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HEAT LOAD SUMMARY - 05-00269 - 367 Talon Dr - New SFR
R-15-2006 08:31 From:RRMMELL 3077393059 To:12083593024 P.1/3 V %n/ Rammell Refrigeration & Electrical, Inc. PO Box 9143 Jackson, WY 83002 Phone: 307-739.9150 Fax! 307-739-3059 E-mall: rammellt®men.com Heat Load Summary Report for Rex Rammell Room Square Heating Loss Hydronic Heat Latent / Sensible Cooling Gain Cooling Cooling Name Ft. BTU" Linear Ft. Gain BTUH BTUH Tons CFM Main 2380 42456 70.76 7610 /48956 66566 4.71 1886 TOTALS 2380 42456 70.76 7610 1 48956 56566 4.71 1886 post-je Fax Note Disclaimer These computed results should be treated as estimates only and should be viewed as only one of the many tools required for a professional installation. Tho Installing contractors experience and expert judgement are also major factors in sizing and installing a Complete system. The weather, customer usage, dud installation, and structure design may vary on each estimate and should he taken into account, Correct system sizing is basod on the systems ability to meat both latent and sensible heat requirements, not junt total BTUs. Prepared 3/15/2006 using O'Brien Quick Loads Pro - Version 1.01 - SN: QP-070101-41868 MAR-15-2006 08:31 From:RAMMELL 3077393059 To:12083593024 low *1err' Rammell Refrigeration & Electrical, Inc. PO Box 9143 Jackson, WY 83002 Phone: 307-739-9150 Fax: 307.739.3059 E-mail: rammellt@msn.com Project Default Calculation Values for Rex Rammell Indoor/Outdoor Design Temperatures (Degrees Farenheit) Summer Winter Inside (Thermostat setting) : 74 Inside (Thermostat setting) Outside (Above ground); 97 Outside (Above ground Outside (Below ground): 65 Outside (Below ground) Unconditioned Space : 97 Unconditioned Space : Above Ceiling (Attic/Crawl Space) : 130 Above Ceiling (Attic/Crawl Space) Concrete Slab (Ground temperature) : 80 Concrete Salo (Ground temperature) Unconditioned Basement: 60 Unconditioned Basement Below Floor Crawl Space: 85 Below Floor Crawl Space Design Conditions Occupant Sensible Load (BTUH par person) : Occupant Latent Load (BTUH par person), Duct Insulation Factor. Duct Temperature Difference (Surnmer) Duct Temperature Difference (Winter) : Space Humidity Difference Inside/Outside (Summer) Space Humidity Difference Inside/Outside (Winter) . Fresh Air Per Person (CFM) : Air Change Factor (Air change per hour) Space Shading Factor: Air Handler Design Cooling (CFM per ton) Hydronic Heat (BTUH per linear ft : 0 to 50 CFM: 50 to 100 CFM : 100 to 150 CFM . 161 to 200 CFM 201 to 276 CFM 276 t0 350 CFM 351 to 600 CFM 601 to 900 CFM . 901 to 1200 CFM 0 to 50 CFM: 51 to 100 CFM 101 to 125 CFM . 126 to 176 CFM: 176 to 226 CFM ; 226 to 300 CFM' 301 to 400 CFM 401 to 500 CFM 501 to 600 CFM: 601 to 700 CFM. 701 to 800 CFM: 801 to 900 CFM' 901 to 1000 CFM 1001 to 1200 CFM: 1201 to 1400 CFM: 1401 to 1500 CFM 1601 to 1600 CFM. 1601 to 1800 CFM: 1801 to 2000 CFM 2001 to 2500 CFM. 2501 to 3000 CFM : 3001 to 3500 CFM 3501 to 4000 CFM: Insulation Values(U-Factors) 250 Exposed Wills (Above Ground) : 200 Exposed Walls (Below Ground) : 1 Partitions : 20 Roof/Ceiling 45 Floor (Above basement) 20 Floor (Concrete slab) : 15 Floor (Between conditioned spaces) 2 Doors: .5 Windows: .4 400 600 Duct and Grill Sizing Supply Ducts 5" Round Metal 6" Round Metal 7" Round Metal V Round Mete] 9" Round Metal 10" Round Metal 12" Round Metal 14" Round Metal 16" Round Metal Return Ducts V Round Metal 6" Round Moral 7' Round Metal 8" Round Metal 9" Round Metal 11" Round Metal 12" Round Metal 14" Round Metal 