RESIDENTIAL HVAC SYSTEM DESIGN REPORT

RESIDENTIAL HVAC SYSTEM DESIGN REPORT

Table of Contents PE LOAD CALCS, LLC 91.257.591 www.peloadcalcs.com anthony.amadio@peloadcalcs.com 1) HVAC System Design Disclaimer 2) Equipment Selection Form 3) Heat Pump Balance Point Diagram 4) Examiner Review Form 5) Building Analysis Report 6) Project Summary Report 7) Manual J Worksheets 8) Duct System Summary 9) Friction Rate Worksheet 1) Duct Distribution Drawing 11) Air Volume Balance Report Form 12) Equipment Bill of Materials 13) ASHRAE 62.2 Report

HVAC System Design Disclaimer PE LOAD CALCS, LLC 91.257.591 www.peloadcalcs.com anthony.amadio@peloadcalcs.com The following pages summarizes the load calculations, equipment selection, and duct design of a residence using ACCA/ASHRAE procedures (J, S, D, 62.2) and current codes (IRC, IECC). All calculations are based on information given to PE Load Calcs LLC in the form of surveys, drawings, sketches, pictures, and meetings. In certain cases, PE Load Calcs may make reasonable assumptions about design conditions and construction materials that may or may not be accurate for the building of concern. It is the responsibility of the installing HVAC contractor to verify the design conditions, construction materials, and compatibility with existing equipment before equipment purchase and installation. All HVAC system design work provided in the following pages are based upon information provided by the particular party submitting a particular project to PE Load Calcs. PE Load Calcs has not and does not independently verify that the data provided to us is correct or complete, and any design made by PE Load Calcs are based upon the information provided by third parties. PE Load Calcs makes no claim that the information given to us is correct or complete. PE Load Calcs utilizes the latest Wrightsoft s Right-Suite Universal 215 which is an ACCA Certified and ASHRAE recommended HVAC system design software. The mathematical model and design of the HVAC system, designed by PE Load Calcs, is only as accurate as the input provided. PE Load Calcs makes every attempt possible to be as detailed and accurate as possible, however, there is no reasonable means to mathematically model an HVAC system that has not been properly installed, or has had after-the-fact building modifications or HVAC system component alterations or substitutions. If there is any construction modifications (floor plan, roofing material, window types/sizes, insulation characteristics, or any other change that will alter the load calculation results), HVAC equipment substitutions, duct sizing or layout changes, which is not noted in this report, and therefore not provided to PE Load Calcs for consideration for the HVAC system design, then PE Load Calcs may not guarantee the performance of the HVAC system design, and all design standards and procedures performed for this HVAC system design, including this report, may no longer be valid. PE Load Calcs will not guarantee the performance of the HVAC system design if the equipment selection and/or duct design has been performed by another party. Also, PE Load Calcs will not guarantee the performance of the HVAC system design that has not been properly installed or tested to verify performance has conformed to manufacturer specifications and design criteria provided in this report. It is up to the installing HVAC contractor to properly install, test, and verify all components of the HVAC system. All installing HVAC contractors are expected to follow ACCA Standards 5 and 9 for quality HVAC equipment installation. All information on any existing HVAC equipment (prior to design) to remain with an existing structure must be provided to PE Load Calcs prior to the design for appropriate selection of new and compatible equipment. It is up to the installing HVAC contractor to verify equipment compatibility between with the newly installed equipment (per design) and any existing equipment remaining, via manufacture specifications and airflow/static pressure measurements. PE Load Calcs does not provide architectural or engineering plans or diagrams for the public or for use by contractors or construction companies as final construction documents. PE Load Calcs works with architectural and engineering firms and with contractors in connection with their designs of HVAC systems. Copies of this report, including the completed balance report (and any other documents that need to be completed by the installing HVAC contractor verifying equipment performance meeting design requirements and manufacturer specifications), must be kept on file by the installing HVAC contractor, and also a copy given to the homeowner to remain attached to the HVAC equipment, and to any other party of specific interest (i.e., code official, county, builder/architect). Page 1 of 1

Equipment Selection Form From ACCA s Manual S PE LOAD CALCS, LLC 91.257.591 www.peloadcalcs.com anthony.amadio@peloadcalcs.com PROJECT INFORMATION Building Address: City, State and Zip: ASHRAE Location: 77 Lystra Road Harrison TN 37341 Chattanooga TN HDD/CDD:.65 Altitude: 689 ACF:.97 COOLING EQUIPMENT Design Conditions Outdoor Design DB: 92 F Total Gain: 29457 Btuh Design Airflow: 15 CFM Outdoor Design WB: 75 F Latent Gain: 5975 Btuh Entering Coil DB: 75 F Indoor Design DB: 75 F Sensible Gain: 23482 Btuh Entering Coil WB: 63 F Indoor RH: 5 % JSHR:.8 Manufacturer's Performance Data at Actual Design Conditions Equipment Type: Packaged Air Source Heat Pump Condition A or B: A (Applicable to Heat Pumps Only) Manufacturer: Goodman Manufacturing Company Model: GPH14H36H41C Sensible Capacity: 2425 Btuh Total Capacity (TC): 314 Btuh 15 % of Total Gain (TG) 115% TC/TG 9% Y Latent Capacity (LC): 715 Btuh 117 % of Latent Gain (LG) 15% LC/LG 1% Y Adj. Sensible (SC): 24545 Btuh 98 % of Sensible Gain (SG) SC/SG 9% Y HEATING EQUIPMENT Design Conditions Outdoor Design DB: 22 F Heat Loss: 44141 Btuh Design Airflow: 15 CFM Indoor Design DB: 7 F Humidification: Btuh Entering Coil DB: 69 F Manufacturer s Performance Data at Actual Design Conditions Equipment Type: Manufacturer: Packaged Air Source Heat Pump Goodman Manufacturing Company Model: GPH14H36H41C Output Capacity: 2366 Btuh Supplemental Heat Required: 2481 Btuh Thermal Balance Point: 37 F Backup Equipment Type: Manufacturer: Output Capacity: 1st Stage Supplement: 2nd Stage Supplement: Reserve Heat: Electric Strip - 15 kw Electrical Heat Kit (3 stages of 5 kw) Goodman Manufacturing Company Model: HKR-5 (Qt. 3) 5684 Btuh 127 % load Temp Rise: 5.8 F 5. kw 1st Stage Lock-Out Temp: 37 F 5. kw 2nd Stage Lock-Out Temp: 25 F 5. kw The above equipment was selected in accordance with ACCA Manual S. Page 1 of 1

