90% Design Submittal Mechnical Equipment Calculations Parking Garage CDRL
|
|
- Camron Rice
- 5 years ago
- Views:
Transcription
1 NORTH METRO RAIL LINE PROJECT Thornton Crossroads at 14 th Avenue Station 9% Design Submittal Mechnical Equipment Calculations Parking Garage CDRL June 2, 217 Prepared by: Regional Rail Partners For: North Metro Rail Line Project RTD CONTRACT No. 13DH8 Having checked this item of Contract Data, I hereby certify that it conforms to the requirements of the Agreement in all respects, except as specifically indicated. David Trent, RRP Project Director
2 NORTH METRO RAIL LINE PROJECT NORTH METRO RAIL LINE PROJECT QA CERTIFICATION OF CONFORMANCE DESIGN SUBMITTAL CDRL No THORNTON CROSSROADS AT 14TH STATION PARKING GARAGE 9% Submittal QA STATEMENT Upon examination of the documents of this submittal, I find that: The Quality Assurance process was completed and meets the requirements identified in the Design Quality Management Plan. Quality Assurance Manager 6/2/217 Date
3 NORTH METRO RAIL LINE PROJECT Submittal: CDRL No THORNTON CROSSROADS AT 14 TH AVENUE PARKING GARAGE MECHANICAL EQUIPMENT CALCULATIONS For 9% Submittal
4 14th Garage - Equipment Sizing Calculations Overview & Concepts Thornton Design Temperatures: Summer= 91/59 F Per City of Thornton Design Criteria Winter=-1 F Per RTD Design Criteria Elevator Shaft Safety Factors: Heating Equipment: 3% Ventilating Equipment: 2% *Note - Safety factors implimented on equipment serving elevator shaft due to RTD concerns for this space to remain within allowable temperature limits for proper operation/ occupant safety. Coordination: ~ Construction U-values were coordinated with the Architect. ~ Electrical & Telecom equipment heat load to space and operational temperature limits were coordinated with the Electrical Engineer. ~ Elevator heat load are assumed based on similar past projects. Finaly elevator information not available at time of design. Room Checksums and Room Entered Value reports are appended at the end of the document.
5 14th Garage - Equipment Sizing Calculations Remote Electrical Rooms LV 3 & 4 Heat Gain and/or Space Conditioning Concept: Per electrical, this room houses a 3 KVA transformer. Room to be maintained below 14 through ventilation for transformer. Thornton Design Temperatures: Summer= 91 F Winter=-1 F Envelope Heat Gain from Trace: 3,535 BTUh Equipment heat output: 15 W (512 BTUh) 3,535 BTUh + 5,12 BTUh = CFM (.82*1.8)*(14-91 ) Required ventilation to maintain 14 on design day: 752 CFM Fan sized at: 8 CFM Louver Sizing: Free Area = CFM/FPM 8 CFM/ 7 FPM = 1.15 SQ FT *See appended System Checksums - "REMOTE ELEC RM LV 3 & 4" for Trace loads
6 14th Garage - Equipment Sizing Calculations Elevator Machine Room Heat Gain and/or Space Conditioning Concept: Per manufacturer, enclosed machine area to be maintained between 5 F and 9 F, with noncondensing humidity of 1-9%. Estimated equipment heat load of 16,626 BTUh based on pervious simiar projects. Thornton Design Temperatures: Summer= 91 F Winter=-1 F Cooling Calculation: Required cooling to maintain 9 F on design day: Cooling Load: 17.1 MBh 1.4 ton Largest Buy America PTAC available Cooling Capacity = 16,2 BTUH (assume only 8% capacity at elevation) = 1296 BUTH = approx. 1.8 tons each at elevation. Provide (2) PTAC units to cover the estiamted equipment heat load at elevation. Heating Calculation: Required heat to maintain 5 F per Trace: 3.2 MBh.9 KW Provide samllest elec heater in each PTAC (1.5 KW). *See appended System Checksums - "ELEVATOR MACHINE ROOM" for Trace loads
7 14th Garage - Equipment Sizing Calculations Elevator Shaft Heat Gain and/or Space Conditioning Concept: Hoist way to be maintained between 32 F and 14 F per typical manufacturer's recommendations. Estimate elevator equipment heat load 7 BTUh based on previous similar projects. Thornton Design Temperatures: Summer= 91 F Winter=-1 F BTUh=CFM(Cf)ΔT Envelope Heat Gain from Trace: 34,943 BTUh 34,943 BTUh + 7, BTUh= CFM (.819*1.8)*(14-91 ) Required ventilation to maintain 14 on design day: 4257 CFM 2% Safety: 518 CFM Fan sized at: 51 CFM Louver Sizing: Free Area = CFM/FPM 51 CFM/ 8 FPM = 6.4 SQ FT Required heat to maintain 55 F per Trace: 94.9 MBh 3% Safety: 123 MBh 36.2 KW (2) Heaters sized for: 68.3 MBh (2 KW) each (136.6 MBh / 4 KW total) *See appended System Checksums - "ELEVATOR SHAFT" for Trace loads
8 14th Garage - Equipment Sizing Calculations Main Communications Room Heat Gain and/or Space Conditioning Concept: Per Electrical Engineer, the room will be kept between 55 F and 65 F and the estimated heat load for the parking structure comm room rack equipment is 17, BTU/hr. Thornton Design Temperatures: Summer= 91 F Winter=-1 F Required cooling to maintain 65 F on design day: 18.8 MBh 1.6 ton Provide (2) PTACs, one 1 ton and one.6 ton (capacities at elevation). Required heat to maintain 55 F per Trace: 3.1 MBh.9 KW Provide smalled elec. coil (1.3 KW) in PTAC. *See appended System Checksums - "TELECOM" for Trace loads
9 14th Garage - Equipment Sizing Calculations Remote Comm. Room LV 2 Heat Gain and/or Space Conditioning Concept: Per Electrical Engineer, the room will be kept between 55 F and 65 F and the estimated heat load equipment is 1, W. Thornton Design Temperatures: Summer= 91 F Winter=-1 F Required cooling to maintain 65 F on design day: 4.7 MBh.4 ton Provide (1) PTAC units for an estimated capacity of.6 tons at elevation. Required heat to maintain 55 F per Trace: 3.2 MBh.9 KW Provide smalled elec. coil (1.3 KW) in PTAC. *See appended System Checksums - "REMOTE COMM" for Trace loads
10 14th Garage - Equipment Sizing Calculations Main Electrical Room Heat Gain and/or Space Conditioning Concept: Per electrical, this room houses a 3 KVA transformer and a 1 KVA Lighting Inverter. Room to be maintained below 14 F through ventilation for transformers and above 32 F for lighting inverter. Thornton Design Temperatures: Summer= 91 F Winter=-1 F Envelope Heat Gain from Trace: 466 BTUh Equipment heat output: 15 W (512 BTUh) + Inverter (4774 BTUh) BTUh = CFM (.82*1.8)*(14-91 ) Required ventilation to maintain 14 on design day: 9 CFM Fan sized at: 1 CFM Louver Sizing: Free Area = CFM/FPM 1 CFM/ 7 FPM = 1.43 SQ FT Required heat to maintain 32 F per Trace: 3.7 MBh 1.1 KW Provide smallest fan forced unit heater in 48V: 3.3 kw *See appended System Checksums - "MAIN ELEC ROOM" for Trace loads