16" Round Metal 16" Round Metal 17' Round Metal 18" Round Metal 10" Round Metal 21" Round Metal 23" Round Metal 24" Round Metal 25" Round Metal 26" Round Metal 27- Round Metal 31" Round Metal 34" Round Metal 36" Round Metal 39" Round Metal Supply Grills 8x4" Supply Grille 1 Ox6" Supply Grille 124" Supply Grille 124" Supply Grille 144" Supply Grille 14x6" Supply Grille 12x12" Supply Grille 1800" Supply Grille 18x12" Supply Grille Return Grills 8x4" Return Grille 1 Ox4" Rotum Grille 104" Return Grille 12x6" Return Grille 12x8" Return Grille 12x10" Return Grillo 16x10" Return Grille 1 Bxl2" Return Grille 20x12" Return Grillo 2402" Return Grille 18x18" Return Grille 2008" Return Grille 24x18" Return Grille 30x18" Return Grille 24x24' Return Grille 3608" Return Grille 3608" Return Grille 40x1B" Return Grille 38)t24" Return Grille 4840" Return Grille 45x24" Return Grillo 60x24" Return Grille 60x30" Return Grille These are the current default system design conditions. These values can be adjusted by the user on a global or room -by -room basis. To review the actual values for a specified room, print the Detailed Load Analysis Report It is not uncommon, particularly in complex or multi -story structures, for temperatures. 1-1-factors, and other design conditions to vary between noors and or rooms. Prepared 3/15/2006 using O'Brien Quick Loads Pro - Version 1.01 - SN: OP-070101-41868 P.3/3 72 20 60 65 45 55 55 50 .080 .5 .075 .055 .083 .001 .287 -500 900 2-Iz.S 2- 2- (L- 18.2 MAR-15-2006 08:31 From:RAMMELL 3077393059 To:12O83593024 P.2/3 Rammell Refrigeration & Electrical, Inc. PO Box 9143 Jackson, WY 83002 Phone: 307-739-9150 Fax 307-739-3059 E-mail: rammelll iMmsn.com Heat Load Detail Report for Rex Rammell Room 1 of 1 Room Specifications: Main Room Length (Ft.) : 68 Sq. Ft windows facing NE & NW: - Watts Incandescent Light: 6000 Room Width (Ft.)., 35 Sq. Ft windows facing South: 75 Watts Flourescent Light: -- Room Height (Ft.) . a Sq. Ft windows facing BE & SW: - Dud Length from A/H to room: 30 Exposed Wall Length (Ft.) : 137 Number of Exterior Doors: 4 Number of Large Electric Motors: - Wall against unconditioned room (Ft) :69 Sq. Ft. Exterior Doors: 100 Average Electric Motor Horsepower: - Sq. Ft windows Facing North: 160 Number of People in Room: 4 9TUH Appliance Sensible Heat: 2000 Sq Ft windows racing E & W: 20 IYWH Appliance Latent Heat: 2000 Indoor/Outdoor Design Temperatures (degrees Farenheit) summer: Winter: Inside (Thermostat setting) : 74 Inside (Thermostat setting) : 72 Outside (Above ground): 97 Outside (Above ground 20 Outside (Below ground): 65 Outside (Below ground) : 60 Unconditioned Space: 97 Unconditioned Space, 65 Above Ceiling (Attid/Crawl Space) - 130 Above Ceiling (Attic/Cmwl Space) • 45 Concrete Stab (Ground temperature) : 80 Concrete Stab (Ground temperature) : 55 Unconditioned Basement, 60 Unconditioned Basement : 55 Below Floor Crawl Space: 85 Below Floor Crawl Space: 50 Applicable Temperatures: Above Coiling: Attic or Crawl Space Below Floor: Thermostat Setting Exposed Walls. Above Ground Design Conditions Insulation Values (U-Factors) Occupant Sonsible Load (BTUH per person) . 