RC-0574-2022 r
Office Use Only
i' ADDITION/AL T ERMIT Permit#:—A C—
Town of Queensbury APPLI L/��o Permit Fee: $ 2�7. O
742 Bay oad,Queensbury,NY 12804 J
P:518-761-8256 ' www.gueensburV.net �.O SF,o , n ice#: -'S-L d /
lood Zone? Y U Reviewed By:
i �`c�o�Fs'4Y
Project Location:
Tax Map ID#: I�Q _ Z Subdivision Name:
PROJECT INFORMATION:
TYPE: Q-'Residential ❑ Commercial, Proposed Use:
4-Single-Family ❑ Two-Family ❑ Multi-Family (#of units_) ❑ Townhouse
❑ Business Office ❑ Retail ❑ Industrial/Warehouse ❑ Garage (#of cars )
❑ Other(describe )
ADDITION SQUARE FOOTAGE: ALTERATION SQUARE FOOTAGE:
1st floor: 1st floor: 9L? 1/1
21d floor: 2nd floor:
3rd floor: 3rd floor:
Basement (habitable space): Basement (habitable space):
Total sq ft: Total sq ft: 4 �?
Scope of work to be done: ' 77L4�5 /y'e w �ji so/' i
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Addition/Alteration Application Revised June 2022
ADDITIONAL PROJECT INFORMATION:
1. Estimated Cost of Construction: $
2. Source of Heat (circle one): 0 as ❑ Oil ❑ Propane ❑ Solar ❑ Other:
Fireplaces/inserts need a separate Fuel Burning Appliances & Chimney Application
3. Are there any structures not shown on the plot plan? ❑ YES ET`N_O Explain:
4. Are there any easements on the property? ❑ YES O�N_0
SITE INFORMATION: �/
• Is this a corner lot? El YES •T NO
• Will the grade be changed as a result of the construction? ❑ YES 9-, O�
• What is the water source? B150"BLIC ❑ PRIVATE WELL ,,
• What type of wastewater system is on the parcel? El SEWER CAR VATE SEPTIC
DECLARATION:
1. I acknowledge that no construction shall be commenced prior 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 If,for any reason,the building permit application is withdrawn, 30%of the fee is retained by the Town of
Queensbury.After 1 year from the initial application date, 100%of the fee is retained.
3. If the work is not completed by the 1 year expiration date the permit may be renewed, subject to fees
and department approval.
4. 1 certify that the application, plans and supporting materials are a true and a 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 conformance with local zoning regulations.
5. 1 acknowledge that prior to occupying the facilities proposed I, or my agents, will obtain a certificate of
occupancy.
6. 1 also understand that I/we are required to provide an as-built survey by a licensed land surveyor of all newly
constructed facilities prior to issuance of a certificate of occupancy.
I have read and agree to the above:
PRINT NAME:
SIGNATURE: DATE:
Addition/AltTiration Application Revised June 2022
r
CONTACT INFORMATION: PLEASE PRINT LEGIBLY OR TYPE, PLEASE INCLUDE AN EMAIL
• Applicant-
Name(s): oGco A/
Mailing Address, C/S/Z: /7d'-' �V-cr-ems S'f- 62 e" rz=tiJ Av?( /zX-o /
Cell Phone: _ (siG d2]n994 Land Line:
Email: rP7/
• Primary Owner(s):
Name(s): Suer—e
Mailing Address, C/S/Z:
Cell Phone:�_) Land Line: � )
Email:
deck if all work will be performed by property owner only
• Contractor(s): (List all additional contractors on the back of this form)
Contact Name(s):
Contractor Trade:
Mailing Address, C/S/Z:
Cell Phone: Land Line: �)
Email:
**Workers' Comp documentation must be submitted with this application**
• Architect(s)/Engineer(s):
Business Name:
Contact Name(s):
Mailing Address, C/S/Z:
Cell Phone: Land Line: �)
Email:
Contact Person for Compliance in regards to this project: _R-ce
Cell Phone: ( V G ) 5�7;5;.3 - cP? I'd"' Land Line: �)
Email: Qz- -'7/
Addition/Alteration Application Revised June 2022
1_
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NO TaCIE:
Smoke detector; are required in bedrooms,
Gd adjacent to bedrooms and on each floor
-r-- - Level--including—ceH-ar=or—+basement.
_I . — All smoke detectors& carbon monoxide
etectors-shall-be-irate-r;on-nnected-with
LM q� �0�-A �o S�bat en- backup and located on all levels.
(5 f ] on-monoxide-detectors-are-required
I 1c'f ro f� l outsic� sleeping areas and on all levels.
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296.16-1-12 RC-0574-2022
- Rocco Musumeci
454 Bay Road
Residential Interior Alterations
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wri htsoft Manual S Compliance Report Job: 1001
g Date: Sep 20,2022
Entire House By: Matt Gucker
• - • •
For. Rocco
• • • • •
Design Conditions
Outdoor design DB: 85.0°F Sensible gain: 10397 Btuh Entering coil DB: 68.2°F
Outdoor design WB: 71.0°F Latentgain: 1979 Btuh Entering coil WB: 57.0°F
Indoor design DB: 68.0°F Total gain: 12376 Btuh
Indoor RH: 50% Estimated airflow: 801 cfm
Manufacturer's Performance Data at Actual Design Conditions
Equipmenttype: SplitAC �r
Manufacturer: Model: U 'E
Actual airflow: 801 ch
Sensible capacity: 0 Btuh 0%of load 9 '�P ty�
Latent capacity: 0 Btuh 0%of load
Total capacity: 0 Btuh 0%of load SHR: 0%
�Heativ • •
Design Conditions
Outdoor design DB: -4.0°F Heat loss: 28692 Btuh Entering coil DB: 71.2°F
Indoor design DB: 72.0°F
Manufacturer's Performance Data at Actual Design Conditions
Equipment type: Gas furnace
Manufacturer: Generic Model: AFUE 96
Actual airflow: 801 cfm
Output capacity: 0 Btuh 0%of load Temp.rise: 0 OF
Meets all requirements ofACCA Manual S.
-�- wrights®ft, 2022-Sep-2018:50:57
Rigk-Sate®Uriversal202222.0.03RSU63539 Page
/�+CA ...51841Doamerts\WrightsoftWACk54 Bay Road.rup CaIc=MJ8 FrordDoorfaces:W
DHW Ret Job: 1001
wrightsoft° ppor Date: Sep 20,2022
Entire House By: Matt Gucker
For: Rocco
'Design,
Occupants Not occupied during the day
Age Number Dishwasher
0-5 0 Clothes washer
6-13 2 Additional use (gpd) 0
14-59 2 Setpoint(OF) 120
60+ 0 Daily use(gpd) 61
Manufacturer Tank size (gal) 40
Trade name Energy factor 0.60
Model Input (MBtuh) 0.0
AHRI ref. number 1 st hour(gal) 60
Recovery eff. (%) 77
wrightso'Ft, 2022-Sep-2018:50:57
,� a.„�•:..„r„m, ,, RighFSute®Udversa12022 22.0.03 RSU63539 Page 1
/4�%CP• ...51840oamertsUrightsoftHVACW54 Bay Road.rup Calc=MJ8 Frord Door%oes:W
,
F—
Residential Plans Review • Form
RIPER 1
• System Design Examiner(Loads, • • - 15 Mar 09
Queensbury
Header Information
Contractor. REQUIRED ATTACHMENTS ATTACHED
Manual J1 Form(and supporting worksheets): Yes [] No E]
Mechanical license: or MJ1AE Form*(and supporting worksheets): Yes ❑ No ❑
OEM performance data(heating,cooling,blower): Yes ❑ No E]
Building plan#: Manual D Friction Rate Worksheet: Yes ❑ No []
Home address(Street or Lot#,Block,Subdivision): ,Entire House Duct distribution sketch: Yes E] No E]
HVAC LOADCALCULATION ' 41
Design Conditions Building Construction Information
Winter Design Conditions Building
Outdoor temperature: -4 °F Orientation: Front Door faces West
Indoor temperature: 72 *F Nor#%East,West,south,Nor -st Mor@nve-t soadhe A soutnvest
Total heat loss: 28692 Btuh Number of bedrooms: 2
Conditioned floor area: 1800 ft2
Summer Design Conditions Number of occupants: 0
Outdoor temperature: 85 *F
Indoor temperature: 68 'F Windows Roof
Grains difference: 42 grAb @50%RH Eave overhang depth: 0 ft
Sensible heat gain: 11552 Btuh Internal shade: none <�
Latent heat gain: Blinds,drapes,etc. Eave
g 2198 Btuh Depth Window
Total heat gain: 13751 Btuh Number of skylights: 0
EQUIPMENTHVAC • 40
Heating Equipment Data Cooling Equipment Data Blower Data
Equipment type: Gas furnace E9uigment type: SplitAC Heating cfm: 801
ce,Watpunp,Bailer,etc. 7 tiorrr, atpunq etc. Cooling cfm: 801
Model: Generic Model: Static pressure. 0 in H2O
AFU E 96 + FanS rated external static pressure for design
airflow
Heating output ca'wi 0 Btuh Total cooling capacity: 0 Btuh
Heap -capacityatwi designoufdoercardihons Sensible cooling capacity: 0 Btuh
Aux.heating output capacity: 0 .Btuh Latent cooling capacity: 0 Btuh
DISTRIBUTIONHVAC DUCT •1
Design airflow. 801 cfm Longest supply duct: 0 ft Duct Materials Used
Equipment design ESP: 0 in H2O Longest return duct: 0 ft Trunk duct:
Total device pressure losses: 0 in H2O Total effective length(TEL): 0 ft
Available static pressure(ASP): 0 in H2O Friction rate: 0 in/100ft Branch duct: Sheet metal
Fraction Rate=ASP=(TELx 100)
I declare the load calculation,equipment,equipment selection and duct design were rigorously performed based on the building plan listed above.