11 14th Garage - Equipment Sizing Calculations Security Office Heat Gain and/or Space Conditioning Concept: RTD directed to provide a PTAC to serve this space that Is occupied on occasion. Assume 1 occupant and one computer. Thornton Design Temperatures: Summer= 91 F Winter=-1 F Cooling Calculation: Required cooling to maintain 75 F on design day: 5.5 MBh.5 ton Provide (1) PTAC units for an estimated capacity of.6 tons at elevation. Heating Calculation: Required heat to maintain 72 F per Trace: 8.2 MBh 2.4 KW Provide 3 KW Heater in PTAC *See appended System Checksums - "SECURITY" for Trace loads
12 ELEVATOR MACHINE ROOM Room Checksums COOLING COIL PEAK CLG SPACE PEAK HEATING COIL PEAK TEMPERATURES Peaked at Time: Mo/Hr: 7 / 19 Mo/Hr: 7 / 19 Mo/Hr: Heating Design Outside Air: OADB/WB/HR: 81 / 56 / 43 OADB: 81 OADB: -1 SADB Ra Plenum Space Plenum Net Percent Space Percent Space Peak Coil Peak Percent Return Sens. + Lat. Sens. + Lat Of Sensible Of Space Sens Tot Sens Of Ret/OA Btu/h Btu/h Btu/h (%) Btu/h (%) Btu/h Btu/h (%) Fn MtrTD.. Fn BldTD.. Skylite Solar Skylite Solar. Fn Frict.. Skylite Cond Skylite Cond. Roof Cond Roof Cond Glass Solar Glass Solar. AIRFLOWS Glass/Door Cond Glass/Door Cond. Wall Cond Wall Cond Partition/Door Partition/Door -1,642-1, Diffuser Floor Floor Terminal Adjacent Floor Adjacent Floor. Main Fan Infiltration Infiltration Sec Fan Sub ==> Sub ==> -3,175-3, Nom Vent AHU Vent Infil 3 3 Lights Lights. MinStop/Rh People People. Return Misc 16,626 16, , Misc. Exhaust 3 3 Sub ==> 16,626 16, , Sub ==>. Rm Exh Auxiliary Ceiling Load Ceiling Load. Leakage Dwn Ventilation Load Ventilation Load. Leakage Ups Adj Air Trans Heat Adj Air Trans Heat Dehumid. Ov Sizing. Exhaust Heat. Exhaust Heat OA Preheat Diff.. ENGINEERING CKS Sup. Fan Heat RA Preheat Diff.. Ret. Fan Heat Additional Reheat. % OA.. Duct Heat Pkup System Plenum Heat. cfm/ft² cfm/ton ft²/ton Btu/hr ft² Grand ==> 17,95 17, , Grand ==> -3,175-3, No. People../1 ft² Main Clg Aux Clg Opt Vent COOLING COIL SELECTION AREAS HEATING COIL SELECTION Capacity Sens Cap. Coil Airflow Enter DB/WB/HR Leave DB/WB/HR Gross Glass Capacity Coil Airflow Ent Lvg ton MBh MBh cfm F F gr/lb F F gr/lb ft² (%) MBh cfm F F Floor 13 Main Htg Part 288 Aux Htg... Int Door ExFlr 13 Roof 13 Wall 56 Ext Door Preheat... Humidif... Opt Vent Project Name: TRACE 7 v6.3.3 calculated at 2:58 PM on 5/31/217 Dataset Name: ElevatorHeatCalc.trc Alternative - 1 System Checksums Report Page 1 of 7
13 ELEVATOR SHAFT Room Checksums COOLING COIL PEAK CLG SPACE PEAK HEATING COIL PEAK TEMPERATURES Peaked at Time: Mo/Hr: 7 / 17 Mo/Hr: 7 / 17 Mo/Hr: Heating Design Outside Air: OADB/WB/HR: 88 / 59 / 45 OADB: 88 OADB: -1 SADB Ra Plenum Space Plenum Net Percent Space Percent Space Peak Coil Peak Percent Return Sens. + Lat. Sens. + Lat Of Sensible Of Space Sens Tot Sens Of Ret/OA Btu/h Btu/h Btu/h (%) Btu/h (%) Btu/h Btu/h (%) Fn MtrTD.. Fn BldTD.. Skylite Solar Skylite Solar. Fn Frict.. Skylite Cond Skylite Cond. Roof Cond Roof Cond Glass Solar 59,57 59, , Glass Solar. AIRFLOWS Glass/Door Cond -12,959-12, , Glass/Door Cond -55,387-55, Wall Cond Wall Cond Partition/Door -3,85-3, ,85-9 Partition/Door -3,233-3, Diffuser 1,493 1,493 Floor Floor Terminal 1,493 1,493 Adjacent Floor Adjacent Floor. Main Fan 1,493 1,493 Infiltration -27,887-27, ,225-2 Infiltration -35,47-35, Sec Fan Sub ==> 15,281 15, , Sub ==> -94,856-94, Nom Vent AHU Vent Infil 6 6 Lights Lights. MinStop/Rh People People. Return 2,93 2,93 Misc 7, 7, 31 7, 17 Misc. Exhaust 6 6 Sub ==> 7, 7, 31 7, 17 Sub ==>. Rm Exh Auxiliary Ceiling Load Ceiling Load. Leakage Dwn Ventilation Load Ventilation Load. Leakage Ups Adj Air Trans Heat Adj Air Trans Heat Dehumid. Ov Sizing. Exhaust Heat. Exhaust Heat OA Preheat Diff.. ENGINEERING CKS Sup. Fan Heat RA Preheat Diff.. Ret. Fan Heat Additional Reheat. % OA.. Duct Heat Pkup System Plenum Heat. cfm/ft² cfm/ton ft²/ton Btu/hr ft² Grand ==> 22,281 22, , Grand ==> -94,856-94, No. People../1 ft² Main Clg Aux Clg Opt Vent COOLING COIL SELECTION AREAS HEATING COIL SELECTION Capacity Sens Cap. Coil Airflow Enter DB/WB/HR Leave DB/WB/HR Gross Glass Capacity Coil Airflow Ent Lvg ton MBh MBh cfm F F gr/lb F F gr/lb ft² (%) MBh cfm F F , Floor 23 Main Htg , Part 1,9 Aux Htg... Int Door ExFlr 4 Roof 23 Wall 2,238 2, Ext Door Preheat , Humidif... Opt Vent Project Name: TRACE 7 v6.3.3 calculated at 2:58 PM on 5/31/217 Dataset Name: ElevatorHeatCalc.trc Alternative - 1 System Checksums Report Page 2 of 7
14 MAIN ELEC ROOM Room Checksums COOLING COIL PEAK CLG SPACE PEAK HEATING COIL PEAK TEMPERATURES Peaked at Time: Mo/Hr: 7 / 18 Mo/Hr: 7 / 18 Mo/Hr: Heating Design Outside Air: OADB/WB/HR: 85 / 58 / 44 OADB: 85 OADB: -1 SADB Ra Plenum Space Plenum Net Percent Space Percent Space Peak Coil Peak Percent Return Sens. + Lat. Sens. + Lat Of Sensible Of Space Sens Tot Sens Of Ret/OA Btu/h Btu/h Btu/h (%) Btu/h (%) Btu/h Btu/h (%) Fn MtrTD.. Fn BldTD.. Skylite Solar Skylite Solar. Fn Frict.. Skylite Cond Skylite Cond. Roof Cond Roof Cond Glass Solar Glass Solar. AIRFLOWS Glass/Door Cond Glass/Door Cond. Wall Cond Wall Cond. Partition/Door Partition/Door -3,133-3, Diffuser Floor Floor. Terminal Adjacent Floor Adjacent Floor. Main Fan Infiltration Infiltration. Sec Fan Sub ==> Sub ==> -3,665-3, Nom Vent AHU Vent Infil Lights Lights. MinStop/Rh People People. Return Misc 15,359 15, , Misc. Exhaust Sub ==> 15,359 15, , Sub ==>. Rm Exh Auxiliary Ceiling Load Ceiling Load. Leakage Dwn Ventilation Load Ventilation Load. Leakage Ups Adj Air Trans Heat Adj Air Trans Heat Dehumid. Ov Sizing. Exhaust Heat. Exhaust Heat OA Preheat Diff.. ENGINEERING CKS Sup. Fan Heat RA Preheat Diff.. Ret. Fan Heat Additional Reheat. % OA.. Duct Heat Pkup System Plenum Heat. cfm/ft² cfm/ton ft²/ton Btu/hr ft² Grand ==> 15,825 15, , Grand ==> -3,665-3, No. People../1 ft² Main Clg Aux Clg Opt Vent COOLING COIL SELECTION AREAS HEATING COIL SELECTION Capacity Sens Cap. Coil Airflow Enter DB/WB/HR Leave DB/WB/HR Gross Glass Capacity Coil Airflow Ent Lvg ton MBh MBh cfm F F gr/lb F F gr/lb ft² (%) MBh cfm F F Floor 2 Main Htg Part 57 Aux Htg... Int Door ExFlr Roof 2 Wall Ext Door Preheat... Humidif... Opt Vent Project Name: TRACE 7 v6.3.3 calculated at 2:58 PM on 5/31/217 Dataset Name: ElevatorHeatCalc.trc Alternative - 1 System Checksums Report Page 3 of 7