250 Exposed Walls (Above Ground) : .080 Occupant Latent Load (BTUH por person) : 200 Exposed Wells (Below Ground) : .5 Duct Insulation Factor : 1 Partitions : .075 Dud Temperature Differenco (Summer) 20 Roof/Ceiling : .055 Duct Temperature Difference (Winter) • 45 Floor (Above basement) . .083 Humidity Difference inside/Outside % (Summer) : 20 Floor (Concrete slab) : .001 Humidity Difference inside/Outside %(Winter) : 15 Floor (Between conditioned spaces) : .287 Fresh Air Per Person (CFM) : 2 Doors : .500 Air Change Factor (Air change per hour) ; .5 Windows : .900 Space Shading Factor: .4 Air Handler Design Cooling (CFM per ton) : 400 Hydronic Heat (BTUH per linear ft : 600 Calculated Room Results - Summer Heat Gains Wall Heat Gain (BTUH) : 2989 Appliance/Elec Motor Latent Heat Gain (BTUH) : 2800 Ceiling or Roof Heat Gain (BTUH) 7330 Appliance/Elec Motor Sensible Heat Gain (BTUH) :23460 Floor Heat Gain (STUN) • 0 Ventilation Latent Heat Gain (BTUH) : 4810 Glass Heat Gain (BTUH) : 1792 Ventilation Sensible Gain (BTUH) : 8917 Exterior Door & North Window Heat Gain (BTUH): 2415 Summer Total Latent Hoat Gain: 7610 Solar Heat Gain (BTUH) • 1720 Summer Total Sensible Heat Gain (BTUH) : 40958 Total Transmission Heat Gain (BTUH) : 16226 TOTAL SUMMER COOLING LOAD (BTUH) : 66566 Calculated Room Results - Winter Heat Losses Transmission Heat Losses (6TUH) . loses Latent Ventilation Heat Losses (BTUH) ; 3608 Sensible Ventilation Heat Losses (6TUH) 20161 Hydronic Heat(Linear Ft.) : 71 TOTAL WINTER HEATING LOAD (BTUH) : 42466 Calculated Totals for Entire Structure Size of Structure (Sq. Ft.): 2380 Total Sensible Heat Gain (BTUH): 48956 Total Heat Loss (BTUH). 42450 Total Cooling Gain (BTUH): 56 566 Total Hydronic Heat (Linear Ft )- 70.76 Total Cooling Requirement (Tons): 4.71 Total Latent Heat Gain (BTUH): 7610 Total Cooling CFM: lags Disclaimer These computed results should be treated as estimates only and should be viewed as only one of the many tools required for a Professional Installation. The installing contractor's experience and expert judgement are also major factors in sizing and installing a complete system. The weather, customer usage, duct installation, and structure design may vary on each estimate and should be taken into account. Correct system sizing Is based on the systems ability to meet both latent and sensible nest requirements, not just total BTUs. Prepared 3/15/2006 using O'Brien Quick Loads Pro - Version 1.01 - SN: OP-070101.41868 -15-2006 17:44 From:RRMMELL 3077393059 To:12083593024 P.1/3 'OW \.r/ Rammell Refrigeration & Electrical, Inc. PO Box V143 Jackson, WY 83002 Phone:307-739-9160 Fax: 307.739.3059 E-mail: rommelllomsn.com Heat Load Summary Report for Rex Rammell Room Name Square Ft. Heating Loss BTUH Hydronlo Heat Linaar FL Latent r Sensible Gain BTUH Cooling Gain BTUH Cooling Tans Cooling CFM Main 2380 66775 114,62 9741 141727 51460 4.29 1716 TOTALS 2380 66775 114.62 9741 1 41727 51468 4.29 1716 1Z" Cr Dale VE 7671 Post-lt` Fax Note From �� L 1 2An- 139 Diaotaimer These computed results should be treated as estimates only and should be viewed as only one of the many tools required for a professional Installation. The Installing contractor's experience and expert judgement are also major factors in sizing and installing a complete system. The weather, customer usage, duct installation, and structure design may very on each estimate and should be taken into account. Correct system sizing is based on the systems ability to meet both latent and sensible heat requirements, not just total BTUs. Prepared 3/15/2006 using O'Brien Quick Loads Pro -Version 1.01 - SN: OP-070101-41868 MAR-15-2006 17:44 From:RAMMELL 3077393059 To:12Oe3593024 P.2/3 Rammell Refrigeration & Electrical, Inc. PO Box 9143 Jackson, WY 83002 Phone: 307-739-9i50 Fax: 307-730-3059 E-mail: rammelli@msn.com Heat Load Detail Report for Rex Rammell Room 1 of 1 Room Specifications: Main Room Length (Ft.) ; 68 Sq. Ft windows facing NE ,$ NW: -- Watts Incandescent Light: 6000 Room Width (Ft.) : 35 Sq. Ft windows facing South: 75 Watts Flourescent Light: -- Room Height (FL) . 