I understand the claims made on these forms will be subject to review and verification.
Contractor's printed name:
Contractor's signature: Date:
Reserved for County Town MunicipalityAuthority having jurisdiction use.
*Home qualifies for MJ1AE Form based on Abridged Edition Checklist
wrightSoR^ Right-Stdte(@Universal202222.0.03RSU63539
1
S Pro ect Summary Job:
-�- 01
wrightsoftro � � Date: Sep 20,2022
Entire House By: Matt Gucker
Pro*ect Information
For: Rocco
Notes:
Detion hifortnaboh
Weather. Glens FallsAP,NY US
Winter Design Conditions Summer Design Conditions
Outside db 4 OF Outside db 85 OF
Inside db 72 OF Inside db 68 OF
Design TD 76 OF Design TD 17 OF
Daily range M
Relative humidity 50 %
Moisture difference 42 grAb
Heating Summary Sensible Cooling Equipment Load Sizing
Structure 27543 Btuh Structure 10004 Btuh
Ducts 1149 Btuh Ducts 393 Btuh
Central vent(0 cfm) 0 Btuh Central vent(0 cfm) 0 Btuh
(none)
none
Humidification 0 Btuh Blower 0 Btuh
Piping 0 Btuh
Equipment load 28692 Btuh Use manufacturer's data n
Rate/swing multiplier 0.90
Infiltration Equipment sensible load 9358 Btuh
Method Simplified Latent Cooling Equipment Load Sizing
Construction quality Average
Fireplaces 0 Structure 1432 Btuh
Ducts 547 Btuh
Central vent(0 cfm) 0 Btuh
Heatingg Cool'*in (none)
Area(ffz) 1800 1800 Equipment latent load 1979 Btuh
Molume(ft�) 15312 15312
Airchangges/hour 0.38 0.20 Equipment Total Load(Sen+Lat) 11336 Btuh
Equiv.AVF(cfm) 97 51 Req.total capacity at 0.70 SHR 1.1 ton
Heating Equipment Summary Cooling Equipment Summary
Make Generic Make
Trade Trade
Model AFUE 96 Cond
AHRI ref Coil
AHRI ref
Efficiency 96AFUE Efficiency 0 SEER
Heating Input 0 Btuh Sensible cooling 0 Btuh
Heating output 0 Btuh Latent cooling 0 Btuh
Temperature rise 0 OF Total cooling 0 Btuh
Actual airflow 801 cfm Actual airflow 801 cfrn
Air flow factor 0.028 cf n/Btuh Air flow factor 0.077 cfm/Btuh
Static pressure 0 in H2O Static pressure 0 in H2O
Space thermostat Load sensible heat ratio 0.84
Calculations approved byACCAto meet all requirements of Manual J 8th Ed.
-F#i wrightsoft° 2022-Sep-2018:50:57
.,,.. Right-Suteouiversal 2022 22.0.03 RSU63539 Page 1
.ACCK ...5184\Doamerts\Wr1gttsoft HVACW54 Bay Road.rup Calc=MJ8 Frord Door faces:W
AED Assessment Job:
-F�- W1'i9htSOft" Date: Sep Sep20,2022
Entire House By: Matt Gucker
Project Inf• s
For: Rocco
Design Conditions
Location: Indoor: Heating Cooling
Glens FallsAP,NY US Indoor temperature(OF) 72 68
Elevation: 335 ft Design TD(OF) 76 17
Latitude: 43°N Relative humidity(%) 30 50
Outdoor: Heating Cooling Moisture difference(grAb) 31.8 41.8
Dry bulb(OF) -4 85 Infiltration:
Daily range(OF) - 20 ( M )
Wet bulb(OF) - 71
Wind speed(mph) 15.0 7.5
Test for Adequate Exposure
Hourly Glazing Load
6,00
5,50
5,00
4,50 =
4,000
3
3.50
9 3,00
u
2,50
2,00
1,50
1,00
50
0
8 9 10 11 12 13 14 15 16 17 18 19 20
Hourof Day
/w.M I Area¢ /A®font
Maximum hourly glazing load exceeds average by 10.1%. -
House has adequate exposure diversity(AED), based on AED limit of 30%.
AED excursion: 0 Btuh
ightsoft' 2022-Sep-2018:50:57
- - wr
ig Right-81ite4DUriversa1202222.0.03 RSU63539 Page 1
ACCK ...51841Doounents\WdgKsoftHVAC\454 Bay Road.rup Calc=MJ8 Front Door faoes:W
r wrightsoft, Right-JO Worksheet Job: 1001
Entire House Date: Sep 20,2022
By: Matt Gucker
1 Room name Entire House Basement
2 Exposed wall 246.0 ft 124.0 ft
3 Room height 8.5 ft 9.0 ft heat/cool
4 Room dimensions 24.0 x 38.0 ft
5 Room area 1800.0 ft' 912.0 ft2
Ty Construction U-value Or HTM Area (ft) Load Area (ft) Load
number (Btuh/ftz-°F) (Btuh/ft2) or perimeter (ft) (Btuh) or perimeter (ft) (Btuh)
Heat Cool Gross N/P/S Heat Cool Gross I N/P/S Heat Cool
6 W 12F-Osw 0.065 n 4.94 1.12 408 394 1697 432 216 216 1067 243
4A3-2ov 0.470 n 35.72 15.79 24 0 857 379 0 0 0 0
W- 12F-0sw 0.065 a 4.94 1.12 638 565 2791 635 342 342 1689 385
!LG 4A3-2ov 0.470 e 35.72 46.40 52 0 1857 2413 0 0 0 0
11 D 11,10 0.600 a 45.60 17.10 21 21 958 359 0 0 0 0
W. - 12F-0sN 0.065 s 4.94 1.12 408 384 1897 432 216 216 1067 243
�---G 4A3-2ov 0.470 s 35.72 26.20 24 0 857 , 629 0 0 0 0
W. 12F-0sN 0.065 w 4.94 1.12 638 576 2845 648 342 342 1689 385
LG 4A3-2ov 0.470 w 35.72 46.40 20 0 714 928 0 0 0 0
11,10 0.600 w 45.60 17.10 42 42 1915 718 0 0 0 0
C 16B-38md 0.026 - 1.98 1.35 912 912 1802 1233 24 24_ 47 32
F 19C-2lbsvp 0.045 - 1.25 0.28 912 912 1142 255 912 912 1142 255
6 c)AED excursion 0 -80
Envelope loss(gain 19534 9061 6703 1463
12 a) Infiltration 8010 943 4273 503
b) Room ventilation 0 0 0 0
13 Internal gains: Ocarpants@ 230 0 0 0 0
Applianoes/other 1 0 0
Subtotal(lines 6 to 13) 27543 10004 10975 1966
Less extemalload 0 0 0 0
Lesstransfer 0 0 0 0
Redistribution 0 0 0 0
14 Subtotal 27543 10004 10975 1966
15 Ductloads 4% 4% 1149 393 -0% 0% 0 0
Total room load 28692 10397 10975 1966
Air required(clm) 801 801 307 152
Calculations approved byACCA to meet all requirements of Manual J 8th Ed.
-Fit wrigFatsoft` 2022-Sep-2018:50:57
Right-SUte®Universal 2022 22.0.03 RSU63539 Page 1
...51841Doamerts%Wrightsoft HVAC1454 Bay Road.rup Calc=MJ8 Front Door faces:W
rF wrightsoft°. Right-JO Worksheet Job:Date: Sep Sep
Entire House 20,2022
By: Matt Gucker
1 Room name Ktdlen L ving Room
2 Exposed wall 29.0 ft 31.0 ft
3 Room height 8.0 ft heat/cool 8.0 It heaYbool
4 Room dimensions 12.0 x 17.0 ft 12.0 x 19.0 ft
5 Room area 204.0 ft2 228.0 ftz
Ty Construction U-value Or HTM Area (fF) Load Area (ft2) Load
number (Btuh/ff--°F) (Btuh/ftz) or perimeter (ft) (Btuh) or perimeter (ft) (Btuh)
Heat Cool Gross N/P/S Heat Cool Gross NIP/8 Heat Cool
6 1W 12F-Osw 0.065 n 4.94 1.12 96 84 415 94 96 84 415 94
L-G 4A3-2o1 0.470 n 35.72 15.79 12 0 429 190 12 0 429 190
W. 12F-Osw 0.065 a 4.94 1.12 0 0 0 0 152 124 613 139
4A3-2ov OA70 a 35.72 46AO 0 0 0 0 28 0 1000 1299
11 D 11,10 0.600 a 45.60 17.10 0 0 0 0 0 0 0 0
12F-0sw 0.065 s 4.94 1.12 0 0 0 .0 0 0 0 0
T-G 4A3-2ov 0.470 s 35.72 26.20 0 0 0 _ 0 0 0 0 0
12F-Osw 0.065 w 4.94 1.12 136 94 464 106 0 0 0 0
4A3-2ov 0.470 w 35.72 46.40 0 0 0 0 0 0 0 0
11,10 0.600 w 45.60 17.10 42 42 _ 1915 718 0 0 0 0
C _, 16B-38md 0.026 - 1.98 1.35 204 204 403 276 228 228 451 308
F 19C-21 bsW 0.045 - 1.25 0.28 0 0 0 0 0 0 0 0
6 c)AED excursion -56 -4
Envelope loss/gain 3626 1325 2907 2027
12 a) Infiltration 888 105 950 112
b) Room ventilation 0 0 0 0
13 Intemal gains: Oaupants @ 230 0 0 0 0
Appliances/other 0 0
Subtotal(lines 6 to 13) 4515 1430 3856 2138
Less external load 0 0 0 0
Less transfer 0 0 0 0
Redistribution 12 8 574 207
14 Subtotal 4527 1438 4430 2345
15 Dudloads 71/o 5% 314 70 7% 5% 307 115
Total room load 4840 1508 4737 2460
Air required(dm) 135 116 132 190
Calculations approved byACCA to meet all requirements of Manual J 8th Ed.