15 REMOTE COMM Room Checksums COOLING COIL PEAK CLG SPACE PEAK HEATING COIL PEAK TEMPERATURES Peaked at Time: Mo/Hr: 7 / 18 Mo/Hr: 7 / 18 Mo/Hr: Heating Design Outside Air: OADB/WB/HR: 85 / 58 / 44 OADB: 85 OADB: -1 SADB Ra Plenum Space Plenum Net Percent Space Percent Space Peak Coil Peak Percent Return Sens. + Lat. Sens. + Lat Of Sensible Of Space Sens Tot Sens Of Ret/OA Btu/h Btu/h Btu/h (%) Btu/h (%) Btu/h Btu/h (%) Fn MtrTD.. Fn BldTD.. Skylite Solar Skylite Solar. Fn Frict.. Skylite Cond Skylite Cond. Roof Cond Roof Cond Glass Solar Glass Solar. AIRFLOWS Glass/Door Cond Glass/Door Cond. Wall Cond Wall Cond. Partition/Door Partition/Door -2,924-2, Diffuser Floor Floor. Terminal Adjacent Floor Adjacent Floor. Main Fan Infiltration Infiltration. Sec Fan Sub ==> 1,3 1,3 28 1,3 28 Sub ==> -3,227-3, Nom Vent AHU Vent Infil Lights Lights. MinStop/Rh People People. Return Misc 3,413 3, , Misc. Exhaust Sub ==> 3,413 3, , Sub ==>. Rm Exh Auxiliary Ceiling Load Ceiling Load. Leakage Dwn Ventilation Load Ventilation Load. Leakage Ups Adj Air Trans Heat Adj Air Trans Heat Dehumid. Ov Sizing. Exhaust Heat. Exhaust Heat OA Preheat Diff.. ENGINEERING CKS Sup. Fan Heat RA Preheat Diff.. Ret. Fan Heat Additional Reheat. % OA.. Duct Heat Pkup System Plenum Heat. cfm/ft² cfm/ton 1, ft²/ton Btu/hr ft² Grand ==> 4,713 4, , Grand ==> -3,227-3, No. People../1 ft² Main Clg Aux Clg Opt Vent COOLING COIL SELECTION AREAS HEATING COIL SELECTION Capacity Sens Cap. Coil Airflow Enter DB/WB/HR Leave DB/WB/HR Gross Glass Capacity Coil Airflow Ent Lvg ton MBh MBh cfm F F gr/lb F F gr/lb ft² (%) MBh cfm F F Floor 14 Main Htg Part 513 Aux Htg... Int Door ExFlr Roof 14 Wall Ext Door Preheat... Humidif... Opt Vent Project Name: TRACE 7 v6.3.3 calculated at 2:58 PM on 5/31/217 Dataset Name: ElevatorHeatCalc.trc Alternative - 1 System Checksums Report Page 4 of 7
16 REMOTE ELEC RM LV 3 & 4 Room Checksums COOLING COIL PEAK CLG SPACE PEAK HEATING COIL PEAK TEMPERATURES Peaked at Time: Mo/Hr: 7 / 21 Mo/Hr: 7 / 21 Mo/Hr: Heating Design Outside Air: OADB/WB/HR: 73 / 53 / 42 OADB: 73 OADB: -1 SADB Ra Plenum Space Plenum Net Percent Space Percent Space Peak Coil Peak Percent Return Sens. + Lat. Sens. + Lat Of Sensible Of Space Sens Tot Sens Of Ret/OA Btu/h Btu/h Btu/h (%) Btu/h (%) Btu/h Btu/h (%) Fn MtrTD.. Fn BldTD.. Skylite Solar Skylite Solar. Fn Frict.. Skylite Cond Skylite Cond. Roof Cond Roof Cond Glass Solar Glass Solar. AIRFLOWS Glass/Door Cond Glass/Door Cond. Wall Cond Wall Cond. Partition/Door -1,33-1, ,33-37 Partition/Door -3,887-3, Diffuser Floor Floor -1,396-1, Terminal Adjacent Floor Adjacent Floor. Main Fan Infiltration Infiltration. Sec Fan Sub ==> -1,585-1, , Sub ==> -5,563-5, Nom Vent AHU Vent Infil Lights Lights. MinStop/Rh People People. Return Misc 5,12 5, , Misc. Exhaust Sub ==> 5,12 5, , Sub ==>. Rm Exh Auxiliary Ceiling Load Ceiling Load. Leakage Dwn Ventilation Load Ventilation Load. Leakage Ups Adj Air Trans Heat Adj Air Trans Heat Dehumid. Ov Sizing. Exhaust Heat. Exhaust Heat OA Preheat Diff.. ENGINEERING CKS Sup. Fan Heat RA Preheat Diff.. Ret. Fan Heat Additional Reheat. % OA.. Duct Heat Pkup System Plenum Heat. cfm/ft² cfm/ton ft²/ton Btu/hr ft² Grand ==> 3,535 3, , Grand ==> -5,563-5, No. People../1 ft² Main Clg Aux Clg Opt Vent COOLING COIL SELECTION AREAS HEATING COIL SELECTION Capacity Sens Cap. Coil Airflow Enter DB/WB/HR Leave DB/WB/HR Gross Glass Capacity Coil Airflow Ent Lvg ton MBh MBh cfm F F gr/lb F F gr/lb ft² (%) MBh cfm F F Floor 14 Main Htg Part 486 Aux Htg... Int Door ExFlr 14 Roof 14 Wall Ext Door Preheat Humidif... Opt Vent Project Name: TRACE 7 v6.3.3 calculated at 2:58 PM on 5/31/217 Dataset Name: ElevatorHeatCalc.trc Alternative - 1 System Checksums Report Page 5 of 7
17 SECURITY Room Checksums COOLING COIL PEAK CLG SPACE PEAK HEATING COIL PEAK TEMPERATURES Peaked at Time: Mo/Hr: 7 / 17 Mo/Hr: 7 / 16 Mo/Hr: Heating Design Outside Air: OADB/WB/HR: 88 / 59 / 45 OADB: 9 OADB: -1 SADB Ra Plenum Space Plenum Net Percent Space Percent Space Peak Coil Peak Percent Return Sens. + Lat. Sens. + Lat Of Sensible Of Space Sens Tot Sens Of Ret/OA Btu/h Btu/h Btu/h (%) Btu/h (%) Btu/h Btu/h (%) Fn MtrTD.. Fn BldTD.. Skylite Solar Skylite Solar. Fn Frict.. Skylite Cond Skylite Cond. Roof Cond ,9 2 Roof Cond Glass Solar Glass Solar. AIRFLOWS Glass/Door Cond Glass/Door Cond Wall Cond Wall Cond -1,733-1, Partition/Door Partition/Door -3,31-3, Diffuser Floor Floor -1,25-1, Terminal Adjacent Floor Adjacent Floor. Main Fan Infiltration Infiltration Sec Fan Sub ==> 2,356 2, ,46 49 Sub ==> -8,162-8, Nom Vent AHU Vent Infil Lights 1, , , Lights. MinStop/Rh People People. Return Misc 1,24 1, ,24 2 Misc. Exhaust Sub ==> 2, , ,65 51 Sub ==>. Rm Exh Auxiliary Ceiling Load Ceiling Load. Leakage Dwn Ventilation Load Ventilation Load. Leakage Ups Adj Air Trans Heat Adj Air Trans Heat Dehumid. Ov Sizing. Exhaust Heat. Exhaust Heat OA Preheat Diff.. ENGINEERING CKS Sup. Fan Heat RA Preheat Diff.. Ret. Fan Heat Additional Reheat. % OA.. Duct Heat Pkup System Plenum Heat. cfm/ft² cfm/ton ft²/ton Btu/hr ft² Grand ==> 5, , ,65 1. Grand ==> -8,162-8, No. People /1 ft² Main Clg Aux Clg Opt Vent COOLING COIL SELECTION AREAS HEATING COIL SELECTION Capacity Sens Cap. Coil Airflow Enter DB/WB/HR Leave DB/WB/HR Gross Glass Capacity Coil Airflow Ent Lvg ton MBh MBh cfm F F gr/lb F F gr/lb ft² (%) MBh cfm F F Floor 325 Main Htg Part 459 Aux Htg... Int Door ExFlr 25 Roof 325 Wall Ext Door Preheat... Humidif... Opt Vent Project Name: TRACE 7 v6.3.3 calculated at 2:58 PM on 5/31/217 Dataset Name: ElevatorHeatCalc.trc Alternative - 1 System Checksums Report Page 6 of 7