8 Sq. Ft windows facing SE & SW: -- Duct Length from A/H to room: 30 Exposed Well Length (Ft.) : 137 Number of Exterior Doors: 4 Number of Large Electric Motors: -- Wall against unconditioned room (Ft.) :69 Sq. Ft. Exterior Doors: 100 Average Electric Motor Horsepower -- Sq. Ft windows facing North: 150 Number of People in Room: 4 STUH Appliance Sensible Heat: 2000 Sq. Ft windows facing E & W: 20 BTUH Appliance Latent Heat: 2000 Indoor/Outdoor Design Temperatures (degrees Farenheit) Summer. Winter: Inside (Thermostat setting) : 74 Inside (Thermostat setting) : 72 Outside (Above ground): 89 Outside (Above ground : 0 Outside (Below ground): 65 Outside (Below ground) : 80 Unconditioned Space: 97 Unconditioned Space: 10 Above Ceiling (AttictCrawl Space) : 130 Above Ceiling (Attic/Crawl Space) : 10 Concrete Slab (Ground temperature) - 80 Concrete Slab (Ground temperature) . 65 Unconditioned Basement: 6o Unconditioned Basement: 55 Below Floor Crawl Space: 85 Below Floor Crawl Space : 50 Applicable Temperatures: Above Ceiling: Attic or Crawl Space Below Floor. Thermostat Setting Exposed Walls: Above Ground Design Conditions Insulation Values (U-Factors) Occupant Sensible Load (BTUH per person) : 250 Exposed Walls (Above Ground) : .048 Occupant Latent Load (BTUH per person) : 200 Exposed Walls (Below Ground) . .076 Duet Insulation Factor' 1 Partitions ' .075 Duct Temperature Difference (Summer) : 20 Roof/Ceiling : .0263 Duct Temperature Difference (Winter) : 45 Floor (Above basement) : .083 Humidity Difference Inside/Outside `i6 (Summer) : 20 Floor (Concrete slab): .001 Humidity Difference Inside/Outside %(Winter) : 15 Floor (Between conditioned spaces) : .2e7 Fresh Alt Per Person (CFM) : 2 Doors ' .600 Air Change Factor (Air change per hour) : 1 Windows'. .65 Space Shading Factor: .4 Air Handler Design Cooling (CFM per ton) : 450 Hydronic Heat (BTUH per linear ft : 600 Calculated Room Results - Summer Heat Gains Wall Heat Gain (BTUH) : 1741 Appliance/Etee Motor Latent Heat Gain (BTUH) , 2800 Ceiling or Roof Heat Gain (BTUH) : 3505 Appliance/Elec Motor Sensible Heat Gain (BTUH) .23460 Floor Heat Gain (BTUH)'. 0 Ventilation Latent Heat Gain (BTUH) : 6941 Glass Heat Gain (BTUH) : 058 Ventilation Sensible Gain (BTUH) : 8391 Exterior Door & North Window Heat Gain (BTUH): 1695 Summer Total Latent Heat Gain: 9741 Solar Heat Gain (BTUH) : 1720 Summer Total Sensible Heat Gain (BTUH) : 41727 Total Transmission Heat Gain (BTUH) : 9519 TOTAL SUMMER COOLING LOAD (BTUH); 514.88 Calculated Room Results - Winter Heat Losses Transmission Heat Losses (BTUH): 23292 Latent Ventilation Heat Losses (BTUH) : 5206 Sensible Ventilation Heat Losses (BTUH) : 40277 Hydronic Heat(Linear Ft.) : 116 TOTAL WINTER HEATING LOAD (BTUH) : 68776 Calculated Totals for Entire Structure Size of Structure (Sq Ft.): 2380 'total Sensible Heat Gain (BTUH): 41727 Total Heat Loss (BTUH): 68775 Total Cooling Gain (BTUH): 51468 Total Hydronic Heat (Linear Ft.): 114.62 Total Cooling Requirement (Tons): 4.29 Total Latent Heat Gain (BTUH): 9741 Total Cooling CFM: 1716 Disclaimer These computed results should be treated as estimates only and should be viewed as only one of the many tools required for a professional installation. The installing contractor's experience and expert judgement are also major factors In sizing and installing a complete system. The weather, customer usage, duct installation, and structure