Heat Pump Balance Point Diagram From ACCA s Manual S PE LOAD CALCS, LLC 91.257.591 www.peloadcalcs.com anthony.amadio@peloadcalcs.com Page 1 of 1

Residential Plans Examiner Review Form for HVAC System Design (Loads, Equipment, Ducts) Form RPER 1 15 Mar 9 Contractor: Mechanical license: Building plan #: Home address (Street or Lot#, Block, Subdivision): Hamilton County Header Information REQUIRED ATTACHMENTS Manual J1 Form (and supporting worksheets): or MJ1AE Form* (and supporting worksheets): OEM performance data (heating, cooling, blower): Manual D Friction Rate Worksheet: Duct distribution sketch: 77 Lystra Rd, Entire House ATTACHED Yes No Yes No Yes No Yes No Yes No HVAC LOAD CALCULATION (IRC M141.3) Design Conditions Building Construction Information Winter Design Conditions Outdoor temperature: 22 F Indoor temperature: 7 F Total heat loss: 44141 Btuh Summer Design Conditions Outdoor temperature: 92 F Indoor temperature: 75 F Grains difference: 38 gr/lb @ 5% RH Sensible heat gain: 24183 Btuh Latent heat gain: 6154 Btuh Total heat gain: 3337 Btuh Building Orientation: Front Door faces North North, East, West, South, Northeast, Northwest, Southeast, Southwest Number of bedrooms: 3 Conditioned floor area: 1679 ft² Number of occupants: 4 Windows Eave overhang depth: Internal shade: Blinds, drapes, etc. Number of skylights: 6.5 ft blinds,drapes HVAC EQUIPMENT SELECTION (IRC M141.3) Heating Equipment Data Cooling Equipment Data Blower Data Equipment type: Furnace, Heat pump, Boiler, etc. Model: Heating output capacity: Pkg ASHP Goodman Mfg. GPH1436H41C+ 2366 Btuh Heat pumps - capacity at winter design outdoor conditions Aux. heating output capacity: 45769 Btuh Equipment type: Air Conditioner, Heat pump, etc. Model: Total cooling capacity: Sensible cooling capacity: Latent cooling capacity: Pkg ASHP Goodman Mfg. GPH1436H41C+ 314 Btuh 2425 Btuh 715 Btuh Heating cfm: Cooling cfm: Static pressure: 15 15.56 in H2O Fan's rated external static pressure for design airflow HVAC DUCT DISTRIBUTION SYSTEM DESIGN (IRC M161.1) Design airflow: Equipment design ESP: Total device pressure losses: Available static pressure (ASP): 15.56 -.3.26 cfm in H2O in H2O in H2O Longest supply duct: Longest return duct: 219 59 277.94 Total effective length (TEL): Friction rate: Friction Rate = ASP (TEL x 1) ft ft ft in/1ft Duct Materials Used Trunk duct: Branch duct: Sheet metal Sheet metal 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: Anthony Amadio, Deisgner of PE Load Calcs, LLC Date: 11-24-214 Reserved for County, Town Municipality or Authority having jurisdiction use. *Home qualifies for MJ1AE Form based on Abridged Edition Checklist Right-Suite Universal 215 15..7 RSU18218

Building Analysis Entire House Job: 1 Date: Nov 24, 214 By: PE Load Calcs, LLC For: Project Information Joe Chen, Homeowner 77 Lystra Rd, Harrison, TN 37341 Phone: (423) Email: tiu Design Conditions Location: Indoor: Heating Cooling Chattanooga Lovell Field AP, TN, US Indoor temperature ( F) 7 75 Elevation: 689 ft Design TD ( F) 48 17 Latitude: 35 N Relative humidity (%) 5 5 Outdoor: Heating Cooling Moisture difference (gr/lb) 42.5 38.1 Dry bulb ( F) 22 92 Infiltration: Daily range ( F) - 19 ( M ) Method Blower door Wet bulb ( F) - 75 Shielding / stories 1 (no shielding) / 1 Wind speed (mph) 15. 7.5 Pressure / AVF 5 Pa / 27 cfm Heating Component Walls Glazing Doors Ceilings Floors Infiltration Ducts Piping Humidification Ventilation Adjustments Total Btuh/ft² 4.7 25.7 25.9 2.4 5.3 1.8 Btuh 6237 54 189 465 9195 13929 4622 44141 % of load 14.1 11.3 2.5 9.2 2.8 31.6 1.5 1. Glazing Doors Ceilings Walls Floors Ducts Infiltration Cooling Component Walls Glazing Doors Ceilings Floors Infiltration Ducts Ventilation Internal gains Blower Adjustments Total Btuh/ft² 1.9 21.5 17. 2.6 1.9 2. Btuh 2479 4173 716 4455 3276 259 2272 352 23481 % of load 1.6 17.8 3. 19. 13.9 11. 9.7 15. 1. Glazing Doors Ceilings Walls Internal Gains Floors Ducts Infiltration Latent Cooling Load = 5975 Btuh Overall U-value =.169 Btuh/ft²- F Data entries checked. 214-Dec-19 13:5:27 Right-Suite Universal 215 15..7 RSU18218 Page 1...anian\Documents\Wrightsoft HVAC\77 Lystra.rup Calc = MJ8 Front Door faces: N

