air, maximum energy : .; • efficiency and additional benefits like ` • f humidity control. HRV systems are i FC200HRV recommended for colder climates and ,� FC200ERV ERV systems are recommended for hot, FC150ERV SA. i� I; humid climates. Both are integrated ,i c us ry I; into the ductwork of the forced hot air FC8OHRV '' system—new or retrofit—and both work ' ' FC80ERV 24/7 to ensure fresh air changes up to eight times per day. Field Controls HRV or ERV system models range from Benefits j: 40 cfm to 250 cfm to ensure energy efficiency with • Automatically replaces stale air with fresh air 1:l optimal effectiveness. • Meets or exceeds ventilation standard ASHRAE 62.2 • Low maintenance is . • Reduces energy consumption ' Efficient in Any,Climate 5 . �,r i , ,.�. :� r { HRV • j, The I-tRV is'ideal for colder, northern climates: . The ERV is:desrgned for the hot, humid'southern ' :;' ERV climates:Either can.be used in the'southt wes " • F. and California, depending;on:local conditions. I _- _ •HRV or ERV j g ::* The robust appliance monitoring and controlling ; r X. ,N1 `' .. g.�- copab1ities of the Fresh Air Ventilation Control(FAVn ' Y N` , _ mean it is compatible with HRV oird ERV systems as well as .: e , bathroom fans,dollies dryers,kitchen range hood or gas log fireplaces. • , { 3 •;;_ j 1 li , "• . ,:-AA: : ,:4:-.i A ^ ,: i } 20 �iir>� FIELD CONTROLS Improving Indoor Environment Customer Service: 252.522.3031 HRV/ERV_ - :S Syst em s :HOW.-eIl':� .ORK How it Works The fans of an HRV will pull fresh air into a home while _ simultaneously exhausting stale air from the home. In �""a` `—� 3' �� --`- - most installations, the fresh air is delivered to the living '` fi.i ' w` ' room and bedrooms, while the stale air is removed from Exhaust j;! et r r bathrooms, laundry rooms, and sometimes the kitchen. « ;; t 5.1 ,: Ned) I j g Both the fresh air stream and the stale air stream flow L�,ti, !'. vb,ewn�c�� ` to ..rcoa '"" I through the HRV. The System Core allows some of the 6...0 b .; :4! heat from the warmer air stream (the stale air in winter, A» .t••, rot 1 i 4 the fresh air in summer) to be transferred to the cooler FreshI 1 i , ' air stream. In winter, the System "recovers"some of the Air In it i heat that would have otherwise been exhausted. This heat I - ti 1'- transfer occurs without any mixing of the two air streams. stale ice-—1.,„ �U .;_;,..-. `; _fi Air Ou♦�t _: _ everything that an HRV %..: = 1..3:.,;2 ..... •:=�=r--_- r _,,gym:: An ERV does does. In addition, /=-='__-= f,m, 1. an ERV allows some of the moisture in the more humid air stream (usually the stale air in winter and the fresh air i in summer) to be transferred to the air stream which is . dryer. This transfer of moisture-called enthalpy transfer- occurs with very little mixing of the two air streams. Fresh air FROM outside ------ — Exhaust air — . ' �k FROM home • gel a-`I Exhaust air ,, , 4;;. ISF 6" (diam.) TO outside j 4.. ��.. a collar system 4 „ »1'1 _ !F tr ` r. = . �. , Fresh air ,am • , ° TO home €/ Heat or Eergy Recovery Core Technical Service: 800.742.8368 • fieldcontrols.com 21 cv Ci E-{ z w C) Zoz 0.M z �V1 v LLl�� Z to N �I a � >; W ZZ= W 9 O' N Nw �W oa• a a® E-+ t—i 04 ap�z� z � Wj� W (z� U�-0 w � 7 00 ltz v��m'A 6w� ®rw nWn go o C,2 >1-z Zp w� WMW Z N o L le LL W O r o 3 o °( co a' N o N Q � Z " _u W i