Ad- wrigFitsoYt 2022-Se 2018:50:57
.„ Right-SuiteOUrivefsal 2022 22.0.03 RSUB3539 p
�Cp Page 2
...5164\Doamerrts\WrightsoftHVACki54 Bay Road.rup CaIc=MJB FrontDoorfaces;W
- + wrightsoft` Right-J®Worksheet Job: 1001
Entire House Date: Sep 20,2022
By: Matt Gucker
1 Room name Bathroom Bedroom 2
2 Exposed wall 8.0 It 24.0 ft
3 Room height 8.0 ft heat/cool 8.0 ft heat/cool
4 Room dimensions 8.0 x 8.0 ft 12.0 x 12.0 ft
5 Room area 64.0 ftz 144.0 ft
Ty Constructfon U-value Or HTM Area (W) Load Area
number (Btuh/ft2--°F) (Btuh/F) or perimeter (ft) (Btuh) or ( ) Load)perimeter (ft (Btuh)
Heat Cool Gross N/P/S Heat Cool Gross NIP/S Heat Cool
6 W. 12F-Osw 0.065 n 4.94 1.12 0 0 0 0 0 0 0 0
L-G 4A3-2ov 0.470 n 35.72 15.79 0 0. 0 0 0 0 0 0
W -I 12F-Osw 0.065 a 4.94 1.12 0 0 0 0 0 -0 0 0
E 4A3-2ov OA70 a 35.72 46AO 0 0 0 0 0 0 0 0
11 D 11,10 0.600 a 45.60 17.10 0 0 0 0 0 0 0 0
12F-Ow 0.065 s 4.94 1.12 0 0 0 0 96 84 415 94
4A3-2ov 0.470 s 35.72 26.20 0 0 0 0 12 0 429 314
12F-Osw 0.065 w 4.94 1.12 64 56 277 63 96 84 415 94
4A3-2ov 0.470 w 35.72 46.40 8 0 286 371 12 0 429 557
11 JO 0.600 w 45.60 17.10 0 0 0 0 0 0 0 0
C _ 1613-38md 0.026 - 1.98 1.35 64 64 126 87 144 144 285 195
F 19C-21bmo 0.045 1.25 0.28 0 0 0 0 0 0 0 0
6 0)AED excursion 154 85
Emelope losstgain 689 674 1972 1340
12 a) Infiltration 245 29 735 87
b) Room ventilation 0 0 0 0
13 Internal gains O=pants@ 230 0 0 0 0
Applianceother 01 0
Subtotal(lines 6 to 13) 934 703 2707 1426
Less external load 0 0 0 0
Lesstransfer 0 0 0 0
Redistribution 24 16 12 8
14 Subtotal 958 719 2719 1434
15 Duct loads 71/. 5% 66 35 7% 5% 188 70
Total room load 1024 754 2907 1504
Air required(cfm) 29 58 81 116
Calculations approved byACCA to meet all requirements of Manual J 8th Ed
�}r wrigt�tsoft 2022-Sep-2018:50:57
Right-Suite&Urvversal2022 22.0.03 RSU63539 Page 3
5184\Doaments\Wrigftwft WAC\454 Bay Road.rup Calc=MJ8 Front Door faces:W
A.L1001
wrightsoft° Ri ht-J®Worksheet Job: Sep
g. Date: Sep 20,2022
Entire House By: Matt Gucker
1 Room name HallAey Stairs
2 Eposed wall O ft O ft
3 Room height 8.0 ft heat/cool 8.0 ft heaUcuol
4 Room dimensions 4.0 x 8.0 ft 8.0 x 3.0 ft
5 Room area 32.0 ft' 24.0 ftz
Ty Construction U-value Or HTM Area (ft) Load Area (ft) Load
number (BWhAt-°F) (Btuh/ftz) or perimeter (ft) (Btuh) or perimeter (ft) (Btuh)
Heat Cool Gross NIP/S Heat Cool Gross I NIP/S Heat Cool
6 W 12F-0sw 0.D65 n 4.94 1.12 0 0 0 0 0 0 0 0
4A3-2ov 0.470 n 35.72 15.79 0 0 0 0 0. 0 0 0
�N 1.2F-Osw 0.065 a 4.94 1.12 0 0 0 0 0 0 0 0
�G 4A3-2ov OA70 e 35.72 46AO 0 0 0 0 0 0 0 0 011 �D 11 J0 0.600 a 45.60 17.10 0 0 0 0 0 0 0 0
T�- G 12F-osw 0.065 s 4.94 1.12 0 0 0 0 0 0 0 0
--G 4A3-2ov 0.470 s 35.72 _ 26.20 0 0 0 0 0 0 0 0
W 12F-Ow 0.065 w 4.94 1.12 0 0 0 0 0 0 0 0
LG 4A3-2ov 0.470 w 35.72 46.40 0 0 0 0 0 0 0 0
D 11.o 0.600 w 45.60 17.10 0 0 0 0 0 0 0 0
C 16B-38md 0.026 - 1.98. 1.35 32 32 63 43 24 24 47 32
F 19C-21 bsvp 0.045 - 1.25 0.28 0 0 0 0 0 0 0 0
6 c)AED excursion -2 -1
Envelope lossrgain 63 42 47 31
12 a) Infiltration 0 0 0 0
b) Room ventilation 0 0 0 0
13 Internal gains: Ooaipants@ 230 0 0 0 0
Appliances/other 1 0 1 0
Subtotal(lines 6 to 13) 63 42 47 31
Less extemal load 0 0 0 0
Less transfer 0 0 0 0
Redistribution -63 42 -47 -31
14 Subtotal 0 0 0 0
15 Duct loads 7% 5% 0 0 7% 5% 0 0
Total room load 0 0 0 0
Air required(dm)
0 0 1 0 0
Calculations approved byACCA to meet all requirements of Manual J 8th Ed.
-f�h- wrigA�tsoft• 2022-Sep-2018:50:57
Righ-Suite®Uriversal 2022 22.0.03 RSU63539 Page 4
51841Doc mentsUrightsoft HVAC454 Bay Road.rup Caic=MJ8 Front Door faces:W
wrightsoft° Right-M Worksheet Job: 1001
Enure House Date: Sep 20,2022
By: Matt Gucker
1 Room name Frontdoor Bedroom 1
2 Exposed wall 3.0 ft 27.0 ft
3 Room height 8.0 ft heat/000l 8.0 ft heaUcool
4 Room dimensions 4.0 x 3.0 ft 12.0 x 15.0 ft
5 Room area 12.0 ft' 180.0 ft'
Ty Construction U-value Or HTM Area (ft') Load Area (ft) Load
number (Btuh/it'--°F) (Btuh/ft') or perimeter (ft) (Btuh) or perimeter (ft) (Btuh)
Heat Cool Gross N/P/S Heat Cool Gross N/P/S Heat Cool
6 WI - 12F-Osw 0.065 n 4.94 , 1.120 0 0 0 0 0 0 0
�--G 4A3-2o1 0.470 n 35.72 15.79 0 0 0 0 0 0 0 0
12F-0sw 0.065 a 4.94 1.12 24 3 15 3 120 96 474 108
4A3-2ov 0.470 e 35.72 46AO 0 0 0 0 24 0 857 1114
11 D 11 JO 0.600 a 45.60 17.10 21 21 958 359 0 0 0 0
12F-0sw 0.065 s 4.94 1.12 0 0 0 0 96 84 415 94
t-G 4A320v 0.470 s 35.72 26.20 _ 0 0 0 0 12 0 429 314
12F-Osw 0.065 w 4.94 1.12 0 0 0 0 0 0 0 0
4A3-2ov OA70 w 35.72 46AO 0 0 0 0 0 0 0 0
D 11 Jo 0.600 w 45.60 17.10 0 0 0 0 0 0 0 0
C 16B-38md 0.026 - 1.98 1.35 12 12 24 16 160 _ _ 180 356 243
F 19C-21bm 0.045 - 1.25 0.28 0 0 0 0 0 0 0 0
6 c)AED excursion -15 -77
Ernelope loss(gain 996 363 2531 1797
12 a) Infiltration 92 11 827 97
b) Room ventilation 0 0 0 0
13 Internal gains Occupants@ 230 0 0 0 0
Appliances/other 1 0 1 0
Subtotal(lines 6 to 13) 1088 374 3358 1894
Less extemal load 0 0 0 0
Lesstransfer 0 0 0 0
Redistribution -1088 -374 577 209
14 Subtotal 0 0 3935 2103
15 Ductloads 7% 5% 0 0 7% 5%1 273 103
Total room load 0 0 4207 2205
Air required(cm) 1 0 0 118 170
Calculations approved bVACCAto meet all requirements of Manual J 8th Ed.
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N
Level 2
9 68 cfm 95 cfm
Kitchen
Living Room
5 cfm
68 cfm
211 cfrn
uoom Hallway Stairs Fro Ldoo.