Project Summary Entire House Job: 1 Date: Nov 24, 214 By: PE Load Calcs, LLC Project Information For: Notes: Joe Chen, Homeowner 77 Lystra Rd, Harrison, TN 37341 Phone: (423) Email: tiu Homeowner is also interested in attic duct design should he later decide to abandon his existing old duct system in small unconditioned crawlspace. Design Information Weather: Chattanooga Lovell Field AP, TN, US Winter Design Conditions Summer Design Conditions Outside db 22 F Outside db 92 F Inside db 7 F Inside db 75 F Design TD 48 F Design TD 17 F Daily range M Relative humidity 5 % Moisture difference 38 gr/lb Heating Summary Sensible Cooling Equipment Load Sizing Structure 39518 Btuh Structure 2129 Btuh Ducts 4622 Btuh Ducts 2272 Btuh Central vent ( cfm) Btuh Central vent ( cfm) Btuh Humidification Btuh Blower Btuh Piping Btuh Equipment load 44141 Btuh Use manufacturer's data n Rate/swing multiplier.97 Infiltration Equipment sensible load 228 Btuh Method Blower door Latent Cooling Equipment Load Sizing Shielding / stories 1 (no shielding) / 1 Pressure / AVF 5 Pa / 27 cfm Structure 4372 Btuh Ducts 163 Btuh Heating Cooling Central vent ( cfm) Btuh Area (ft²) 1679 1679 Equipment latent load 5975 Btuh Volume (ft³) 13432 13432 Air changes/hour 1.21.63 Equipment total load 28776 Btuh Equiv. AVF (cfm) 27 141 Req. total capacity at.7 SHR 2.7 ton Heating Equipment Summary Cooling Equipment Summary Make Goodman Mfg. Make Goodman Mfg. Trade GOODMAN, JANITROL, AMANA DISTI... Trade GOODMAN, JANITROL, AMANA DISTI... Model GPH1436H41C Cond GPH1436H41C AHRI ref 5677876 Coil AHRI ref 5677876 Efficiency 8 HSPF Efficiency 11.5 EER, 14 SEER Heating input Sensible cooling 252 Btuh Heating output 322 Btuh @ 47 F Latent cooling 18 Btuh Temperature rise 29 F Total cooling 36 Btuh Actual air flow 15 cfm Actual air flow 15 cfm Air flow factor.24 cfm/btuh Air flow factor.45 cfm/btuh Static pressure.56 in H2O Static pressure.56 in H2O Space thermostat Load sensible heat ratio.8 Bold/italic values have been manually overridden Calculations approved by ACCA to meet all requirements of Manual J 8th Ed. Right-Suite Universal 215 15..7 RSU18218...anian\Documents\Wrightsoft HVAC\77 Lystra.rup Calc = MJ8 Front Door faces: N 214-Dec-19 13:5:27 Page 1

Right-J Worksheet Entire House Job: Date: By: 1 Nov 24, 214 PE Load Calcs, LLC 1 Room name Entire House Guest1 2 Exposed wall 16.5 ft 29.5 ft 3 Room height 8. ft 8. ft heat/cool 4 Room dimensions 15. x 14.5 ft 5 Room area 1728.5 ft² 217.5 ft² Ty Construction U-value Or HTM Area (ft²) Load Area (ft²) Load number (Btuh/ft²- F) (Btuh/ft²) or perimeter (ft) (Btuh) or perimeter (ft) (Btuh) Heat Cool Gross N/P/S Heat Cool Gross N/P/S Heat Cool 6 W 12B-bw.97 ne 4.66 1.48 536 432 29 641 12 11 511 163. G 1A-w.82 ne 39.36 27.7 84 336 2327. G 4A4-2ov.32 ne 15.36 18.89 2 314 386 1 157 193. W 12B-bw.97 se 4.66 1.48 24 23 17 341 116 16 493 157 11 G 4A4-2ov.32 se 15.36 21.2 1 157 216 1 157 216 W 12B-bw.97 sw 4.66 1.48 472 371 1728 551 G 4A4-2ov.32 sw 15.36 21.2 35 534 737 G 4A4-2ov.32 sw 15.36 1.29 11 23 175 117 G 4A4-2ov.32 sw 15.36 11.55 34 68 518 39 D 11G.54 sw 25.92 15.71 21 21 544 33 W 12B-bw.97 nw 4.66 1.48 36 36 168 53 P 12B-sw.97-4.66 3.3 192 171 796 564 D 11G.54 n 25.92 18.36 21 21 544 386 P 12B-sw.97-4.66 3.3 1 1 466 33 C 16B-19ad.49-2.35 2.58 1729 1729 465 4455 218 218 512 561 F 19A-cvcp.295-5.32 1.9 1729 1729 9195 3276 218 218 1157 412 6 c) AED excursion -84 Envelope loss/gain 25589 1599 2986 1618 12 a) Infiltration 13929 259 256 476 b) Room ventilation 13 Internal gains: Occupants @ 23 4 92 Appliances/other 26 Subtotal (lines 6 to 13) 39518 2129 5546 294 Less external load Less transfer Redistribution 14 Subtotal 39518 2129 5546 294 15 Duct loads 12% 11% 4622 2272 12% 11% 649 224 Total room load 44141 23481 6195 2318 Air required (cfm) 15 15 147 14 Calculations approved by ACCA to meet all requirements of Manual J 8th Ed. 214-Dec-19 13:5:27 Right-Suite Universal 215 15..7 RSU18218 Page 1...anian\Documents\Wrightsoft HVAC\77 Lystra.rup Calc = MJ8 Front Door faces: N