design may very on each estimate and should be taken Into account. Correct system sizing is based on the systems ability to meet both Intent and sensible heat requirements, not just total BTUs. Prepared 3/15/2006 using O'Brien Quick Loads Pro - Version 1.01 - SN: QP-070101-41868 MAR-15-2006 17:44 From:RAMMELL 3077393059 To:12oe3593024 P.3/3 Rammell Refrigeration & Electrical, Inc. PO Box 9143 Jackson, WY 83002 Phone: 307-739-9150 Fax: 307-739-3059 E-mail: rammelll@msn.com Project Default Calculation Values for Rex Rammell Indoor/Outdoor Design Temperatures (Degrees Farenheit) Summer Winter Inside (Thermostat setting) : 74 Inside (Thermostat setting) : 72 Outside (Above ground): 89 Outside (Above ground : 0 Outside (Below ground): 65 Outside (Below ground) : 60 Unconditioned Space: 97 Unconditioned Space : 10 Above Ceiling (Attle/Crawl Space); 130 Above Ceiling (Attic/Crawl Space) . 10 Concrete slab (Ground temperature) : 80 Concrete Salb (Ground temperature) : 55 Unconditioned Basement: 60 Unconditioned Basement: 55 Below Floor Crawl Space: 85 Below Floor Crawl Space: 50 Design Conditions Insulation Values W-Factore) Occupant Sensible Load (BTVH per person) : 250 Exposed Walls (Above Ground) : 048 Occupant Latent Load (STUH por person) : 200 Exposed Walls (Below Ground) : .075 Duct Insulation Factor; 1 Partitions : .075 Duct Temperature Difference (Summer) : 20 Roof/Ceiling : 0263 Duct Temperature Difference (Winter): 45 Floor (Above basement) : .083 Space Humidity Difference Inside/Outside (Summer) : 20 Floor (Concrete slab) . .001 Space Humidity Difference Inside/Outside (winter) 15 Floor (Between conditioned spacos) : .287 Fresh Air Per Person (CFM) : 2 Doors : .500 Air Change tractor (Air change per hour) : 1 Windows, .65 Space Shading Factor: .4 Air Handier Design Cooling (CFM per (on) • 450 Hydronic Heat (BTUH per linear ft : 600 0to50CFM: 50 to 100 CFM. 100 to 150 CFM; 151 to 200 CFM 201 to 275 CFM 276 to 350 CFM 361 to 600 CFM 601 to 900 CFM.* 901 to 1200 CFM 0to50CFM: 51 to 100 CFM 101 to 125 CFM 126 to 175 CFM 176 to 226 CFM: 226 to 300 CFM 301 to 400 CFM 401 to 500 CFM 501 to 600 CFM 601 to 700 CFM 701 to 800 CFM 001 to 900 CFM 901 to 1000 CFM: 1001 to 1200 CFM 1201 to 1400 CFM: 1401 to 1500 CFM : 1501 to 1600 CFM: 1601 to 1800 CFM ' 1801 to 2000 CFM 2001 to 2500 CFM. 250110 3000 CFM: 3001 to 3500 CFM 3501 to 4000 CFM: Duct and Grill Sizing Supply Ducts S" Round Metal a" Round Metal 7" Round Metal 8" Round Metal 9" Round Metal 10" Round Metal 12" Round Metal 14" Round Metal 16" Round Metal Return Ducts 5" Round Metal 6" Round Metal 7" Round Metal 8" Round Metal 9" Round Metal 11" Round Metal 12" Round Metal 14" Round Metal 15" Round Metal 16" Round Metal 17" Round Metal 18" Round Metal 19" Round Metal 21" Round Metal 23" Round Metal 24" Round Metal 25" Round Metal 26" Round Metal 27" Round Metal 31" Round Metal 34" Round Motal N' Round Metal 39" Round Metal Supply Grills 8x4" Supply Grille 10x6" Supply Grille 124" Supply Grille 124" Supply Grille 106" Supply Grille 14x8" Supply Grille 1202" Supply Grille 18x10" Supply Grillo 18x12" Supply Grille Retum Grills 8x4" Return G6110 10x4" Return Grille 104" Return Grille 12x6" Return Grillo 12x8" Return Grille 1200" Return Grille 16x10" Return Grille 1802" Return Grille 20x12" Return Grille 2012" Return Grille 1808" Return Grille 20x18" Return Grille 24X18" Return Grille 30x18" Return Grille 2024" Return Grille 36x18" Return Grille 36x18" Return Grille 40x18" Return Grille 3844" Return Grillo 48x20" Return Grille• 48x24" Return Grille 60x24" Return