286 cfm
17- 153cfm Bedroom 1 70 cfm
116 cApdroom 2
Job#:1001 Scale 1:57
Performed by Matt Gucker for: Page 1
Rocco Rights itO Universal2022
22.0.03 RS J63539
2022,9a 2O18:51:31
WghtsoftH\AM454 BayRoadaip
N
Level 1
307 fm
153 15 cfm
Basement
Job#:1001 Scae 1 57
Performed by Matt Gucker for: Page 2
Rocco RighkSAAO Universal 2022
22.0.03 RS163539
2022Sep-2018-.5131
ftghtsoftH\AC1 4 BayRoad.nup
wri htsofto Duct System Summary Job: 1001
9 Date: Sep 20,2022
Entire House By: Matt Gucker
• - • -atioll
For. Rocco
Heating Cooling
External static pressure 0 in H2O 0 in H2O
Pressure losses 0 in H2O 0 in H2O
Available static pressure 0 in H2O 0 in H2O
Supply/return available pressure 0.000/0.000 in H2O 0.000/0.000 in H2O
Lowest friction rate 0 in/100ft 0 in/100ft
Actual airflow 801 cfm 801 cfm
Total effective length(TEL) 0 ft
SupplyDetail Table
Design Htg Clg Design Diam H x W Duct Actual Ftg.Egv
Name (Btuh) (cfm) (cfm) FIR (in) (in) Mat Ln(ft) Ln(ft) Trunk
Basement h 983 153 76 0 0 OX 0 ShMt 0 0
Basement-A h 983 153 76 0 0 Ox 0 ShMt 0 0
Battroom-A c 754 29 58 0 0 OX 0 ShMt 0 0
Bedroom 1-A c 2205 118 170 0 0 OX 0 ShMt 0 0
Bedroom2-A c 1504 81 116 0 0 OXO ShMt 0 0
Kitchen-A h 754 68 58 0 0 Ox 0 ShMt 0 0
Kitchen-B h 754 68 58 0 0 Ox 0 ShMt 0 0
Living Room-A c 1230 66 95 0 0 Ox 0 ShMt 0 0
Living Room-B c 1230 66 95 0 0 Ox 0 ShMt 0 0
TableReturn Branch Detail
Grille Htg Clg TEL Design Veloc Diam H x W Stud/Joist Duct
Name Size(in) (cfm) (cfm) (ft) FR (fpm) (in) (in) Opening(in) Mat Trunk
rb3 Ox0 201. 211 0 0 0 0 Ox 0 ShMt
rb5 Ox 0 95 153 0 0 0 0 Ox 0 ShMt
rb4 Ox 0 199 286 0 0 0 0 Ox 0 ShMt
rb2 Ox0 307 151 0 0 0 0 Ox 0 ShMt
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ACCA ...51840oamerts\WrightsoftWACW54 Bay Road.rup Calc=MJB Front Door faces:W
Ducts stem multi orientation report Job: 1001
wrightsoft'� y p Date: Sep 20,2022
Entire House By: Matt Gucker
• - •rmation
For: Rocoo
Group 1:(N,NE, E,SE, S,SW, W,NW)
�eg CFM peg Size. Size peg CFM eg Size pLa size eg CFM eg Size, Size ,eg CFM regsize Size
Supply Branches
Basement 153 h 12x12 0 153 h 12x12 0 142 h 12x12 0 155 h 12x12 0
Basement-A 153 h 12x12 0 153 h 12x12 0 142 h 12x12 0 155 h` 12x12 0
Bathroom-A 58 c 12x12 0 51 c 12x12 0 35 c 12x12 0 42 c 12x12 0
Bedroom 1-A 170 c 12x12 0 161 c 12x12 0 131 c 12x12 0 157 c 12x12 0
Bedroom 2-A 116 c 12x12 0 115 c 12x12 0 104 c 12x12 0 104 c 12x12 0
Kitchen-A 68 h 12x12 0 73 c 12x12 0 82 c 12x12 0 75 c 12x12 0
Kitchen-B 68 h 12x12 0 73 c 12x12I 0 82 c 12x12 0 1 75 c 12x12 0
Livin Room-A 95 c 12x12 0 86 c 12x12 0 79 c 12x12 0 1 106 c 12x12 0
Living Room-B 95 c 12x12 0 86 c 12x12 0 79 c 12x12 0 1 106 c 12x12 0
Return Branches
rb3 211 c 2424 0 232 c 24x24 0 244 c 2424 0 256 c 2424 0
rb5 153 c 24x24 0 137 c 24x24 0 114 c 2424 0 149 c 24x24 0
rb4 286 c 2424 0 276 c 2424 0 235 c 24x24 0 261 c 24x24 0
rb2 307 h 2424 0 305 h 2424 0 284 h 2424 0 311 h 2424 0
Friction Rates
Heafinq FR 0.000 0.000 0.000 0.000
Cooling FR 0.000 0.000 0.000 0.000
W righ ts®ft- 2022-Sep-2018:50:58
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For: Rocco
Quct iVame i S N
eg g Size uck ize Peg CFM g Size Size sg CFM eg Size Size eg CFM eg Size Size
Supply Branches
Basement 158 h 12x12 0 161 h 12x12 0 147 h 12x12 0 156 h 12xl2l 0
Basement A 158 h 12x12 0 161 h 12x12 0 147 h 12x12 0 156 h 12xl2l 0
Bathroom-A 46 c 12x12 0 36 c 12x12 0 27 h 12x12 0 43 c 12x12 0
Bedroom 1-A 192 c 12x12 0 205 c 12x12 0 158 c 12x12 0 172 c 12x12 0
Bedroom 2-A 92 c 12x12 0 98 c 12x12 0 113 c 12x12 0 131 c 12x12 0
Kitchen-A 70 h 12x12 0 72 c 12x12 0 75 c 12x12 0 69 h 12x12 0
Kitchen-B 70 h 12x12 0 72 c 12x12 0 75 c 12x12 0 69 h 12x12 0
Livin Room-A 112 c 12xl2j 0 104 c 12x12 0 85 c 12x12 0 96 c 12x12 0
Living Room-B 112 c 12xl2l 0 104 c 12x12 0 85 c 12x12 0 96 c 12x12 0
Return Branches
rb3 239 c 24x24 0 248 c 24x24 0 236 c 24x24 0 227 c 24x24 0
rb5 158 c 2424 0 140 c 2424 0 110 c 2424 0 139 c 2424 0
rb4 284 c 2424 0 303 c 24x24 0 271 c 24x24 0 303 c 2424 0
rb2 316 h 24x24 0 321 h 24x24 0 294 h 24x24 0 313 h 2424 0
Friction Rates
HeatingFR 0.000 0.000 0.000 0.000
Cooling FR 0.000 1 0.000 1 0.000 1 0.000
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For: Rocco
Duct Name, Largest Smalest
Reg CFM Reg Size, Dtd Size Reg CFM Reg Size Oust Size
Supply Branches
Basement 161 h 12x12 0 142 h 12x12 0
Basement A 161 h 12x12 0 142 h 12x12 0
Bathroom-A 58 c 12x12 0 27 h 12x12 0
Bedroom 1-A 205 c 12x12 0 131 c 12x12 0
Bedroom 2-A 131 c 12x12 0 92 c 12x12 0
Kitchen-A 82 c 12x12 0 68 h 12x12 0
Kitchen-B 82 c 12x12 0 68 h 12x12 0
Living Room-A 112 c 12x12 0 79 c 12x12 0
Living Room-B 112 c 12x12 0 79 c 12x12 0
Retum Branches
rb3 256 c 2424 0 211 c 2424 0
rb5 158 c 2424 0 110 c 2424 0
rb4 303 c 2424 0 235 c 24x24 0
rb2 321 h 2424 0 284 h 2424 0
Fricdon Rates
Heabn,q FR 0.000 0.000
Cooling FR 0.000 0.000
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Background Color Legend
Yellow background
Duct Size-duct size is smaller than the largest duct size in the row
Reg Size-register size is smaller than the largest register size in the row
Reg CFM-register design cfm is larger than 150 CFM
Friction Rate-friction rate is outsideACCA Manual-D recommended range(0.06-0.18)
Pink background column header
Largest coolling load orientation
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ACCA ...5184Uoamerts\WrightsoftHVAC\454B6yRoad.rup Calc=MJ8 FrorADoorfaces:W
Static Pressure and Friction Rate Job: 1001
wrightsoft- Date: Sep 20,2022
Entire House By: Matt Gucker
Ptqoct Int•rMation
For: Rocco
• Preggure
Heating Cooling
(in H2O) (in H2O)
External static pressure 0 0
Pressure losses
Coil 0 0
Heatexchanger 0 0
Supply diffusers 0 0
Return grilles 0 0
Filter 0 0
Humidifier 0 0
Balancing damper 0 0
Other device 0 0
Available static pressure 0 0
TOW EftIONe1eqgo)
Supply Return
(ft) (ft)
Measured length of run-out 0 0
Measured length of trunk 0 0
Equivalent length of fittings 0 0
Total length 0 0
Total effective length 0
• R ate:
Heating Cooling
(in/100ft) (in/100ft)
Supply Ducts 0 <0.06 0 <0.06
Return Ducts 0 <0.06 0 <0.06
Supply TotalEL=O
Return TotalEL=O
wrightsoft" 2022-Sep-2018:50:58
:,,.,,•,P.•<,M,• ,.y m Right-WteSUrtiversa12022 22.0.03 RSUB3539- Page 1
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ENERGY STAR Single-Family New Homes
National HVAC Design Report, Version 313.1 (Rev. 11 )
HVAC Designer Responsibilities:
•Complete one National HVAC Design Report for each system design for a house plan,created for either the speck plan configuration(i.e,,
elevation,option,orientation,&county)of the home to be certified or for a plan that is intended to be built with different configurations(i.e.,
different elevations,options,and/or orientations).Visit wmenergystargov/newhomeshvacdesign and see Footnote 2 for more information.
•Obtain efficiency features(e.g.,window performance,insulation levels,and infiltration rate)from the builder or Rater.'
•Provide the completed National HVAC Design Report to the builder or credentialed HVAC contractor and to the Rater.