Right-J Worksheet Entire House Job: Date: By: 1 Nov 24, 214 PE Load Calcs, LLC 1 Room name Master Guest2 2 Exposed wall 33.5 ft 17. ft 3 Room height 8. ft heat/cool 8. ft heat/cool 4 Room dimensions 1. x 273. ft 1. x 216.5 ft 5 Room area 273. ft² 216.5 ft² Ty Construction U-value Or HTM Area (ft²) Load Area (ft²) Load number (Btuh/ft²- F) (Btuh/ft²) or perimeter (ft) (Btuh) or perimeter (ft) (Btuh) Heat Cool Gross N/P/S Heat Cool Gross N/P/S Heat Cool 6 W 12B-bw.97 ne 4.66 1.48 136 126 586 187. G 1A-w.82 ne 39.36 27.7. G 4A4-2ov.32 ne 15.36 18.89 1 157 193. W 12B-bw.97 se 4.66 1.48 124 124 577 184 11 G 4A4-2ov.32 se 15.36 21.2 W 12B-bw.97 sw 4.66 1.48 144 12 556 177 G 4A4-2ov.32 sw 15.36 21.2 25 376 52 G 4A4-2ov.32 sw 15.36 1.29 G 4A4-2ov.32 sw 15.36 11.55 D 11G.54 sw 25.92 15.71 W 12B-bw.97 nw 4.66 1.48 P 12B-sw.97-4.66 3.3 D 11G.54 n 25.92 18.36 P 12B-sw.97-4.66 3.3 C 16B-19ad.49-2.35 2.58 273 273 642 74 217 217 59 558 F 19A-cvcp.295-5.32 1.9 273 273 1452 517 217 217 1152 41 6 c) AED excursion 43-59 Envelope loss/gain 364 2145 243 1289 12 a) Infiltration 297 541 1475 274 b) Room ventilation 13 Internal gains: Occupants @ 23 Appliances/other Subtotal (lines 6 to 13) 6512 2686 3879 1563 Less external load Less transfer Redistribution 14 Subtotal 6512 2686 3879 1563 15 Duct loads 12% 11% 762 288 12% 11% 454 167 Total room load 7273 2973 4332 173 Air required (cfm) 173 133 13 77 Calculations approved by ACCA to meet all requirements of Manual J 8th Ed. 214-Dec-19 13:5:27 Right-Suite Universal 215 15..7 RSU18218 Page 2...anian\Documents\Wrightsoft HVAC\77 Lystra.rup Calc = MJ8 Front Door faces: N

Right-J Worksheet Entire House Job: Date: By: 1 Nov 24, 214 PE Load Calcs, LLC 1 Room name Mbath Hall 2 Exposed wall 6. ft 6. ft 3 Room height 8. ft heat/cool 8. ft heat/cool 4 Room dimensions 6. x 13.5 ft 1. x 139. ft 5 Room area 81. ft² 139. ft² Ty Construction U-value Or HTM Area (ft²) Load Area (ft²) Load number (Btuh/ft²- F) (Btuh/ft²) or perimeter (ft) (Btuh) or perimeter (ft) (Btuh) Heat Cool Gross N/P/S Heat Cool Gross N/P/S Heat Cool 6 W 12B-bw.97 ne 4.66 1.48. G 1A-w.82 ne 39.36 27.7. G 4A4-2ov.32 ne 15.36 18.89. W 12B-bw.97 se 4.66 1.48 11 G 4A4-2ov.32 se 15.36 21.2 W 12B-bw.97 sw 4.66 1.48 48 43 2 64 48 27 126 4 G 4A4-2ov.32 sw 15.36 21.2 5 79 19 G 4A4-2ov.32 sw 15.36 1.29 G 4A4-2ov.32 sw 15.36 11.55 D 11G.54 sw 25.92 15.71 21 21 544 33 W 12B-bw.97 nw 4.66 1.48 P 12B-sw.97-4.66 3.3 D 11G.54 n 25.92 18.36 P 12B-sw.97-4.66 3.3 C 16B-19ad.49-2.35 2.58 81 81 191 29 139 139 327 358 F 19A-cvcp.295-5.32 1.9 81 81 431 153 139 139 739 263 6 c) AED excursion 5-61 Envelope loss/gain 9 539 1736 931 12 a) Infiltration 521 97 521 97 b) Room ventilation 13 Internal gains: Occupants @ 23 Appliances/other Subtotal (lines 6 to 13) 1421 636 2257 128 Less external load Less transfer Redistribution 14 Subtotal 1421 636 2257 128 15 Duct loads 12% 11% 166 68 12% 11% 264 11 Total room load 1587 74 2521 1138 Air required (cfm) 38 31 6 51 Calculations approved by ACCA to meet all requirements of Manual J 8th Ed. 214-Dec-19 13:5:27 Right-Suite Universal 215 15..7 RSU18218 Page 3...anian\Documents\Wrightsoft HVAC\77 Lystra.rup Calc = MJ8 Front Door faces: N