18 TELECOM Room Checksums COOLING COIL PEAK CLG SPACE PEAK HEATING COIL PEAK TEMPERATURES Peaked at Time: Mo/Hr: 7 / 18 Mo/Hr: 7 / 18 Mo/Hr: Heating Design Outside Air: OADB/WB/HR: 85 / 58 / 44 OADB: 85 OADB: -1 SADB Ra Plenum Space Plenum Net Percent Space Percent Space Peak Coil Peak Percent Return Sens. + Lat. Sens. + Lat Of Sensible Of Space Sens Tot Sens Of Ret/OA Btu/h Btu/h Btu/h (%) Btu/h (%) Btu/h Btu/h (%) Fn MtrTD.. Fn BldTD.. Skylite Solar Skylite Solar. Fn Frict.. Skylite Cond Skylite Cond. Roof Cond Roof Cond Glass Solar Glass Solar. AIRFLOWS Glass/Door Cond Glass/Door Cond. Wall Cond Wall Cond. Partition/Door 1,173 1, ,173 6 Partition/Door -2,689-2, Diffuser 2,7 2,7 Floor Floor. Terminal 2,7 2,7 Adjacent Floor Adjacent Floor. Main Fan 2,7 2,7 Infiltration Infiltration. Sec Fan Sub ==> 1,793 1, ,793 1 Sub ==> -3,122-3, Nom Vent AHU Vent Infil Lights Lights. MinStop/Rh People People. Return 2,7 2,7 Misc 17, 17, 9 17, 9 Misc. Exhaust Sub ==> 17, 17, 9 17, 9 Sub ==>. Rm Exh Auxiliary Ceiling Load Ceiling Load. Leakage Dwn Ventilation Load Ventilation Load. Leakage Ups Adj Air Trans Heat Adj Air Trans Heat Dehumid. Ov Sizing. Exhaust Heat. Exhaust Heat OA Preheat Diff.. ENGINEERING CKS Sup. Fan Heat RA Preheat Diff.. Ret. Fan Heat Additional Reheat. % OA.. Duct Heat Pkup System Plenum Heat. cfm/ft² cfm/ton 1, ft²/ton Btu/hr ft² Grand ==> 18,793 18, , Grand ==> -3,122-3, No. People../1 ft² Main Clg Aux Clg Opt Vent COOLING COIL SELECTION AREAS HEATING COIL SELECTION Capacity Sens Cap. Coil Airflow Enter DB/WB/HR Leave DB/WB/HR Gross Glass Capacity Coil Airflow Ent Lvg ton MBh MBh cfm F F gr/lb F F gr/lb ft² (%) MBh cfm F F , Floor 2 Main Htg , Part 57 Aux Htg... Int Door ExFlr Roof 2 Wall Ext Door Preheat... Humidif... Opt Vent Project Name: TRACE 7 v6.3.3 calculated at 2:58 PM on 5/31/217 Dataset Name: ElevatorHeatCalc.trc Alternative - 1 System Checksums Report Page 7 of 7
19 Entered Values TRACE 7 version Project Name: Dataset Name: C:\Users\erikal\Documents\TRACE 7 Projects\ th garage\elevatorheatcalc.trc Location: Building Owner: Program User: Company: Comments: Cooling Design Period: January thru December Peak Hour Override: Daylight Savings Period: Summer Period: Location: Summer Design Dry Bulb: Summer Design Wet Bulb: Winter Design Dry Bulb: Denver, Colorado 91. F 59. F -1. F Cooling Methodology: TETD-TA1 Summer Clearness Number: 1.1 Heating Methodology: UATD Winter Clearness Number: 1.5 Infiltration Methodology: Vary with wind speed Outside Film Methodology: Vary with wind speed Summer Ground Reflectance:.2 Winter Ground Reflectance:.2 Terrain Methodology: Center of a large city Carbon Dioxide Level: 4 Room Circ Rate: Medium Wall Load To Plenum: YES Force VAV Min => Nominal Ventilation at Design: No Building Orientation: degrees from north Allow Energy Recovery/Transfer at Design: No Simulation Hours: Reduced year Calendar Code: Standard (1978) Energy Simulation Period: January thru December Retest Design Peaks: Calculate Building Block Loads: Close ventilation dampers during unoccupied hours: Yes Yes No ppm Project Name: Dataset Name: C:\Users\erikal\Documents\TRACE 7 Projects\ th garage\elevatorheatcalc.trc TRACE 7 v6.3.3 Entered Values - Project Information
20 Room Description: ELEVATOR SHAFT GENERAL INFORMATION Floor Area: 23 ft² Flr-Flr Height: 68. ft Plenum Height:. ft Height Above Flr: Slab Cnstr Type: 4* LW Concrete Room Mass: Time delay based on actual mass Ceiling R-Value:. hr ft² F/Btu Is There Carpet?: NO Design Clg DB / Drift Point: 13. F / 13. F Design Htg DB / Drift Point: 55. F / 55. F Design Relative Humidity: 5 % Moisture Capacitance: Medium Clg Tstat: None Htg Tstat: None Thermostat Location:Room Floor Multiplier: 1 Humidistat Location: None Room Multiplier: 1 CO2 Sensor Location:None Room Type:Conditioned People Type: None # of People: sq ft/person People Sensible: 25 Btu/h People Latent : 25 Btu/h People Schedule: Cooling Only (Design) ENTERED VALUES Zone Description: No Zone PEOPLE Workstation: 1. workstation/person ROOM BY ROOM LIGHTS Lighting Type: Recessed fluorescent, not vented, 8% load to space Fixture Type: RECFL-NV % Load to RA: 2 % Lighting Schedule: Cooling Only (Design) Lighting Amount:. W/sq ft Ballast Factor: 1. System Description: elev shaft AIRFLOW INFORMATION Cooling Heating Vent Type: None None Vent Value:. cfm. cfm Vent Schedule: Available (1%) Infil Type: Neutral, Poor Const. Neutral, Poor Const. Infil Value: 6. cfm 6. cfm Infil Schedule: Available (1%) Vav Airflow: Vav Sched: Supply: Aux Supply: Room Exhaust: Available (1%) Rm Exh Sched: Available (1%) Description Roof - 1 E Opening - 1 W Opening - 1 N Opening - 1 Misc Load 1 north below grade west below grade east below grade south interior Floor - 1 Glass Adj Pct Pct Pct Rad Temp/ Sen/ Rm/ Ret/ Frc/ Area/ Const Type / U Value Type / Area Shade U Value External Internal Grnd Cool Heat Perm Loss Amount Dir Tilt Schedule Btu/h ft² F Alpha Energy Type ft² Coef Btu/h ft² F Shading Shading Refl Tmp Tmp Len Coef 23 ft² 9 Steel Sheet, 8* Ins Overhang - None None 541 ft² 9 4* HW Block, 3* Ins Window 6mm Dbl Low-E (e2=.1) Overhang - None None. 541 ft² 27 4* HW Block, 3* Ins Window 6mm Dbl Low-E (e2=.1) Overhang - None None. 1,156 ft² 4* HW Block, 3* Ins Window 3mm Tpl Low-E Film 1, Overhang - None None. 7,. Btuh Cooling Only (Design) None ft² 8* LW Conc.1333 Ground 1,1, 161 ft² 8* LW Conc.1333 Ground 1,1, 161 ft² 8* LW Conc.1333 Ground 1,1, 344 ft² 8* LW Conc Project Name: TRACE 7 v6.3.3 calculated at 2:58 PM on 5/31/217 Dataset Name: C:\Users\erikal\Documents\TRACE 7 Projects\ th garage\elevatorheatcalc.trc Alternative - 1 Entered Values - Rooms Page 1 of 7