1.Design Overview
1.1 Designer name: Designer company: Date:Sep 20,2022
1.2 Select which party you are providing these design services to: WBuilder or O Credentialed HVAC contractor
1.3 Name of company you are providing these design services to(if different than Item 1.1):
1.4 Area that system serves: WWhole-house E3Upper-level pLower--level 0Other
1.5 Is cooling system for a temporary occupant load? Mes W No
1.6 House plan: Check box to indicate whether the system design is site-specific or part of a group:
N Site-specific design.Option(s)&elevation(s)modeled:
0 Group design.Group#:0 out of 0 total groups for this house plan. Configuration modeled:
Designer
2.Dwelling Unit Mechanical Ventilation System Design "Vent System")&Inlets in Return Duct Verified
Airflow:
2.1 Ventilation airflow design rate&run-time meet the requirements of ASHRAE 62.2-2010,2013 or2016
2.2 Ventilation airflow rate required by62.2 fora continuous system: 0 CFM
2.3 Design for this system:Vent.airflow rate: 0 CFM Run-time per cycle: 0 minutes Cycle time: 0 minutes
System Type&Controls:
2.4 Specked system type: OSupply ED Exhaust 11111111113alanced
2.5 Specified control location: (e.g.,Master bath,utility room) -
2.6 Specified controls allow the system to operate automatically,without occupant intervention. p
2.7 Specked controls include a readily-accessible ventilation override and a label has also been specified if its function is not 0
obvious(e.g.,a label is required for a toggle wall switch,but not for a switch that's on the ventilation equipment).
2.8 For any outdoor air inlet designed to connect to a ducted return of the HVAC system,specked controls automatically
restrict airflow,using a motorized damper during ventilation off-cycle and occupant override.
Sound: 1 2.9 The fan of the specified system is rated<_3 sones if intermittent ands 1 sone if continuous,or exempted O
Efficiency:
2.10 If Vent System controller operates the HVAC fan,then HVAC fan operation is intermittent and either the fan type in Item 4.7 is ECM/ICM or the controls will reduce the run-time b accountin 0
for HVAC system heating or cooling hours.
2.11 if bathroom fans are specified as part of the system,then they are ENERGY STAR certified p
Air Inlet Location: (Complete this section if system has a specified air inlet location;otherwise check"N/A') E3 N/A
2.12 Inlet pulls ventilation air directly from outdoors and not from attic,crawls ace,garage,or adjacent dwelling unit p
2.13 Inlet is 2t 2 ft.above grade or roof deck;z 10 ft.of stretched-string distance from known contamination sources(e.g.,
stack,vent,exhaust,vehicles)not exiting the roof,and Z 3 ft.from known sources exiting the roof
3.Room-by-Room Heating&Cooling Loads
3.1 Room-by-room loads calculated using: M Unabridged ACCA Manual J v8 1=2013 ASHRAE Fundamentals =Other perAHJ -
3.2 Indoor design temperatures used in loads are 70T for heating and 750F for cooling 0
3.3 Outdoor design temperatures used in loads:(See Footnote 13 and energystargov/hvacdesigntemps) _
County&State,or US Territory,selected: Saratoga,NY Cooling season: 85°F Heating season: -4°F
3.4 Number of occupants used in loads: 0
3.5 Conditioned floor area used in loads: 1800 Sq.Ft. _
3.6 Window area used in loads: 120 S .Ft.
3.7 Predominant windowSHGC used in loads: 0.41
3.8 Infiltration rate used in loads: Summer. 0.20 Winter. 0.38 -
3.9 Mechanical ventilation rate used in loads: 0 CFM _
Loads At Design Conditions(kBtuh) N NE E SE S SW W NW -
3.10 Sensible heat gain(By orientation) 9.0 9.8 9.7 9.5 8.6 9.3 9A 9.6 -
Cooling 3.11 Latent heat gain(Not by orientation) 2.0 -
3.12 Total heat gain(By orientation) 10.9 11.8 11.6 11.5 10.6 11.3 11.3 1 11.5 -
3.13 Maximum-minimum total heat gain(Item 3.12)across orientations= 1.2 kBtuh Variation is s 6 kBtuh
Heating 3.14 Total heat loss(Not by orientation) 128.7 _
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ENERGY STAR Single-Family New Homes
�:. National HVAC Design Report, Version 3 / 3.1 (Rev. 11 )
Designer
4.Heatinci&Cooling Equipment Selection Verified
4.1 Equipment selected perACCA Manual S(see Footnote 25&26). 0
Air Conditioner/Heat Pump (Com lete if air conditioner or heat pump will be installed;otherwise check"N/A" N/A
4.2 Equipment type: Cooling-only air conditioner or =Cooling&heating heat pump -
4.3 Condenser manufacturer&model:
4.4 Evaporator/fan coil manufacturer&model: -
4.5AHRI reference*
4.6AHRI listed efficiency: 0 / 0 EER/SEER Air-source heat pump: HSPF Ground-source heat pump: COP -
4.7 Evaporator fan type: =PSC 0 ECM/ICM 00ther. -
4.8 Compressor type: Single-speed =Two-speed =Variable-speed -
4.9 Latent capacity at design conditions,from OEM expanded performance data: 0 kBtuh -
4.10 Sensible capacity at design conditions,from OEM expanded performance data: 0 kBtuh -
4.11 Total capacity at design conditions,from OEM expanded performance data: 0 kBtuh -
4.12Air-source heat pump capacity: At 17°F: 0 kBtuh At 47°F: 0 kBtuh MN/A -
4.13 Cooling sizing%"=Total capacity(Item 4.11)divided by maximum total heat gain(Item 3.12): 0%
4.14 Complete this Item if Condition B Climate will be used to selezt sizing limit in Item 4.15.Otherwise,check"N/A": MN/A -
4.14.1 Load sensible heat ratio=Max.sensible heat gain(Item 3.10)/Max.total heat gain(Item 3.12) = 83% -
4.14.2 HDD/CDD ratio(Visit energystar.gov/hvacdesigntemps to determine this value for the design location 2.4
4.15 Check box of applicable cooling sizing limit from chart below.
Equipment Type(Per Item 4.2)& Compressor Type Per Item 4.8
Climate-Co nd Rion(Per Item 4.14) Single-Speed Two-Speed Variable-Speed
For Cooling-Only Equipment or Recommended:90-115% Recommended:90-120% Recommended:90-130%
For Cooling Mode of Heat Pump in 0 Allowed:90-130% 0 Allowed:90-140% = Allowed:90-160%
Condition A Climate
For Cooling Mode of Heat Pump in 0 90%-100%,plus 15 kBtuh 0 90%-100%,plus 15 kBtuh 0 90%-100%,plus 15 kBtuh
Condition B Climate
4.16 Cooling sizing%(4.13)is within cooling sizing limit(4.15) 0
Furnace (Complete if furnace will be installed;otherwise check"N/A" 0'N/A
4.17 Furnace manufacturer&model: GenericAFUE 96 -
4.18 Listed efficiency: 96 AFUE -
4.19 Total capacity: 0 kBtuh
4.20 Heating sizing%=Total capacity(Item 4.19)divided by total heat loss(Item 3.14): 0% -
4.21 Check box of applicable heating sizing limit from chart below. -
When Used for Heating Only When Paired With Cooling
0 100-140% O Recommended: 100-140%Allowed:100-400%
4.22 Heating sizing%(4.20)is within heating sizing limit(4.21) 1 0
5.Duct Desi n (Complete if heating or cooling equipment will be installed with ducts;otherwise check"N/A" 0 N/A
5.1 Duct system designed for the equipment selected in Section 4,perACCA Manual D
5.2 Design HVAC fan airflow. Cooling mode 801 CFM Heating mode 801 CFM -
5.3 Design HVAC fan speed setting(e.g.,low,medium,high): Cooling mode Medium Heating mode Medium -
5.4 Design total external static pressure(corresponding to the moc a with the higher airflow in Item 5.2): 0 IWC
5.5 Room-b -room desi n airflows documented below which must sum to the mode with the hi her airflow in Item 5.2) -
Room Name Design Airflow Room Name Design Airflow Room Name Design Airflow
CFM CFM CFM
1 Basement 152 12 23
2 Bathroom 58 13 24
3 Bedroom 1 170 14 25
4 Bedroom 2 116 15 1 26
5 Front door 0 16 1 27
6 Hallway
0 17 28
7 Kitchen 116 18 29
8 Living Room 190 19 30
9 Stairs 0 20 31
10 21 32
11 22 Total for all rooms 801
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ANSI / RESNET /ACCA 310 HVAC Design Report (1 ,2)
1.Design Basis&Architectural Scope
1.1 Design description(optional):
1.2 Design company: Designer name: Date: Sep 20,2022
1.3 Software name and version used to complete design: RightSuiteg Universal 2022 2Z.0.03 RSU63539 N/A
For a Dwellin Townhouse or Dwelling/Sleeping Unit Within i.e.duple
1.4Architectural plan name or address of property:
1.5 Architectural options used in the design(3):
1.6 Other architectural options that the design can be used with:(4)
For a Dwelling/Sleeping Unit Not Within a Dwelling or Townhouse(e.g.condo,apartment):
1.7 Unique ID for bldg.that the dwelling/sleeping unit is in:(5)
1.8 Architectural plan used in design(e.g.dwelling unit model):
1.9 Other architectural plans that the design can be used with:(6)
1.10Architectural options used in the design:(3)