Right-J Worksheet Entire House Job: Date: By: 1 Nov 24, 214 PE Load Calcs, LLC 1 Room name Dining Kitchen 2 Exposed wall 11. ft 1. ft 3 Room height 8. ft heat/cool 8. ft heat/cool 4 Room dimensions 11. x 12.5 ft 1. x 12.5 ft 5 Room area 137.5 ft² 125. ft² Ty Construction U-value Or HTM Area (ft²) Load Area (ft²) Load number (Btuh/ft²- F) (Btuh/ft²) or perimeter (ft) (Btuh) or perimeter (ft) (Btuh) Heat Cool Gross N/P/S Heat Cool Gross N/P/S Heat Cool 6 W 12B-bw.97 ne 4.66 1.48. G 1A-w.82 ne 39.36 27.7. G 4A4-2ov.32 ne 15.36 18.89. W 12B-bw.97 se 4.66 1.48 11 G 4A4-2ov.32 se 15.36 21.2 W 12B-bw.97 sw 4.66 1.48 88 54 253 81 8 69 32 12 G 4A4-2ov.32 sw 15.36 21.2 G 4A4-2ov.32 sw 15.36 1.29 11 11 175 117 G 4A4-2ov.32 sw 15.36 11.55 34 34 518 39 D 11G.54 sw 25.92 15.71 W 12B-bw.97 nw 4.66 1.48 P 12B-sw.97-4.66 3.3 D 11G.54 n 25.92 18.36 P 12B-sw.97-4.66 3.3 1 1 466 33 C 16B-19ad.49-2.35 2.58 138 138 323 354 125 125 294 322 F 19A-cvcp.295-5.32 1.9 138 138 731 261 125 125 665 237 6 c) AED excursion 436-2 Envelope loss/gain 1826 1521 1919 116 12 a) Infiltration 955 178 868 161 b) Room ventilation 13 Internal gains: Occupants @ 23 1 23 1 23 Appliances/other 12 Subtotal (lines 6 to 13) 278 1928 2787 2697 Less external load Less transfer Redistribution 14 Subtotal 278 1928 2787 2697 15 Duct loads 12% 11% 325 27 12% 11% 326 289 Total room load 316 2135 3113 2986 Air required (cfm) 74 95 74 134 Calculations approved by ACCA to meet all requirements of Manual J 8th Ed. 214-Dec-19 13:5:27 Right-Suite Universal 215 15..7 RSU18218 Page 4...anian\Documents\Wrightsoft HVAC\77 Lystra.rup Calc = MJ8 Front Door faces: N

Right-J Worksheet Entire House Job: Date: By: 1 Nov 24, 214 PE Load Calcs, LLC 1 Room name Laundry Living 2 Exposed wall 6. ft 29. ft 3 Room height 8. ft heat/cool 8. ft heat/cool 4 Room dimensions 6. x 9. ft 29. x 13. ft 5 Room area 54. ft² 377. ft² Ty Construction U-value Or HTM Area (ft²) Load Area (ft²) Load number (Btuh/ft²- F) (Btuh/ft²) or perimeter (ft) (Btuh) or perimeter (ft) (Btuh) Heat Cool Gross N/P/S Heat Cool Gross N/P/S Heat Cool 6 W 12B-bw.97 ne 4.66 1.48 48 48 223 71 232 148 689 22. G 1A-w.82 ne 39.36 27.7 84 336 2327. G 4A4-2ov.32 ne 15.36 18.89. W 12B-bw.97 se 4.66 1.48 11 G 4A4-2ov.32 se 15.36 21.2 W 12B-bw.97 sw 4.66 1.48 G 4A4-2ov.32 sw 15.36 21.2 G 4A4-2ov.32 sw 15.36 1.29 G 4A4-2ov.32 sw 15.36 11.55 D 11G.54 sw 25.92 15.71 W 12B-bw.97 nw 4.66 1.48 P 12B-sw.97-4.66 3.3 72 72 335 237 12 99 461 327 D 11G.54 n 25.92 18.36 21 21 544 386 P 12B-sw.97-4.66 3.3 C 16B-19ad.49-2.35 2.58 54 54 127 139 377 377 887 972 F 19A-cvcp.295-5.32 1.9 54 54 287 12 377 377 25 714 6 c) AED excursion -64-21 Envelope loss/gain 973 486 7893 4744 12 a) Infiltration 521 97 2517 468 b) Room ventilation 13 Internal gains: Occupants @ 23 2 46 Appliances/other 5 9 Subtotal (lines 6 to 13) 1494 183 149 6572 Less external load Less transfer Redistribution 14 Subtotal 1494 183 149 6572 15 Duct loads 12% 11% 175 116 12% 11% 1218 74 Total room load 1668 1199 11627 7276 Air required (cfm) 4 54 277 325 Calculations approved by ACCA to meet all requirements of Manual J 8th Ed. 214-Dec-19 13:5:27 Right-Suite Universal 215 15..7 RSU18218 Page 5...anian\Documents\Wrightsoft HVAC\77 Lystra.rup Calc = MJ8 Front Door faces: N