21 Room Description: MAIN ELEC ROOM GENERAL INFORMATION Floor Area: 2 ft² Flr-Flr Height: 8. ft Plenum Height:. ft Height Above Flr: Slab Cnstr Type: 4* LW Concrete Room Mass: Time delay based on actual mass Ceiling R-Value: hr ft² F/Btu Is There Carpet?: NO Design Clg DB / Drift Point: 8. F / 8. F Design Htg DB / Drift Point: 7. F / 7. F Design Relative Humidity: 5 % Moisture Capacitance: Medium Clg Tstat: None Htg Tstat: None Thermostat Location:Room Floor Multiplier: 1 Humidistat Location: None Room Multiplier: 1 CO2 Sensor Location:None Room Type:Conditioned People Type: None # of People: sq ft/person People Sensible: 25 Btu/h People Latent : 25 Btu/h People Schedule: Cooling Only (Design) ENTERED VALUES Zone Description: No Zone PEOPLE Workstation: 1. workstation/person ROOM BY ROOM LIGHTS Lighting Type: Recessed fluorescent, not vented, 8% load to space Fixture Type: RECFL-NV % Load to RA: 2 % Lighting Schedule: Cooling Only (Design) Lighting Amount:. W/sq ft Ballast Factor: 1. System Description: heat and vent AIRFLOW INFORMATION Cooling Heating Vent Type: None None Vent Value:. cfm. cfm Vent Schedule: Available (1%) Infil Type: Neutral, Poor Const. Neutral, Poor Const. Infil Value:.5 cfm/sq ft of wall.5 cfm/sq ft of wall Infil Schedule: Available (1%) Vav Airflow: Vav Sched: Supply: Aux Supply: Room Exhaust: Available (1%) Rm Exh Sched: Available (1%) Description Roof - 1 Misc Load 1 north w south e Glass Adj Pct Pct Pct Rad Temp/ Sen/ Rm/ Ret/ Frc/ Area/ Const Type / U Value Type / Area Shade U Value External Internal Grnd Cool Heat Perm Loss Amount Dir Tilt Schedule Btu/h ft² F Alpha Energy Type ft² Coef Btu/h ft² F Shading Shading Refl Tmp Tmp Len Coef 2 ft² 9 Steel Sheet, 8* Ins Overhang - None None 4,5. W Cooling Only (Design) None ft² 8* LW Conc Block ft² 8* LW Conc Block ft² 8* LW Conc Block ft² 8* LW Conc Block.877 Prorated Project Name: TRACE 7 v6.3.3 calculated at 2:58 PM on 5/31/217 Dataset Name: C:\Users\erikal\Documents\TRACE 7 Projects\ th garage\elevatorheatcalc.trc Alternative - 1 Entered Values - Rooms Page 2 of 7
22 Room Description: REMOTE ELEC RM LV 3 & 4 GENERAL INFORMATION Floor Area: 14 ft² Flr-Flr Height: 8. ft Plenum Height:. ft Height Above Flr: Slab Cnstr Type: 4* LW Concrete Room Mass: Time delay based on actual mass Ceiling R-Value: hr ft² F/Btu Is There Carpet?: NO Design Clg DB / Drift Point: 1. F / 1. F Design Htg DB / Drift Point: 5. F / 5. F Design Relative Humidity: 5 % Moisture Capacitance: Medium Clg Tstat: None Htg Tstat: None Thermostat Location:Room Floor Multiplier: 1 Humidistat Location: None Room Multiplier: 1 CO2 Sensor Location:None Room Type:Conditioned People Type: None # of People: sq ft/person People Sensible: 25 Btu/h People Latent : 25 Btu/h People Schedule: Cooling Only (Design) ENTERED VALUES Zone Description: No Zone PEOPLE Workstation: 1. workstation/person ROOM BY ROOM LIGHTS Lighting Type: Recessed fluorescent, not vented, 8% load to space Fixture Type: RECFL-NV % Load to RA: 2 % Lighting Schedule: Cooling Only (Design) Lighting Amount:. W/sq ft Ballast Factor: 1. System Description: heat and vent AIRFLOW INFORMATION Cooling Heating Vent Type: None None Vent Value:. cfm. cfm Vent Schedule: Available (1%) Infil Type: Neutral, Poor Const. Neutral, Poor Const. Infil Value:.5 cfm/sq ft of wall.5 cfm/sq ft of wall Infil Schedule: Available (1%) Vav Airflow: Vav Sched: Supply: Aux Supply: Room Exhaust: Available (1%) Rm Exh Sched: Available (1%) Description Roof - 1 Misc Load 1 Partition - 1 Floor - 1 Glass Adj Pct Pct Pct Rad Temp/ Sen/ Rm/ Ret/ Frc/ Area/ Const Type / U Value Type / Area Shade U Value External Internal Grnd Cool Heat Perm Loss Amount Dir Tilt Schedule Btu/h ft² F Alpha Energy Type ft² Coef Btu/h ft² F Shading Shading Refl Tmp Tmp Len Coef 14 ft² 9 Steel Sheet, 8* Ins Overhang - None None 1,5. W Cooling Only (Design) None ft² 8* LW Conc ft² 6* LW Conc.1662 Project Name: TRACE 7 v6.3.3 calculated at 2:58 PM on 5/31/217 Dataset Name: C:\Users\erikal\Documents\TRACE 7 Projects\ th garage\elevatorheatcalc.trc Alternative - 1 Entered Values - Rooms Page 3 of 7
23 Room Description: ELEVATOR MACHINE ROOM GENERAL INFORMATION Floor Area: 13 ft² Flr-Flr Height: 8. ft Plenum Height:. ft Height Above Flr: Slab Cnstr Type: 4* LW Concrete Room Mass: Time delay based on actual mass Ceiling R-Value: hr ft² F/Btu Is There Carpet?: NO Design Clg DB / Drift Point: 8. F / 8. F Design Htg DB / Drift Point: 55. F / 55. F Design Relative Humidity: 5 % Moisture Capacitance: Medium Clg Tstat: None Htg Tstat: None Thermostat Location:Room Floor Multiplier: 1 Humidistat Location: None Room Multiplier: 1 CO2 Sensor Location:None Room Type:Conditioned People Type: None # of People: sq ft/person People Sensible: 25 Btu/h People Latent : 25 Btu/h People Schedule: Cooling Only (Design) ENTERED VALUES Zone Description: No Zone PEOPLE Workstation: 1. workstation/person ROOM BY ROOM LIGHTS Lighting Type: Recessed fluorescent, not vented, 8% load to space Fixture Type: RECFL-NV % Load to RA: 2 % Lighting Schedule: Cooling Only (Design) Lighting Amount:. W/sq ft Ballast Factor: 1. System Description: PTAC AIRFLOW INFORMATION Cooling Heating Vent Type: None None Vent Value:. cfm. cfm Vent Schedule: Available (1%) Infil Type: Neutral, Poor Const. Neutral, Poor Const. Infil Value:.5 cfm/sq ft of wall.5 cfm/sq ft of wall Infil Schedule: Available (1%) Vav Airflow: Vav Sched: Supply: Aux Supply: Room Exhaust: Available (1%) Rm Exh Sched: Available (1%) Description Roof - 1 W Misc Load 1 n/e/s Floor - 1 Glass Adj Pct Pct Pct Rad Temp/ Sen/ Rm/ Ret/ Frc/ Area/ Const Type / U Value Type / Area Shade U Value External Internal Grnd Cool Heat Perm Loss Amount Dir Tilt Schedule Btu/h ft² F Alpha Energy Type ft² Coef Btu/h ft² F Shading Shading Refl Tmp Tmp Len Coef 13 ft² 9 Steel Sheet, 8* Ins Overhang - None None 56 ft² 27 4* HW Block, 3* Ins ,626. Btuh Cooling Only (Design) None ft² 8* LW Conc Block ft² 12* LW Conc.98 Project Name: TRACE 7 v6.3.3 calculated at 2:58 PM on 5/31/217 Dataset Name: C:\Users\erikal\Documents\TRACE 7 Projects\ th garage\elevatorheatcalc.trc Alternative - 1 Entered Values - Rooms Page 4 of 7