1.11 Other architectural options that the design can be used with:(4)
1.12 Dwelling/sleeping unit location used in design:(7)
2.Dwelling-Unit Mechanical Ventilation System Design
Ventilation System Type&Control Location: System 1 System 2 System 2
2.1 Unique name or ID for each system:(8)
2.2 Vent.equipment manufacturer&model#:(9)
2.3 Specked system type:(10) Balanced w/o Recovery
2.4 Specified control location:(11)
2.5 Ventilation zone name(s)served by system:(12) Entire House
Ventilation Zone Served by Ventilation System: Zone 1 Zone 2 Zone 3
2.6 Ventilation zone name:(12) Entire House
2.7 Design basis:(13) 62.2-2019
2.8 Floor area(sq.ft.)and#bedrooms in vent.zone: 1800 2
2.9 Ventilation design airflow rate(CFM):(14)
2.10 Vent.runtime per cycle&cycle time(mins): 0 of every 0
2.11 Time-averaged mechanical vent.rate(CFM):(15)
3.Heat Gain&Heat Loss Loads
3.1 Design basis for the loads:(16) ACCAManual J 8th Edition 3.2 Load methodology:(17) Room by-Room
3.3 Indoor design temperatures used in loads ff): Heating Season: 72 Cooling Season: 68
3.4 Outdoor design temperatures used in loads ff):(18) Heating Season: -4 Cooling Season: 85
3.5 Outdoor design temperature location&data source:(19) Saratoga,NY Data Source: ACCAstd.
Zone-Specific Inputs&Loads at Design Conditions Zone 1 Zone 2 Zone 3
3,6 Name of heated or cooled zone:(20) Entire House
3.7 Occupants&total occup.internal gains(Btuh):(21) 0 0
3.8 Total non-occupant internal gains(Btuh): 0
3.9 Conditioned floor area(sq.ft.):(22) 1800
3.10 Window area(sq.ft.):(23) 120
3.11 Predominant windowSHGC:(24) 0.4
3.12 Predominant insulation nominal R-value:(24,25) Wall: 21.0 Ceiling:38.0 Wall: Ceiling: Wall: Ceiling:
3.13 Infiltration rate(Qualitative orACH50):(26) Average
3.14 Time-averaged mechanical vent.rate(CFM): 0
3,15 Heat gain(kBtuh):(27) Sensible Latent Total Sensible Latent Total Sensible Latent Total
N 9.0 2.0 10.9
NE 9.8 2.0 11.8
E 9.7 2.0 11.6
SE 9.5 2.0 11.5
S 8.6 2.0 10.6
SW 9.3 2.0 11.3
W 9.4 2.0 11.3
NW 9.6 2.0 11.5
3.16 Maximum-minimum total heat gain(kBtuh):(28) 1..
3.17 Total heat loss(kBtuh): 28.7
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ANSI / RESNET /ACCA310 HVAC Design Report (1 ,2)
4.Heating&Cooling Equipment Selection I 1 1 1 2 3
Air Conditioners,Heat Pumps,&Other Cooling Equip ent if none of these will be installed,check"N/A' N/A :.
4.1 Unique name or ID for each system: Entire House
4.2 Zone that system serves(See Item 3.6): Entire House
4.3 Equipment type:(29) AC
4.4 Evaporator/fan coil mfr.&model#:(30)
4.5 Condenser mfr.&model#:(30) N/A N/A a N/A N
4.6 AHRI ref.#,or check box for alt.OEM doc.:(31) OEM OEM 19 OEM
4.7 If AC/HP,rated cooling efficiency:(32) 0 SEER N/A N/A 0 N/A
4.8 If HP,rated heating efficiency:(33) N/A ® N/A m N/A e
4.9 If HP,ratio of max.to min.rated capacity. N/A N/A w N/A
4.10 If AC/HP,blower fan motor&speed type:(34) Other Single N/A N/A U N/A
4.11 If AC/HP,compressor speed type:(35) Single N/A N/A N N/A
4.12 If AC/HP,meter device type:(36) N/A N/A 0 N/A
4.13 If TXV or EEV,OEM subcooling target(°F):(37) 0.0 N/A N/A m N/A
4.14 Filter performance metric and rating:(38) N/A ® N/A W N/A
Furnaces,Boilers,&Other Heating Equipment(If none of these will be installed,check"N/A') N/A
4.15 Unique name or ID for each system: Entire House
4.16 Zone that system serves(See Item 3.6): Entire House
4.17 Equipment type:(39) Furnace
4.18 Equipment manufacturer&model#: AFUE 96
4.19 AHRI ref.#,or check box for alt.OEM doc.:(31) OEM'• OEM N OEM
4.20 If furnace or boiler,rated heating efficiency: 96AFUE N/A ..: N/A m N/A in
4.21 If furnace,blower fan motor&speed type:(34) Other Single N/A N/A la N/A M
4.22 If furnace or boiler,heating capacity type:(40) Single Stage N/A N/A EK N/A w
4.23 If furnace or boiler,venting type:(41) N/A N/A 9 N/A N
4.24 Filter performance metric and rating:(38) N/A >s N/A N N/A
5.Duct Design(Complete if duct system will be installed;otherwise check"N/A') N/A
5.1 Unique name or ID for each system: Entire House
5.2 Zone that system serves(See Item 3.6): Entire House
Des n Values for Cooling and Heating Mode Cooling Heating Cool in Heating Cooling Heating
5.3 Design blower fan airflow(CFM):(42) 801 801
5.4 Design blower fan speed setting:(43) Medium Medium
5.5 Design external static pressure(IWC):(44) 0
5.6 Room-by-room design airflows(CFM): . Room Name jAirnow Room Name Airflow Room Name Airflow
Total Design Airflow. [AII rooms] 802 [All rooms]. [All rooms]
1. Basement 152
2. Bathroom 58
3. Bedroom 1 170
4. Bedroom 2 116
5. Front door 0
6. Hallway 0
7. Kitchen 116
8. Living Room 190
9. Stairs 0
10.
11.
12.
13.
14.
15.
16.
17.
18.
19.
20.
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ANSI / RESNET /ACCA 310 HVAC Design Report (1 ,2)
5.6 Room-by-room design airflows(Continued): Room Name JAirflow Room Name JAirflow, Room Name JAirflow
21.
22.
23.
24.
25.
26.
27.
28.
29.
30.
31.
32.
33.
34.
35.
Footnotes
1. The purpose of this report is to document the design information required by ANSI!RESNET/ACCA 310-a standard for grading the installation of
HVAC systems-for a dwelling,townhouse,or dwelling/sleeping unit.The HVAC designer should complete one reportper dwelling,townhouse,or
dwelling/sleeping unit that encompasses all HVAC systems(e.g.,for a dwelling with two zones,the HVAC system for each zone should be
documented in the same report).
2. Note that this report will be reviewed by users of the standard(e.g.,a rater)to ensure that the design meets the tolerances defined in Section 4.3 of
ANSI/RESNET/ACCA 310.The HVAC systems will not be eligible to earn recognition for proper installation unless alltolerances are met.
3. If the HVAC design documented in this report incorporated one or more options(e.g.,media room option),then list those options.
4. If this same HVAC design could be used with other options(e.g.,bonus room,balcony with sliding glass door),then list those option(s).
5. For example,the name of the development or the building's address.
6. If this same HVAC design could be used with other plans(e.g.,other dwelling unit models)in the building,then list those plan(s).
7. Because the loads are dependent on the dwelling/sleeping unit's location in the building,indicate whether the design is for the TopFloor,a
Mid-Level-Floor,or the Bottom-Floor of the building;and either a Comer Unit or Middle Unit that is between two other units.
8. For example,the unique ID might be"Powder Bath Fan"or"Whole-House ERV'.
9. The ventilation equipment manufacturer and model number are required to be reported for dwelling/sleeping units not within a dwelling or
townhouse;and are optional for dwellings,townhouses,and sleeping/dwelling units within(i.e.,duplex).
10. Ventilation system types are:Supply-a supply-only system,Exhaust-an exhaust-only system,Balanced w/o Recov.-a balanced system without
energy or heat recovery,ERV-an energy recovery ventilator,HRV-a heat recovery ventilator,Vent.Dehumidifier-a ventilation system with
integrated dehumidifier,or Other-any other system type.
11. For example,common ventilation control locations include a bathroom or utility room.
12. For example,the ventilation zone name may be'Whole Dwelling","Upper Level","Lower Level",or"Basement".
13. Design basis options are:62.2-2010-ASHRAE 62.2-2010,62.2-2013-ASHRAE 62.2-2013,62.2-2016-ASHRAE 62.2-2016,62.2-2019-
ASHRAE 62.2-2019,or Other-any other ventilation standard.
14. Enter the airflow rate of the ventilation system when operating(e.g.,a 50 CFM cycled bath fan has a ventilation airflow rate of 50 CFM).
15. The following formula shall be used to determine the time-averaged ventilation airflow rate:Time Averaged Vent Rate=Vent Rate'Runtime Per
Cycle/Cycle Time Where:•Time Averaged Vent Rate=The time-averaged ventilation airflow rate.•Vent Rate=The design's ventilation airflow
rate reported in Item 2.9.•Runtime Per Cycle=The runtime per cycle reported in Item 2.10.•Cycle Time=The cycle time reported in Item 2.10.
16. Design basis options for the heat gain and heat loss loads are:ACCA Manual J v8 2013-ACCA Manual J v8,2013 edition;ACCA Manual J v8
2016-ACCA Manual J v8,2016 edition;2017 ASHRAE Fund.-2017 ASHRAE Fundamentals;or Per AHJ-a design basis prescribed by the
Authority Having Jurisdiction.
17. Load methodology options are:Room-by-Room or Single Block.Note that for dwellings,townhouses,and dwelling/sleeping units within(i.e.,
duplex),the room-by-room load methodology must be used.See Fn.2 for details.
18. Note that the outdoor design temperatures must meet the limits defined in ANSI/RESNET/ACCA 310 Appendix Afor the county or U.S.Temtory
where the project will be constructed.See Fn.2 for details.
19. The location shall include the city or weather station and the state.The data source options are:ACCA-ACCA Manual J,ASHRAE-ASHRAE
Handbook of Fundamentals,orAHJ-design conditions prescribed by the Authority Having Jurisdiction.