Right-J Worksheet Entire House Job: Date: By: 1 Nov 24, 214 PE Load Calcs, LLC 1 Room name Bath 2 Exposed wall 12.5 ft 3 Room height 8. ft heat/cool 4 Room dimensions 8. x 13.5 ft 5 Room area 18. ft² Ty Construction U-value Or HTM Area (ft²) Load Area Load number (Btuh/ft²- F) (Btuh/ft²) or perimeter (ft) (Btuh) or perimeter Heat Cool Gross N/P/S Heat Cool Gross N/P/S Heat Cool 6 W 12B-bw.97 ne 4.66 1.48. G 1A-w.82 ne 39.36 27.7. G 4A4-2ov.32 ne 15.36 18.89. W 12B-bw.97 se 4.66 1.48 11 G 4A4-2ov.32 se 15.36 21.2 W 12B-bw.97 sw 4.66 1.48 64 59 274 87 G 4A4-2ov.32 sw 15.36 21.2 5 79 19 G 4A4-2ov.32 sw 15.36 1.29 G 4A4-2ov.32 sw 15.36 11.55 D 11G.54 sw 25.92 15.71 W 12B-bw.97 nw 4.66 1.48 36 36 168 53 P 12B-sw.97-4.66 3.3 D 11G.54 n 25.92 18.36 P 12B-sw.97-4.66 3.3 C 16B-19ad.49-2.35 2.58 18 18 254 278 F 19A-cvcp.295-5.32 1.9 18 18 574 25 6 c) AED excursion -12 Envelope loss/gain 1349 72 12 a) Infiltration 185 22 b) Room ventilation 13 Internal gains: Occupants @ 23 Appliances/other Subtotal (lines 6 to 13) 2434 922 Less external load Less transfer Redistribution 14 Subtotal 2434 922 15 Duct loads 12% 11% 285 99 Total room load 2719 121 Air required (cfm) 65 46 Calculations approved by ACCA to meet all requirements of Manual J 8th Ed. 214-Dec-19 13:5:27 Right-Suite Universal 215 15..7 RSU18218 Page 6...anian\Documents\Wrightsoft HVAC\77 Lystra.rup Calc = MJ8 Front Door faces: N

Duct System Summary Entire House Job: 1 Date: Nov 24, 214 By: PE Load Calcs, LLC For: Project Information Joe Chen, Homeowner 77 Lystra Rd, Harrison, TN 37341 Phone: (423) Email: tiu Heating Cooling External static pressure.56 in H2O.56 in H2O Pressure losses.3 in H2O.3 in H2O Available static pressure.26 in H2O.26 in H2O Supply / return available pressure.25 /.55 in H2O.25 /.55 in H2O Lowest friction rate.94 in/1ft.94 in/1ft Actual air flow 15 cfm 15 cfm Total effective length (TEL) 277 ft Supply Branch Detail Table Design Htg Clg Design Diam H x W Duct Actual Ftg.Eqv Name (Btuh) (cfm) (cfm) FR (in) (in) Matl Ln (ft) Ln (ft) Trunk Bath Dining-A Dining-B Guest1-A Guest1-B Guest2-A Hall-A Kitchen-A Laundry-A Living-A Living-B Master-A Master-B Mbath-A h c c h h h h c c c c h h h 2719 167 167 397 397 4332 2521 2986 1199 3638 3638 3637 3637 1587 65 37 37 74 74 13 6 74 4 138 138 87 87 38 46 48 48 52 52 77 51 134 54 163 163 66 66 31.138.131.115.14.14.133.144.13.94.145.113.17.141.135 5. 5. 5. 5. 5. 6. 5. 7. 5. 7. 7. 6. 6. 4. 38.5 47. 53. 47. 46.5 39. 37.5 6. 68.5 51.5 66.5 36.5 4.5 31.5 11. 11. 125. 1. 1. 115. 15. 14. 15. 9. 115. 155. 15. 12. st2 st2 st2a st3 st3a st2 st2 st2b st2b st2 st2a st3 st3 st2 Supply Trunk Detail Table Trunk Htg Clg Design Veloc Diam H x W Duct Name Type (cfm) (cfm) FR (fpm) (in) (in) Material Trunk st2 Peak AVF 73 813.94 813 12.9 8 x 18 ShtMetl st1 st3 Peak AVF 32 237.17 577 8.9 8 x 1 ShtMetl st1 st1 Peak AVF 15 15.94 788 14.2 8 x 24 ShtMetl st2a Peak AVF 289 398.94 596 9.9 8 x 12 ShtMetl st2 st2b Peak AVF 114 187.94 421 7.5 8 x 8 ShtMetl st2a st3a Peak AVF 74 52.14 166 4.9 8 x 8 ShtMetl st3 Bold/italic values have been manually overridden Right-Suite Universal 215 15..7 RSU18218...anian\Documents\Wrightsoft HVAC\77 Lystra.rup Calc = MJ8 Front Door faces: N 214-Dec-19 13:5:28 Page 1