Grille 60x3O" Return Grille These are the current default system design conditions. These values can be adjusted by the user on a global or room -by -room basis. To review the actual values for a specified room, print th© Detailed Load Analysis Report. It is not uncommon, particularly in complex or multi -story structures, for temperatures, U-factors, and other design conditions to vary between floors and or rooms, Prepared 3/15/2008 using O'Brien Qulek Loads Pro - Version 1.01 - $N: OP-070101-41860 -15-2006 18:00 From:RAMMELL 3077393059 To:12O83593024 P.1/2 Rammell Refrigeration & Electrical, Inc. PO Box 9143 Jackson, WY 83002 Phone: 307-739-9160 Fax: 307-739-3059 E-mail: rammelll Qmsn.com Heat Load Summary Report for Rex Rammell Room Square Meeting Lose Hydronlc Heat Latent / Sonsible Cooling Gain Cooling Cooling Namo Ft. BTUH Linear Ft. Gain STUN BTUH Tons CFM Main 2380 68775 114.62 9741 / 41727 51468 4.29 1716 Basement 2380 48719 81.2 0401 / 32461 38861 3.24 1457 TOTALS 4760 117494 195.82 16142 / 74188 90330 7.53 3173 Post -it" Fox Note 7671 Date rj I»c�ea► „3 To .• V;^�� 3 From C;TM"t. c r dT ui ;". ' PR4n9 f► O ..�� 3096 Phone l= 11 A9 _ Sq_ 34;0 I�ax 30-) 3 34- 30D Disclaimer These computed results should be troatod as estimates only and should be viewed as only one of the many tools required for a professional Installation. The installing contractors experience and oxport judgement are also major factors in sizing and installing a complete system. The weather, customer usego, duct installation, and structure design may vary on each estimate and should be taken into account. Correct system sizing is based on the systems ability to meet both latent and sensible hoat requirements, not just total BTUs. Prepared 3/15/2006 using O'Brlon Oulck Loads Pro - Version 1.01- SN: OP-070101-41868 MAR-15-2006 18:00 From:RAMMELL 3077393059 To:12083593024 P.2/2 a ' Rammell Refrigeration & Electrical, Inc. PO Box 9143 Jackson, WY 83002 Phone: 307-739-9.160 Fax: 307-739-3059 E-mail: rammelll@msn.com Heat Load Detail Report for Rex Rammell Room 2 of 2 Room Specifications: Basement Room Length (Ft.) : 68 Sq. R windows facing NE 8 NW: -- Watts Incandescent Light: 6000 Room Width (Ft.) : 35 Sq. Ft windows facing South: -- Watts Flourescent Light: -- Room Height (Ft ) : a Sq. Ft windows facing SE & SW: -- Duct Length from A/H to room: -- Exposed Well Length (Ft.) : 137 Number of Exterior Doors: 2 Number of Large Electric Motors. -- Wall against unconditioned room (Ft.) :— Sq. Ft. Exterior Doors. 75 Average Electric Motor Horsepower: -- Sq. Ft windows facing North: 150 Number of People in Room- 4 BTUH Appliance Sensible Heat: -- Sq. Ft windows facing E a W: 20 BTUH Appliance Latent He2t: — Indoor/Outdoor Design Summer: Inside (Thermostat setting) Outside (Above ground); Outside (Below ground): Unconditioned Space: Above Ceiling (Attia/C►awl Specs): Concrete Slab (Ground temperature) . Unconditioned Basement: Below Floor Crawl Space: Temperatures (degrees Farenheit) Winter: 74 Inside (Thermostat setting) : 89 Outside (Above ground: 65 Outside (Below ground) : 97 Unconditioned Space , 130 Above Ceiling (Attic/Crawl Space) 80 Concrete Slab (Ground temperature) 60 Unconditioned.6asemont , 85 Below Floor Crawl Space; 72 0 60 10 10 55 55 50 Applicable Temperatures: Above Ceiling- Thermostat Setting Below Floor. Concrete Slab Exposed Walls. Above Ground Design Conditions Insulation Values (U-Factors) Occupant Sensible Load {BTUH per person) : 260 Exposed Walls (Above Ground) : .048 Occupant Latent Load (BTUH per person) : 