20. For example,the heated or cooled zone name may be"Upper Level","Master Suite",or"Basement".
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ANSI / RESNET /ACCA 310 HVAC Design Report (1 ,2)
21. To determine the number of occupants,calculate the number of bedrooms in the zone and add one.ANSI/RESNET/ACCA 310 defines a
"bedroom"for one-and two-family dwellings and townhouses as a room or space 70 square feet of floor area or greater,with egress window or
skylight,and doorway to the main body of the dwelling unit,that can be used for sleeping.For all other Dwelling Units,a room or space that can be
used for sleeping.For all dwelling or sleeping units,the number of bedrooms shall not be less than one.ANSI/RESNET/ACCA 310 defines an
"egress window"as an operable window that provides for a means of escapeand access for rescue in the event of an emergencyand with the
following attributes:•Has a sill height of not more than 44 inches above the floor-,and,•Has a minimum net clear opening of 5.7 sq.ft.,opening
height of 24 in.,and opening width of 20 in.;and,•Is operationz I from the inside of the room without the use of keys,tools or special knowledge.
The number of occupants must fall within the tolerance specked in ANSI/RESNET/ACCA 310.See Fn.2 for details.
22. The difference between the Conditioned FloorArea(CFA)used in the design and the actual dwelling,townhouse,or dwelling/sleeping unit must fall
within the tolerance speed in ANSI/RESNET/ACCA 310.See Fn.2 for details.Be advised,the CFA will be evaluated using the definition in
ANSI/RESNET/ACCA 310,which defines this value,in part,as the floor area of the Conditioned Space Volume within a building or dwelling unit,
not including the floor area of attics,crawlspaces,and basements below air sealed and insulated floors.
23. The difference between the window area used in the design and the actual dwelling,townhouse,or dwelling/sleeping unit must fall within the
tolerance specified in ANSI/RESNET/ACCA 310.See Fn.2 for details.Be advised,the window area will be evaluated by calculating it using the on
-site inspection protocol provided in Normative Appendix B of ANSI/RESNET/ICC 301,which instructs the user to measure the wdthand height
of the rough opening for the windowand round to the nearest inch,and then to use these measurements to calculate window area,rounding to the
nearest tenth of a square foot.See https://codes.iccsafe.org/content/chapter/16191/for the complete protocol.
24. 'Predominant'is defined as the SHGC or R-value used in the greatest amount of window,wall,or ceiling area in the zone.
25. If both cavity and continuous insulation are used,report the sum of the nominal R-value of the cavity and continuous insulation.
26. The infiltration rate shall be reported using a qualitative input(i.e.,Tight,Semi-Tight,Average,Semi-Leaky,Leaky)or in units ofACH50.
27. Provide loads for the orientation(s)that the design is intended to be used in(e.g.,N,S,E,W),where orientation is defined as the direction that the
front door of the dwelling is facing.For example,if a site-speck design has been completed for a single project,only the loads for the single
orientation of that project need to be provided.
28. If the heat gain has been provided for multiple orientations,then the difference between the max.and min.total heat gain across the orientations
specked must be reported and fall within the tolerance specified in ANSI/RESNET/AC CA 310.See Fn.2 for details.
29. Equipment type options are:AC-Air Conditioner,HP-Heat Pump,MNAC-MiniSplitAir Conditioner,MNHP-Mini-Split Heat Pump,MTAC-Multi-
Split Air Conditioner,MTHP-Multi-Split Heat Pump,and Other-any other cooling equipment type.
30. For single-package systems or systems without a condenser(e.g.,evaporative cooler),provide manufacturer and model number in Item 4.4 and
select"N/A"for Item 4.5.
31. If an AHRI Reference Number is not available,OEM-provided documentation shall be collected with the rated efficiency of the equipment.If the
equipment contains multiple components,the rated efficiency shall reflect the specific combination of indoorand outdoor components,along with
confirmation from the OEM that the two components are designed to be used together.
32. For example,if the metric for the rated efficiency of the equipment is SEER,then its SEER rating shall be reported;if the metric is EER,then its
EER rating shall be reported;if both SEERand EEER,then both rated values shall be reported.
33. For example,if the metric for the rated efficiency of the equipment is HSPF,then its HSPF rating shall be reported;if the metric is COP,then its COP
rating shall be reported;if both HSPFand COP,then both rated values shall be reported.
34. Blower fan motor type options are:PSC-Permanent Split Capacitor,ECM-Electronically Commutated Motor,or Other-any other motor type.For
blower fan speed type,while equipment typically has multiple speed settings to select from during installation,this parameter is related to the
number of operational speeds that the blower fan is capable of:Single-a system that operates at no more than one speed setting each for
heating modeand cooling mode,Two-a system that can operate at no more than two speeds each for heating modeand cooling mode,Variable-a
system that can operate at more than two speeds.
35. The compressor speed type is related to the number of operational speeds that the compressor is capable of:Single-a system that operates at no
more than one speed setting each for heating modeand cooling mode,Two-a system that can operate at no more than two speeds each for
heating modeand cooling mode,Variable-a system that can operate at more than two speeds.
36. Meter device type options are:Piston/Cap-piston/capillary tube,TXV-thermal expansion valve,or EEV-electronic expansion valve.
37. If the meter device type is TXV or EEV,then provide then the OEM-specified subcooling target at the service valve.
38. For example,MERV or FPR.
39. Equipment type options are:Furnace,Boiler,or Other-any other heating equipment type.
40. Heating capacity type options are:Single-Stage,Two-Stage,or Modulating.
41. Vent.type options are:Natural Draft-natural draft system,Mech.Draft-mechanical draft system,or Direct Vent-direct-vent appliance.
42. Provide design airflow in cubic feet per minute of air with a density of 0.075 pounds per cubic feet.Airflow at this air density is often referred to as
Standard CFM(SCFM)and represents air at 68°F,50%relative humidity,and at a barometric pressure of 29.92"Hg.
43. This is the OEM setting that corresponds with the design blower fan airflow.Common examples include low,medium-low,medium,medium-high,
and high,but also may be defined in terms of dip-switch settings or other classifications
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UNITS: FEET
SHOVEL PIT AND PERCOLATION TEST LOG WASTEWATER TREATMENT SYSTEM NOTES
SHOVEL PIT SP-1 BROWN/LIGHT BROWN LOAMY CLAY, FRIABLE MOTTLES AT 24", STANDING WATER AT 42" 1. THE ON -SITE SUBSURFACE WASTEWATER TREATMENT SYSTEM SHALL BE A CONVENTIONAL SHALLOW
ABSORPTION TRENCH SYSTEM. THE BASIS OF DESIGN FOR THE SYSTEM IS AS FOLLOWS:
SHOVEL PIT WAS OBSERVED BY ERIK SANDBLOM, PE OF SRA ENGINEERS ON 2/7/2023 NUMBER OF BEDROOMS 2
PERCOLATION TEST PT-1 STABILIZED PERCOLATION RATE = 13.75 min./inch DESIGN WASTEWATER FLOW RATE 226 gpd
DESIGN PERCOLATION RATE 14 min/in
SEPTIC TANK MIN. CAPACITY 1,000 gal (NO SPAS OR GARBAGE GRINDERS)
PERCOLATION TEST WAS PERFORMED BY SRA ENGINEERS ON 217/2023 SEPTIC TANK CAPACITY PROVIDED 1 500 gal (NO SPAS OR GARBAGE GRINDERS)
GENERAL NOTES
1. PRIOR TO CONSTRUCTION, THE CONTRACTOR SHALL STAKE OUT ALL IMPROVEMENTS AND VERIFY GRADES AND
ELEVATIONS. ANY DISCREPANCIES SHALL BE BROUGHT TO THE ATTENTION OF THE ENGINEER.
2. CONTRACTOR SHALL STRIP ALL TOPSOIL IN AREAS TO BE RE -GRADED AND STOCKPILED FOR LATER USE.
3. THE EXACT LOCATIONS OF ALL UTILITIES SHALL BE DETERMINED BY THE CONTRACTOR IN THE FIELD. THE
CONTRACTOR SHALL CONDUCT OPERATIONS AND TAKE THE NECESSARY PRECAUTIONS SUCH THAT
INTERFERENCE WITH OR DAMAGE TO EXISTING UTILITIES IS PREVENTED. THE CONTRACTOR SHALL COORDINATE
WITH "DIG -SAFE" TO HAVE ALL UNDERGROUND UTILITIES LOCATED PRIOR TO COMMENCING EXCAVATION WORK. IF
THE CONTRACTOR DAMAGES AN EXISTING UTILITY, HE SHALL COMMENCE WORK TO REPAIR THAT SERVICE
IMMEDIATELY AND ALL COSTS ASSOCIATED WITH SUCH REPAIR SHALL BE THE SOLE RESPONSIBILITY OF THE
CONTRACTOR.
4. THE CONTRACTOR SHALL COMPLY WITH ALL REQUIRED PERMITS AND ASSOCIATED CONDITIONS.
5. CONTRACTOR SHALL BE RESPONSIBLE FOR DEWATERING AND MAINTENANCE OF SURFACE DRAINAGE DURING THE
DURATION OF THE WORK.
6. CONTRACTOR IS RESPONSIBLE FOR EMPLOYING AND MAINTAINING ALL TRAFFIC CONTROL AND SAFETY MEASURES
DURING CONSTRUCTION.
7. ELEVATION DATA FROM LIMITED GROUND SHOTS COLLECTED BY SRA ENGINEERS BASED ON AN ARBITRARY
RELATIVE ELEVATION OF 100.00 FEET SET AT THE TOP OF CONCRETE SLAB AT THE SOUTHWEST CORNER OF THE
BUILDING.