24 Room Description: REMOTE COMM GENERAL INFORMATION Floor Area: 14 ft² Flr-Flr Height: 9. ft Plenum Height:. ft Height Above Flr: Slab Cnstr Type: 4* LW Concrete Room Mass: Time delay based on actual mass Ceiling R-Value: hr ft² F/Btu Is There Carpet?: NO Design Clg DB / Drift Point: 65. F / 65. F Design Htg DB / Drift Point: 55. F / 55. F Design Relative Humidity: 5 % Moisture Capacitance: Medium Clg Tstat: None Htg Tstat: None Thermostat Location:Room Floor Multiplier: 1 Humidistat Location: None Room Multiplier: 1 CO2 Sensor Location:None Room Type:Conditioned People Type: None # of People: sq ft/person People Sensible: 25 Btu/h People Latent : 25 Btu/h People Schedule: Cooling Only (Design) ENTERED VALUES Zone Description: No Zone PEOPLE Workstation: 1. workstation/person ROOM BY ROOM LIGHTS Lighting Type: Recessed fluorescent, not vented, 8% load to space Fixture Type: RECFL-NV % Load to RA: 2 % Lighting Schedule: Cooling Only (Design) Lighting Amount:. W/sq ft Ballast Factor: 1. System Description: PTAC AIRFLOW INFORMATION Cooling Heating Vent Type: None None Vent Value:. cfm. cfm Vent Schedule: Available (1%) Infil Type: Neutral, Poor Const. Neutral, Poor Const. Infil Value:.5 cfm/sq ft of wall.5 cfm/sq ft of wall Infil Schedule: Available (1%) Vav Airflow: Vav Sched: Supply: Aux Supply: Room Exhaust: Available (1%) Rm Exh Sched: Available (1%) Description Roof - 1 Misc Load 1 north east south west Glass Adj Pct Pct Pct Rad Temp/ Sen/ Rm/ Ret/ Frc/ Area/ Const Type / U Value Type / Area Shade U Value External Internal Grnd Cool Heat Perm Loss Amount Dir Tilt Schedule Btu/h ft² F Alpha Energy Type ft² Coef Btu/h ft² F Shading Shading Refl Tmp Tmp Len Coef 14 ft² 9 Steel Sheet, 8* Ins Overhang - None None 1,. W Cooling Only (Design) None ft² 8* LW Conc Block ft² 8* LW Conc Block ft² 8* LW Conc Block ft² 8* LW Conc Block.877 Project Name: TRACE 7 v6.3.3 calculated at 2:58 PM on 5/31/217 Dataset Name: C:\Users\erikal\Documents\TRACE 7 Projects\ th garage\elevatorheatcalc.trc Alternative - 1 Entered Values - Rooms Page 5 of 7
25 Room Description: SECURITY GENERAL INFORMATION Floor Area: 325 ft² Flr-Flr Height: 8. ft Plenum Height:. ft Height Above Flr: Slab Cnstr Type: 4* LW Concrete Room Mass: Time delay based on actual mass Ceiling R-Value: hr ft² F/Btu Is There Carpet?: NO Design Clg DB / Drift Point: 75. F / 75. F Design Htg DB / Drift Point: 72. F / 72. F Design Relative Humidity: 5 % Moisture Capacitance: Medium Clg Tstat: None Htg Tstat: None Thermostat Location:Room Floor Multiplier: 1 Humidistat Location: None Room Multiplier: 1 CO2 Sensor Location:None Room Type:Conditioned People Type: None # of People: 1 People People Sensible: 25 Btu/h People Latent : 25 Btu/h People Schedule: Cooling Only (Design) ENTERED VALUES Zone Description: No Zone PEOPLE Workstation: 1. workstation/person ROOM BY ROOM LIGHTS Lighting Type: Recessed fluorescent, not vented, 8% load to space Fixture Type: RECFL-NV % Load to RA: 2 % Lighting Schedule: Cooling Only (Design) Lighting Amount: 1.5 W/sq ft Ballast Factor: 1. System Description: PTAC AIRFLOW INFORMATION Cooling Heating Vent Type: None None Vent Value:. cfm. cfm Vent Schedule: Available (1%) Infil Type: Neutral, Poor Const. Neutral, Poor Const. Infil Value:.5 cfm/sq ft of wall.5 cfm/sq ft of wall Infil Schedule: Available (1%) Vav Airflow: Vav Sched: Supply: Aux Supply: Room Exhaust: Available (1%) Rm Exh Sched: Available (1%) Description Roof - 1 E Opening - 1 Misc Load 1 north w south Floor - 1 Glass Adj Pct Pct Pct Rad Temp/ Sen/ Rm/ Ret/ Frc/ Area/ Const Type / U Value Type / Area Shade U Value External Internal Grnd Cool Heat Perm Loss Amount Dir Tilt Schedule Btu/h ft² F Alpha Energy Type ft² Coef Btu/h ft² F Shading Shading Refl Tmp Tmp Len Coef 325 ft² 9 Steel Sheet, 8* Ins Overhang - None None 25 ft² 9 4* HW Block, 3* Ins Window 3mm Tpl Low-E Film Overhang - None None. 3. W Cooling Only (Design) None ft² 8* LW Conc Block ft² 8* LW Conc Block ft² 8* LW Conc Block Project Name: TRACE 7 v6.3.3 calculated at 2:58 PM on 5/31/217 Dataset Name: C:\Users\erikal\Documents\TRACE 7 Projects\ th garage\elevatorheatcalc.trc Alternative - 1 Entered Values - Rooms Page 6 of 7
26 Room Description: TELECOM GENERAL INFORMATION Floor Area: 2 ft² Flr-Flr Height: 9. ft Plenum Height:. ft Height Above Flr: Slab Cnstr Type: 4* LW Concrete Room Mass: Time delay based on actual mass Ceiling R-Value: hr ft² F/Btu Is There Carpet?: NO Design Clg DB / Drift Point: 65. F / 65. F Design Htg DB / Drift Point: 55. F / 55. F Design Relative Humidity: 5 % Moisture Capacitance: Medium Clg Tstat: None Htg Tstat: None Thermostat Location:Room Floor Multiplier: 1 Humidistat Location: None Room Multiplier: 1 CO2 Sensor Location:None Room Type:Conditioned People Type: None # of People: sq ft/person People Sensible: 25 Btu/h People Latent : 25 Btu/h People Schedule: Cooling Only (Design) ENTERED VALUES Zone Description: No Zone PEOPLE Workstation: 1. workstation/person ROOM BY ROOM LIGHTS Lighting Type: Recessed fluorescent, not vented, 8% load to space Fixture Type: RECFL-NV % Load to RA: 2 % Lighting Schedule: Cooling Only (Design) Lighting Amount:. W/sq ft Ballast Factor: 1. System Description: PTAC AIRFLOW INFORMATION Cooling Heating Vent Type: None None Vent Value:. cfm. cfm Vent Schedule: Available (1%) Infil Type: Neutral, Poor Const. Neutral, Poor Const. Infil Value:.5 cfm/sq ft of wall.5 cfm/sq ft of wall Infil Schedule: Available (1%) Vav Airflow: Vav Sched: Supply: Aux Supply: Room Exhaust: Available (1%) Rm Exh Sched: Available (1%) Description Roof - 1 Misc Load 1 north east south west Glass Adj Pct Pct Pct Rad Temp/ Sen/ Rm/ Ret/ Frc/ Area/ Const Type / U Value Type / Area Shade U Value External Internal Grnd Cool Heat Perm Loss Amount Dir Tilt Schedule Btu/h ft² F Alpha Energy Type ft² Coef Btu/h ft² F Shading Shading Refl Tmp Tmp Len Coef 2 ft² 9 Steel Sheet, 8* Ins Overhang - None None 17,. Btuh Cooling Only (Design) None ft² 8* LW Conc Block ft² 8* LW Conc Block ft² 8* LW Conc Block ft² 8* LW Conc Block.877 Prorated Project Name: TRACE 7 v6.3.3 calculated at 2:58 PM on 5/31/217 Dataset Name: C:\Users\erikal\Documents\TRACE 7 Projects\ th garage\elevatorheatcalc.trc Alternative - 1 Entered Values - Rooms Page 7 of 7
Air System Sizing Summary for Lobby System Project Name: Existing Lobby 04/04/2005 Prepared by: psuae
APPENDIX C Air System Sizing Summary for Lobby System Project Name: Existing Lobby 04/04/2005 12:56PM Air System Information Air System Name Equipment Class Air System Type Lobby System CW AHU SZCAV Number
More informationAir System Sizing Summary for AHU/CU-1 Project Name: Wilton Manors Fire Station#16 06/26/2016 Prepared by: L.N.I.