Return Branch Detail Table Grill Htg Clg TEL Design Veloc Diam H x W Stud/Joist Duct Name Size (in) (cfm) (cfm) (ft) FR (fpm) (in) (in) Opening (in) Matl Trunk rb2 22x 34 15 15 58.5.94 594 18. x Right-Suite Universal 215 15..7 RSU18218...anian\Documents\Wrightsoft HVAC\77 Lystra.rup Calc = MJ8 Front Door faces: N 214-Dec-19 13:5:28 Page 2

Friction Rate Worksheet From ACCA s Manual D PE LOAD CALCS, LLC 91.257.591 www.peloadcalcs.com anthony.amadio@peloadcalcs.com Step 1) Manufacturer s Blower Data External static pressure (ESP) =.56 IWC Cfm = 1,5 Step 2) Component Pressure Losses (CPL) Direct expansion refrigerant coil Electric resistance heating coil Hot water coil Heat exchanger Low efficiency filter High or mid-efficiency filter Electronic filter Humidifier, UV lights, other Supply outlet Return grille Balancing damper Zone damper (full open) Total component losses (CPL).21.3.3.3.3 IWC Step 3) Available Static Pressure (ASP) ASP = (ESP - CPL) = (.56 -.3 ) =.26 IWC Step 4) Total Effective Length (TEL) Supply-side TEL + Return-side TEL = ( 219 + 59 ) = 278 Feet Step 5) Friction Rate Design Value (FR) FR value from friction rate chart =.94 IWC/1 FR = 1 x ASP / TEL

N Sheet 1 77 87 cfm, cfm 4"x1" 35 cfm, 38 2"x12" cfm 56 cfm, 65 cfm 2"x14" 42 cfm, 2"x12" 42 cfm, 2"x12" 48 cfm 48 cfm Master Bath 6 " Mbath 4 " 5 " 56 cfm 6 cfm 2"x14" Kitchen 5 " Dining 5 " 5 " 14 cfm, 6"x1" 4 x 8 1 x 8 VD VD 6 " 77 cfm, 87 cfm 4"x1" VD VD VD VD VD VD VD 18 x 8 12 x 8 VD VD VD VD VD Hall T 6 x 8 7 " 134 cfm Garage 5 " 15 cfm, 24"x3" 5 " 74 63 cfm 4"x8" Guest1 5 " 18 " 24 x 8 6 " Guest2 7 " Living 163 15 cfm, 6"x14" 7 " 15 cfm 6"x14" 163 cfm 47 54 cfm 2"x12" Laundry 6374 cfm, cfm4"x8" 9 cfm, 13 4"x12" cfm All Isolated Rooms shall have 8"x14" Transfer Grills above Doors in order to allow mixed room air flow to the Central Return. Place edge of Floor Registers at about 9" - 1" from finished wall. Recommended Central Thermostat location in the Dining Room, far from windows, on interior wall and 5' above floor. Plenum should extend 12"-15" beyond last run-out. Job #: 1 Performed by Anthony Amadio for: Joe Chen 77 Lystra Rd Harrison, TN 37341 Phone: (423) PE Load Calcs, LLC Scale: 1 : 1 www.peloadcalcs.com 1462 Bridge Drive Collierville, TN 3817 Phone: (91) 257-591 Email: anthony.amadio@peloadcalcs.com All Metal Duct Dimensions are Inner Dimensions. Page 1 Right-Suite Universal 215 15..7 RSU18218 214-Dec-19 16:39:14...\Wrightsoft HVAC\77 Lystra.rup

*Air Volume Balance Report Form For Quality Installation Verification PE LOAD CALCS, LLC 91.257.591 www.peloadcalcs.com anthony.amadio@peloadcalcs.com PROJECT INFORMATION Building Address: 77 Lystra Road City, State and Zip: Harrison TN 37341 Construction Type: E New or Existing R Residential or Commercial Technician Name: Date and Time: Testing Methods: Make and Models: Serial Numbers: Calibration Dates: Additional Notes: Temp: Altitude: HEAT EXCHANGER - 1st Floor HVAC Equipment: Goodman Packaged Heat Pump GPH1436H41C Total Design Airflow per Manual J Design Report: Design Blower Speed per Manual J Design Report: 15 cfm T2 Design ESP ("wc):.56 *Measured Total CFM through the Heat Exchanger: **Measured ESP: * The Technician should follow all Manufacturer s installation instructions, local codes, as well as follow the guidelines from ACCA Standards 5 & 9. Before measuring any airflow, a thorough inspection of the duct system must be completed which includes: 1. Visual inspection to see that all ducts have been connected, sealed and are sized and laid out correctly per design report, all branch dampers and supply terminals are installed and in the fully open position, and a new clean air filter has been installed. 2. A duct leakage test (via duct blower) that meets the more stringent of the of either the (a) 212 IECC leakage requirements, (b) ACCA Standard 5 requirements, or (c) local code. **If the measured total CFM through the heat exchanger is less than 85% of the design, or the ESP greater than 25% of design, at the selected design speed. Stop and go back and repeat the duct system inspection. Remember, all dampers & supply grilles should be fully open, and air filter and coils and fan should all be clean. If the problem still cannot be determined, then increase to the next blower speed setting and repeat the heat exchanger airflow measurement. Please note that it is desirable to have a 1-15% excess CFM measurement through the heat exchanger for this allows a margin for balancing the supplies since damper adjustments from the fully-open position will increase the resistance (ESP) thereby reducing the total heat exchanger airflow. Page 1 of 2