200 Exposed Walls (Below Ground) : .076 Duct Insulation Factor • 1 Partitions : .075 Duct Temperature Difference (Summer) : 20 Roof/Ceiling : .0263 Duct Temperature Difference (Winter) , 45 Floor (Above basement) ; .033 Humidity Difference Inside/Outsldo % (Summer) : 20 Floor (Concrete slab) : .001 ,Humidity Dlfferonce Inside/Outside %(Winter) : 15 Floor (Between conditioned spaces) : .287 Fresh Air Per Person (CFM) : 2 Doors: .500 Air Change Factor (Air change per hour) : 1 Windows : .65 Space Shading Factor: .4 Air Handler Design Cooling (CFM per ton) : 450 Hydronlo Heat (BTUH per linear ft : 600 Calculated Room Results - Summer Heat Gains Wan Heat Gain (STUN) : 789 Appliance/Elec Motor Latent Heat Gain (BTUH) : 800 Ceiling or Roof Heat Gain (BTUH) : 0 AppliancelElee Motor Sensible Heal Gain (BTUH) :21460 Floor Heat Gain (BTUH) : 14 ventilation Latent Heat Gain (BTUH) : 5601 Glass Heat Gain (BTUH) : 181 Ventilation Sensible Gain (BTUH) : 6771 Exterior Door 8 North Window Meat Gain (BTUH) : 1526 Summer Total Latent Heat Gain: 6401 Solar Heat Gain (BTUH): 1720 Summer Total Sensible Heat Gain (BTUH): 32461 Total Transmission Heat Gain (BTUH) : 4230 TOTAL SUMMER COOLING LOAD (BTUH) : 38561 Calculated Room Results - Winter Heat Losses Transmission Heat Losses (BTUH) - 12018 Latent Ventilation Heat Losses (BTUH) 4201 Sensible Ventilation Heat Losses (BTUH) . 32501 Hydronic Heat(Lineer Ft.) : 81 TOTAL WINTER HEATING LOAD (BTUH) : .48719 Calculated Totals for Entire Structure Size of Structure (Sq. Ft.). 4760 Total Sensible Heat -Gain (BTUH): 74188 Total Heat Loss (BTUH): 117494 Total Cooling Gain (BTUH); 90330 Total Hydronic Heat (Linear Ft.): 196.82 Total Cooling Requirement (Tons): 7.53 Total Latent Heat Gain (BTUH): 16142 Total Cooling CFM. 3173 Disclaimer These computed results should be treated as estimates only and should be viewed as only one of the many tools required for a professional installation. The installing contractor's experience and expert judgement are also major factors in alzing and installing a complete system. The weather, customer usage, duct Installation. and structure design may vary on each estimate and should be taken into account. Correct system sizing to based on the systems ability to meet both latent and sensible heat requirements, not just total BTUs. Propared 3/15/2006 using 98rien Quid( Loads Pro - Version 101 - SN: QP-070101.41668 oYRExnaac CII T YY `tS P� c` " T" "G FAX TRANSMITTAL FORM America's Family Community DATE: City of Rexburg TO: NAME: 2 u.SS �oV P.O. Box 280 19 East Main COMPANY: 4�;±y &Lkc, Fci((S Rexburg, Idaho 83440 S2 D Phone: (208) 359-3020 FAX NUMBER FAX: (208) 359-3024 PHONE NUMBER Menage: FROM: NAME: 66 i wfts✓l PHONE NUMBER: 35r(; — 36 ZO clef 30S -71 (o - 13 ZS Rc> 5G is F .238D one F/co PAGE OFF_ 7 Please forward this fax transmittal to the above named individual. N� 08/15/2005 18:29 9999999999 ZZZZz'z'z PAGE 01 0 on %M Mechanical • Electrical • Plumbing • Refrigeration • Controls Val Christensen City of Rexburg Building Department Phone 208 359-3020 Fax 208 359-3024 August 15, 2005 Dear Val, This letter is to inform you that I am currently working on the residential heating loads for the Rarnmell residence, Eaglewood Subdivision, Talon Drive, Block 1, Lot 2. Please allow Rex Rammell to start building his structure while I finish the calculations. Please let me know if there are any questions or comments. Thanks. Sincerely, Dee J Rammell. 1550 KDC Lana • PO Box 9143 • lactson, Wyoming • 83002 • (307) 739-9150 • Fm (307) 739.3059 • re =I]I @m n.com