Air System Sizing Summary for AHU/CU-1 AHU/CU-1 Floor Area 1678.0 ft² Central Cooling Coil Total coil load 4.8 Tons Total coil load 57.8 MBH Sensible coil load 41.8 MBH Coil CFM at Jul 1500 1909 CFM Max
More informationCOOLING LOAD CALCULATION SHEET
7 8 7 5 3 & 7 6 8 7 2 & 3 8 3 & 7 6 5 3 & 4 2 COOLING LOAD CALCULATION SHEET Project Name :...... Prepare by :.... Revision :... Location :.... Approved by :....... Sheet No. :....... CHAP REF ITEM TABLE
More informationSEQUENCE OF OPERATION GUIDELINE. AIR TERMINAL UNITS SINGLE DUCT VARIABLE AIR VOLUME with HOT WATER REHEAT or ELECTRIC HEAT
SEQUENCE OF OPERATION GUIDELINE AIR TERMINAL UNITS SINGLE DUCT VARIABLE AIR VOLUME with HOT WATER REHEAT or ELECTRIC HEAT Document: VAV-HTG rev1 Revision: 1.0 Rev. Date: July 22, 2011 NOTES: 1. THIS SEQUENCE
More informationChristopher Kelly Technical Report Three
Christopher Kelly Technical Report Three Mechanical Systems and Existing Conditions Evaluation SALK HALL ADDITION The University of Pittsburgh, Pittsburgh Christopher Kelly, Mechanical Option Professor
More informationAugust 15, 2013 Page 1 of 19
Section C401 Application Compliance with C402, C403, C404 and C405 AND (either C406.2, C406.3 or C406.4) Compliance with C402, C403, C404 or C405 Section C402 Building Envelope (Climate Zone 5A) Space-Conditioning
More informationCOMcheck Software Version Interior Lighting Compliance Certificate
Section 1: Project Information Energy Code: 2009 IECC Project Title: Berry Farms Animal Hospital Project Type: New Construction COMcheck Software Version 4.0.3.0 Interior Lighting Compliance Certificate
More informationIntroduction to HVAC. American Standard Inc Air Conditioning Clinic TRG-TRC018-EN
Introduction to HVAC Agenda Psychrometrics Human Comfort Heat Transfer Refrigeration Cycle HVAC Terminology HVAC Systems Introduction to HVAC Psychrometrics 2000 TRG-TRC002-EN Properties of Air Dry-bulb
More informationCompany Acme HVAC Inc. Customer James Allen Preparer J White Address 3652 Shady LaneAnywhere, Earth Phone
Company Acme HVAC Inc. Customer James Allen Preparer J White Address 3652 Shady LaneAnywhere, Earth Phone 252-555-7493 Phone 555-576-3764 Date 12/9/10 This HVAC load calculation has been performed using
More informationCommercial load calculator instructions (all measurements are imperial)
Commercial load calculator instructions (all measurements are imperial) Basic Tab 1. Enter the design conditions for your area. This only has to be done once unless your performing a load calculation for
More informationUNIVERSITY OF MISSOURI Heating Ventilating and Air-Conditioning (HVAC) 2016 Q1
GENERAL: This section provides general standards for overall sizing and design of Heating, Ventilating, and Air Conditioning (HVAC) systems. Other sections contain specific standards for each system per
More informationBuilding Systems: HVAC
Building Systems: HVAC Committee on Microbiomes of the Built Environment June 21, 2016 Washington DC Dennis Stanke (dstanke47@gmail.com) Retired rane (IR) Outline Ventilation Systems Moisture sources Low
More informationCARRIER edesign SUITE NEWS. Modeling 100% OA Constant Volume Air Systems. Volume 6, Issue 1. Page 1 Modeling 100% OA Constant Volume Air Systems
Volume 6, Issue 1 CARRIER edesign SUITE NEWS Modeling 100% OA Constant Volume Air Systems This article provides an overview of how to model a stand-alone constant air volume (CAV) 100% OA system in HAP.
More informationHVAC Mandatory Provisions Part II, Page 1
HVAC Mandatory Provisions Part II, Page 1 Mandatory Equipment Efficiency Worksheet (6.4.1.1) System Equipment Type Size Category (Tables 6.8.1A through K) Sub-Category or Rating Condition Units of Efficiency
More informationApacheHVAC User Guide Part F: Loads Analysis and Reporting Tools
ApacheHVAC User Guide Part F: Loads Analysis and Reporting Tools IES Virtual Environment Copyright 2017 Integrated Environmental Solutions Limited. All rights reserved. No part of the manual is to be copied
More information1080 Marina Village Parkway, Suite 501 Alameda, CA (510) Fax (510) HVAC DESIGN INTENT
Taylor Engineering 1080 Marina Village Parkway, Suite 501 Alameda, CA 94501-1142 (510) 749-9135 Fax (510) 749-9136 LLC HVAC DESIGN INTENT PART 1 - GENERAL 1.1 Overview A. The project consists of a 3-story
More informationHAP e-help. Modeling Induction Beams in HAP v4.8 QB TIP 001
This HAP e-help provides a high-level overview of induction beams, how they work and how to model them in HAP 4.8 (and later versions). The first half of the article explains how induction beams work.
More information4. OVERVIEW OF MECHANICAL SYSTEM
4. OVERVIEW OF MECHANICAL SYSTEM The 87,000 SF SLCC is served by six (6) Trane M-Series Climate Changer Air Handing Units (AHUs). Each unit serves a distinct zone within the facility that is unique in
More informationCARRIER edesign SUITE NEWS. Interpreting High (Low) Peak Design Airflow Sizing Results for HVAC. Equipment Selection.
Volume 5, Issue 1 CARRIER edesign SUITE NEWS Interpreting High (Low) Peak Design Airflow Sizing Results for HVAC Equipment Selection A design challenge sometimes occurs when computing design loads using
More informationDesigning Energy Efficient Outdoor Air Systems
Designing Energy Efficient Outdoor Air Systems Joseph Thorndal Applied Products Sales Manager Greenheck, Schofield, Wisconsin 1 Joseph Thorndal BS Industrial Engineering North Dakota State University Work
More informationRadiant Exchange in Stratified Environments: Considerations and Challenges for Hourly Energy Simulation of UFAD, DV, and Radiant Cooling Systems
Radiant Exchange in Stratified Environments: Considerations and Challenges for Hourly Energy Simulation of UFAD, DV, and Radiant Cooling Systems CBE Timothy Moore CENTER FOR THE BUILT ENVIRONMENT SimBuild
More informationASHRAE WILL GIVE YOU THE WORLD. This ASHRAE Distinguished Lecturer is brought to you by the Society Chapter Technology Transfer Committee
ASHRAE WILL GIVE YOU THE WORLD This ASHRAE Distinguished Lecturer is brought to you by the Society Chapter Technology Transfer Committee Complete the Distinguished Lecturer Event Summary Critique CTTC
More informationOver/Undersizing in TRACE 700
Over/Undersizing in TRACE 700 Over/undersizing, which appears on the Checksums and Airflow Loads reports, typically occurs with constant volume system types, especially Single Zone (SZ), Fan Coil (FC),
More informationPhEn-602 Pharmaceutical Facility Design. Notes #7 J. Manfredi
PhEn-602 Pharmaceutical Facility Design Notes #7 J. Manfredi 1 HVAC Design and the Psychrometric Chart 2 HVAC Considerations Pharmaceutical Facility Design Process 1. SPACE REQUIREMENTS Temperature Humidity
More informationASHRAE/IESNA Standard
ASHRAE/IESNA Standard 90.1-1999 An inside look at the requirements of Standard 90.1-1999 Energy Standard for Building Except Low-Rise Residential Building Mick Schwedler, PE Sr. Principal Applications
More informationAndrea Borowski The Pennsylvania State University University Park, PA November 11, 2002 Consultant: Dr. Bahnfleth Technical Assignment M-3
Existing System Evaluation Executive Summary The MBNA Career Services Center is a 44,000 square foot, 4-story office type building at Penn State University, University Park Campus. The building is located
More informationCOMcheck Software Version Mechanical Compliance Certificate
COMcheck Software Version 3.8.2 Mechanical Compliance Certificate 90.1 (2007) Standard Section 1: Project Information Project Type: New Construction Project Title : Rudy's Star Motors Construction Site:
More informationMANUAL J/S Summary One summary sheet for each system
MANUAL J/S Summary One summary sheet for each system NOTE: The load calculation must be calculated on a room basis. Room loads are a mandatory requirement for making Manual D duct sizing calculations.