DESIGN APPLICATION RATE 0.80 gal/day/sf
REQUIRED ABSORPTION AREA = (220 GaIJDayy(0.80 GALJDAY per Sq. Ft.) = 275 Sq. Ft.
REQUIRED ABSORPTION TRENCH LENGTH = 275 Sq. Ft./2 Ft. TRENCH WIDTH= 137.5 LF
ABSORPTION TRENCH LENGTH PROVIDED = (3) 46 FT LONG TRENCHES = 138 LF f.
PLUMBING FIXTURES MAX. 1.6 Gal./Flush WATER CLOSETS
2. ALL WASTEWATER TREATMENT SYSTEM COMPONENTS SHALL BE IN STRICT ACCORDANCE WITH TH4 SYSTEM
DESIGN INFORMATION INDICATED ON THESE DRAWINGS, WITH ALL N.Y.S. DEP'T. OF HEALTH AND T0*1N OF
QUEENSBURY REQUIREMENTS. {
3. THE DISCHARGE OF WASTE FROM GARBAGE GRINDERS, SPA TUBS, SUMP PUMPS, ROOF DRAINS, WATER
TREATMENT SYSTEM BACKWASH AND NON -CONSERVING WATER FIXTURES IS PROHIBITED.
4. THE DISTRIBUTION BOX SHALL BE A PRE -CAST CONCRETE UNIT AS MANUFACTURED BY UTOPIA PRECAST
MODIFIED IN ACCORDANCE WITH THE DETAIL ON THIS SHEET.
5. SEWER PIPING SHALL BE SCH 40 PVC PIPE WITH SOLVENT WELDED JOINTS AND FITTINGS. BUILDING;SEWER
PIPING AND ALL PIPE AT THE DISPOSAL FIELD SHALL BE SOLVENT WELDED SCH. 40 PVC PIPE. INSTALL SEWER
PIPING ON MIN. 6" LAYER OF CRUSHED STONE AT A UNIFORM SLOPE WITH NO SAGS OR HUMPS. THE^MINIMUM
SLOPE FOR ALL SEWER PIPING SHALL BE 1/4"/FT. (2%) UNLESS OTHERWISE INDICATED.
6. AFTER EXCAVATING THE ABSORPTION TRENCHES TO THE DEPTHS REQUIRED, THE WALLS AND FLO OF THE
TRENCHES SHALL BE CLEANED AND RAKED TO ACHIEVE AN EVEN SECTION AND TO LOOSEN SMEAR D AREAS.
NOTIFY THE ENGINEER FOR INSPECTION OF THE BED SUBGRADE SURFACES BEFORE PLACING THE ISPOSAL
LATERALS.
7. PLACEMENT OF BACKFILL, CRUSHED STONE TRENCHES, PERFORATED PIPE AND FILTER FABRIC SH L BE AS
SHOWN
8. CRUSHED STONE USED FOR THE ABSORPTION TRENCHES SHALL BE WASHED STONE 3/4" TO 1 1/2" Ii SIZE. HOLD
BOTTOM OF THE TRENCHES LEVEL. S
i
9. DISPOSAL FIELD LATERALS SHALL BE PERFORATED 4" 0 SDR 26 PVC PIPE. INSTALL LATERALS AT 1/16" PER FT.
TO 1/32" PER FT. SLOPE AWAY FROM THE DISTRIBUTION BOX WITH HOLES DOWNWARD. PROVIDE END CAPS AT
ALL LATERALS.
10. FILL OVER AND BETWEEN THE TRENCHES SHALL BE CLEAN SANDY LOAM, FREE OF ORGANIC MATTER AND
STONES LARGER THAN 2 IN. IN ANY DIMENSION.
11. EXISTING SOIL SURFACE WITHIN THE TREATMENT SYSTEM AREA SHALL BE REMOVED OF THE ORGANIC LAYER
(GRASS, LEAVES, ETC.) AND BE SCARIFIED PRIOR TO PLACING SANDY LOAM FILL AND SYSTEM SANDITO THE
LINES AND GRADES INDICATED.
12. NO HEAVY EQUIPMENT OR VEHICULAR TRAFFIC SHALL BE ALLOWED WITHIN THE LIMITS OF THE DISPOSAL FIELD
AFTER FILL MATERIAL HAS BEEN PLACED BOTH DURING OR AFTER CONSTRUCTION.
13. TOPSOIL AND SEED THE DISPOSAL FIELD AREA AND ALL OTHER DISTURBED AREAS IMMEDIATELY AFTER
CONSTRUCTION.
14. ALL PLUMBING WORK SHALL BE COMPLETED IN STRICT ACCORDANCE WITH ALL REQUIREMENTS OF7HE
BUILDING CODE OF NEW YORK STATE.
15. NOTIFY THE ENGINEER FOR INSPECTION OF THE DISPOSAL FIELD LATERALS PRIOR TO BACKFILLING AND TO
INSPECT THE OPERATION OF THE PUMP STATION. AT THE TIME OF THE INSPECTION, PUMP AND CON TROL SHALL
BE INSTALLED AND ENERGIZED AND THE TANKS SHALL BE FULL OF CLEAN WATER.
16. UPON COMPLETION OF CONSTRUCTION, THE CONTRACTOR SHALL PREPARE A MAP OF AS -BUILT CONDITIONS
INDICATING A MINIMUM OF TWO TIE DIMENSIONS FROM ADJACENT CORNERS OF THE RESIDENCE TO, EACH
CORNER OF THE ABSORPTION FIELD.
4"0 PERFORATED PVC TO 3" TOPSOIL
ABSORPTION TRENCH & SEED.
LATERAL W/FLOW BAFFLE.
LEVELERS. (TYP.)
4"0 PVC FROM SEPTIC TANK.
FLOW
O ,
i
00 0 000 000 0 00 00000°0
000� ofl0000000000000o00
Ooo O o OOo OOO,OOO OOP DOO O O C
°00000 00 000 0o Door 000�000! o WATERTIGHT PIPE
SEAL, TYP ,
6" 6" MIN. PEA GRAVEL I
UNDISTURBED SOIL.
c
D IST"3UTIQN BOX DETAIL
F
fi
t
UNDISTURBED SbIL.
MOUNDTRENCH & PIPE • ALLOW
FOR SETTLEMENT. •• NOT COMPACT.
TOPSOIL AND �EED.
BACKFILL WITH IVE SOIL. (TYP.)
gi
CRUSHED STON AND BACKFILL SOIL. (TYP.)
•ice i- ri- M �. .i'- i rQ• ii-
3/4*0 TO 1 1/2"05 RUSHED STONE, TYP. STONE
ilr�ilr°o!r •lr�� ��%j��iil�����:ls�
• TO / IOR TO
0 PERFORATEO PVC DISTRIBUTION
LATERAL. INSTAIIL LATERAL AT 1/16"/FT.
• • TO
TYPICAL WASTEWATER ABSOPTION TRENCH DETAIL
N.T.S.
LOCATION MARKER, TYP.
A RISER MAY BE INSTALLED
IN-LEIU OF MARKER. SUBMIT
SHOP DRAWINGS TO OWNER
AND ENGINEER FOR APPROVAL
PRIOR TO INSTALLATION.
FINISH GRADE, TYP.
MIN. 18"0 OPENING, EA.
END OF TANK, TYP.
SANITARY TEE.
INLET INVERT EL. FLOW
MIN. 2" ABOVE
OUTLET INVERT.
#2 CRUSHED STONE
PLACED ON AND WRAPPED
WITH GEOTEXTILE FABRIC.
OPENING OPENING
� p �
INVERT OF SLOT OR HOLES
CONNECTING CHAMBERS OF
i DUAL CHAMBER TANK
LIQUID LEVEL
s i
17
Z Q
J T
o L
0
0.3 L
UNDISTURBED SOIL.
NOTES:
1. PROVIDE FLEXIBLE PIPE BOOTS AT ALL PIPE PENETRP� IONS INTO
ALL TANKS.
2. FOR DUAL CHAMBER TANK, WALL SHALL HAVE A 4"V. 18" WIDE SLOT, OR
(4) 4"0 HOLES, INVERT LOCATED AS SHOWN. DUAL C MBER TANKS
SHALL BE PROVIDED FOR ALL SEPTIC TANKS WITH AN INTERIOR LENGTH
GREATER THAN OR EQUAL TO 10 FT.
SEPTIC TANK DETAIL
N.T.S.
REVISIONS
REV. DATE DESCRIPTION
0 3/15/2023 ISSUED FOR PERMITS AND
CONSTRUCTION
MANUFACTURER'S
STANDARD OPENING
AND COVER, (TYP.)
1" MIN. AIR GAP.
UNAUTHORIZED ALTERATION OR ADDITION TO
THIS DOCUMENT IS A VIOLATION OF SECTION
z 7209 SUBDIVISION 2 OF THE NEW YORK STATE
g EDUCATION LAW.
s
co
1W
WALL ENGINEERS
CHAMBER TANK. R Evergreen Professional Park
CHAM
SEE NOTE BELOW 453 Dixon Road, Suite 7, Bldg.
Queensbury, New York 12804
12" MIN. (518) 761-0417, FAX: (518) 761-0513
(TYP.)
SCALE: AS SHOWN DRAWN BY: RAS
DATE: 3/15/2023 ENG. BY: RAS
z a PROJ. NO: 23-076 CHWD BY: ES
2 CLIENT NAME
ROCCO MUSUMECI
454 BAY ROAD
QUEENSBURY, N.Y. 12804
DRAWING TITLE
ROCCO MUSUMECI
454 BAY ROAD
QUEENSBURY, NY, 12804
WASTEWATER TREATMENT
SYSTEM PLAN
DRAWING NO. SHT. 1 OF 1
C-1 0 0 REV. 0
63Z Y3 - oo/ - #4 /