PE LOAD CALCS, LLC 91.257.591 www.peloadcalcs.com anthony.amadio@peloadcalcs.com SUPPLY BRANCHES Per ACCA Standard 5, individual room CFM are to be within ± 1%, or 25 CFM, whichever is greater, of its target CFM for the supply and return ducts. For existing construction, and existing ductwork without contractor modification, terminal CFM balancing is not required, unless otherwise specified by local code. Room / Duct Terminal Location Target Airflow Test 1/ Final Test 2 / Final Test 3 / Final % Target Living Room 1 15 Living Room 2 15 Dining Room 1 42 Dining Room 2 42 Hall 56 Kitchen 14 Laundry 47 Master 1 77 Master 2 77 MBath 35 Bath 56 Guest1 1 63 Guest1 2 63 Guest2 9 Total Airflow: 1,52 Final Total: % Target Total: Where % Target = 1 1 X ( Final CFM / Target CFM ) *** The Target Airflow may not necessarily be the design airflow from the design report, which was used solely for the purpose of sizing the duct design. The Target Airflow may be the averaged, or normalized average, of the design heating and cooling airflow values. Page 2 of 2

Equipment Bill of Materials Page 1 of 2 PE LOAD CALCS, LLC 91.257.591 www.peloadcalcs.com anthony.amadio@peloadcalcs.com Equipment Qty GPH1436H41C 1 5 kw Heat Kit w/ Circuit Breaker 3 Nest Thermostat 1 Duct System Equipment Qty 14" x 8" Return Grilles above Room Doors 12 End cap for rectangular metal duct, 8"x8" 2 Floor horiz boot from round duct, size 4" 1 Floor horiz boot from round duct, size 5" 7 Floor horiz boot from round duct, size 6" 3 Floor horiz boot from round duct, size 7" 3 Manual Round Balance Damper, 4" 1 Manual Round Balance Damper, 5" 7 Manual Round Balance Damper, 6" 3 Manual Round Balance Damper, 7" 3 Plenum rect tapered take off, size 24"x8" 1 Plenum side round take off, size 18" 1 Rect tee, size 128-87 1 Rect tee, size 188-87 1 Rect to rect transition, size 1" x 8"-8" x 8" 1 Rect to rect transition, size 12" x 8"-8" x 8" 1 Rect to rect transition, size 18" x 8"-12" x 8" 1 Rect wye, size 248-188 1 Rectangular metal duct, 1" x 8" 16 Rectangular metal duct, 12" x 8" 11 Rectangular metal duct, 14" x 8" 4 Rectangular metal duct, 18" x 8" 21 Rectangular metal duct, 24" x 8" 2 Rectangular metal duct, 8" x 8" 12 All Duct Dimensions are Inner Duct Dimensions. Page 1 of 2

Equipment Bill of Materials Page 2 of 2 PE LOAD CALCS, LLC 91.257.591 www.peloadcalcs.com anthony.amadio@peloadcalcs.com Duct System Equipment cont Qty Rectangular metal floor two way grill, 1" x 6" 1 Rectangular metal floor two way grill, 1"x4" 2 Rectangular metal floor two way grill, 12" x 2" 4 Rectangular metal floor two way grill, 12"x4" 1 Rectangular metal floor two way grill, 14" x 2" 2 Rectangular metal floor two way grill, 14"x6" 2 Rectangular metal floor two way grill, 8"x4" 2 Return boot from round duct, size 18" 1 Return duct plenum, size = 25"x19", len = 18" 1 Round 5-piece elbow, size 18" 1 Round 5-piece elbow, size 4" 1 Round 5-piece elbow, size 5" 7 Round 5-piece elbow, size 6" 3 Round 5-piece elbow, size 7" 3 Round metal duct, D = 18" 14 Round metal duct, D = 4" 11 Round metal duct, D = 5" 65 Round metal duct, D = 6" 27 Round metal duct, D = 7" 34 Round tee, size 18-86 1 Side round transition take off, size 4" 1 Side round transition take off, size 5" 7 Side round transition take off, size 6" 2 Side round transition take off, size 7" 1 All Duct Dimensions are Inner Duct Dimensions. Page 2 of 2

ASHRAE 62.2 Report PE LOAD CALCS, LLC 91.257.591 www.peloadcalcs.com anthony.amadio@peloadcalcs.com PROJECT INFORMATION Name: Company: Phone: Building Address: City, State and Zip: New or Existing: Joe Chen Homeowner 423 Email: tiu 77 Lystra Rd Harrison TN 37341 Existing ASHRAE 62.2 DATA Floor Area (Square Feet): # of Bedrooms: *Combustion CFM Threshold: 173 3 26 *If the sum of the highest flow rate of the two largest fans exceeds the Combustion CFM Threshold, then makeup air must be supplied to any atmospherically vented appliance. Whole Building Ventilation Type: None Continuous or Intermittent Control: NA ASHRAE Weather Location: Chattanooga TN Target CFM-5 (.35 ACH): 1585 Blower Door (CFM-5): ACH-5: 11.7 ACH-N:.6 27 New Building CFM Required: Existing Building CFM Required: 24 Measured Mechanical Ventilation Flow: NA Designer Notes: Homeowner declines to have a new mechanical ventilation system installed at this time. These calculations were made to determine the correct mechanical ventilation flow rate based on the ASHRAE 62.2-213 Standard.