More informationTechnical Development Program
Technical Development Program PRESENTED BY: James Parker Insert your logo here AIR HANDLERS Coils: Direct Expansion Chilled Water and Heating Menu Section 1 Introduction Section 2 Typical Coil Applications
More informationASHRAE Region VI CRC Track III: Session 3 Ventilation Energy Recovery. Steven T. Taylor, PE Principal Taylor Engineering
ASHRAE Region VI CRC Track III: Session 3 Ventilation Energy Recovery Steven T. Taylor, PE Principal Taylor Engineering This program is registered with the AIA/CES for continuing professional education.
More informationHVAC Controls Upgrades: Requirement Details ( )
REQUIRED CONTROLS/FEATURES HVAC non CENTRAL PLANT 1) Zone Level Scheduling & Override for all air handlers (supply and exhaust) to match occupied hours by zone DDC or occupancy sensors (OS) allowed. (403.2.4.3,
More informationDehumidifying with Dedicated Outdoor Air
Dehumidifying with Dedicated Outdoor Air System Configurations Figure 71. Configurations for dedicated outdoor-air systems A dedicated outdoor-air handler separately filters, cools, dehumidifies, heats,
More informationK*ES120 DESCRIPTION TECHNICAL GUIDE SPLIT-SYSTEM EVAPORATOR BLOWERS 10 NOMINAL TONS EER 8.5 ACCESSORIES FIELD INSTALLED TABLE 1: ARI RATINGS*
TECHNICAL GUIDE SPLIT-SYSTEM EVAPORATOR BLOWERS K*ES120 10 NOMINAL TONS EER 8.5 DESCRIPTION These completely assembled dual circuit evaporator blower units include a well-insulated cabinet, a DX cooling
More informationA. Base Bid: 1. Heating Contractor provide: a. Control sequences for HVAC systems, subsystems, and equipment.
SECTION 23 09 93 - SEQUENCE OF OPERATIONS FOR HVAC CONTROLS PART 1 - GENERAL 1 WORK INCLUDES A. Base Bid: Heating Contractor provide: Control sequences for HVAC systems, subsystems, and equipment. B. Alternate
More information2006 Washington State Nonresidential Energy Code Compliance Form Washington State Nonresidential Energy Code Compliance Forms Revised July 2007
Mechanical Summary 2006 Washington State nresidential Energy Code Compliance Form MECH-SUM 2006 Washington State nresidential Energy Code Compliance Forms Revised July 2007 Project Info Project Address
More informationMECHANICAL INFRASTRUCTURE ASSESSMENT FOR VICTOR VALLEY COLLEGE
MECHANICAL INFRASTRUCTURE ASSESSMENT FOR VICTOR VALLEY COLLEGE 18422 Bear Valley Road Victorville, CA 92395 Date 25 September 2012 dha Job No. 12155 TABLE OF CONTENTS I. Purpose.... Page 1 II. Existing
More informationThe Ed Roberts Campus Berkeley, CA
The Ed Roberts Campus Berkeley, CA Anderson Clemenceau Mechanical Option Penn State A.E. Senior Thesis April 14, 2015 Leddy Maytum Stacy Architects, Photo by Tim Griffith ASHRAE Climate Zone 3C 99.6% Heating
More informationTECHNICAL REPORT III Mechanical Systems Existing Conditions
TECHNICAL REPORT III Mechanical Systems Existing Conditions TEMPLE UNIVERSITY TYLER SCHOOL OF ART Pennsylvania State University Architectural Engineering Mechanical Option Faculty Adviser: Dr. Jim Freihaut
More informationS H R E V E P O R T, L O U I S I A N A File: ARCHIVE MAIN STORAGE 102 09 / 18 / 2018 REVISIONS BY SCHEMATIC DESIGN SET DESIGN DEVELOPMENT SET CONSTRUCTION DOCUMENT SET CLIENT REVIEW SET AS-BUILT DOCUMENT
More informationINTRODUCTION TO: ASHRAE STANDARD 90.1, HVAC System Requirements for Reducing Energy Consumption in Commercial Buildings
INTRODUCTION TO: ASHRAE STANDARD 90.1, 2013 HVAC System Requirements for Reducing Energy Consumption in Commercial Buildings Rocky Mountain ASHRAE Technical Conference, April 29, 2016 SEAN BEILMAN, P.E.,
More informationDACC Health Sciences Building Air Handler Assessment/Study
DACC Health Sciences Building Air Handler Assessment/Study NMSU Facilities and Services Department P.O. Box 30001 Las Cruces, NM 88003-8001 June 14, 2016 Final Submittal 1065 S. Main St., Bldg. D, Ste.
More informationResidential Heating and Cooling Loads
OVERVIEW Residential Heating and Cooling Loads Brief systems engineering introduction Discussion of heating and cooling loads by way of examining the system sizing process. By: Armin Rudd Building Science
More information303 Garibaldi Ave, Roseto, PA Phone: Fax: Web: License: PA007413
Load Short Form Entyre house Outside db ( F) Inside db ( F) Design TD ( F) Inside humidity (%) oisture difference (gr/lb) Htg 4 70 67-30 28 Clg 89 75 14 50 29 Shielding / stories Pressure / AVF 3 (partial)
More informationVentilation in Humid Climates: Data from Field Experiments
Gaylord Texan Resort & Convention Center October 20-23, 2004 - Dallas, Texas Ventilation in Humid Climates: Data from Field Experiments Neil Moyer FSEC Yearly Housing Starts Past 3 Years Source: NAHB x
More informationTEC Controller Terminal Box Controller (VAV) - Series Fan Powered with Hot Water Reheat, Application Application Note
TEC Controller Terminal Box Controller (VAV) - Series Fan Powered with Hot Water Reheat, Application 2025 Application Note 140-1054 Building Technologies Table of Contents Overview... 4 Hardware Inputs...
More informationINDEX. ADDITIONS AND ALTERATIONS Defined Requirements ADMINISTRATION AND ENFORCEMENT... Chapter 1 AIR ECONOMIZERS
A ADDITIONS AND ALTERATIONS Requirements........................ 101.4.3 ADMINISTRATION AND ENFORCEMENT..................... Chapter 1 AIR ECONOMIZERS Defined.................................202 Requirements........
More informationUNDERSTANDING AND USING THE HVAC DESIGN REVIEW FORM
Page 1 UNDERSTANDING AND USING THE HVAC DESIGN REVIEW FORM Each of the 38 points of requested information is discussed, and references to the supporting manual are given to substantiate the requirement.
More informationAppendices. Included in this section are
Appendices Included in this section are Appendix A Building Overview Appendix B Alternative Mechanical Designs Appendix C Integration of Structural System and Constructability 68 Appendix A Building Overview
More informationSingle zone RTU, controlled by a programmable thermostat. Single zone RTU, generic description, with power exhauster
Rooftop Units CV Reheat RTU Reheat Reheat system RTU, serving electric reheat coils, w/dehumidification cycle & RA CO2 override of OAD CV Single Zone RTU SZ (from PC) RTU SZ Generic RTU SZ Multiple Units
More informationStandards and Guidelines. Presented by: Aric Murray December 12, 2014
TDSHS Ventilation Standards and Guidelines Presented by: Aric Murray December 12, 2014 Agenda 1. What are the TDSHS ventilation 1. What are the TDSHS ventilation requirements? 2. Pressure relationships.
More informationISERIES VERTICAL AHU ENGINEERING SPECIFICATIONS
ISERIES VERTICAL AHU ENGINEERING SPECIFICATIONS BULLETIN 20-131.001 Page 1 Copyright 2017 Unico Inc. TABLE OF CONTENTS APPLICATIONS... 3 CABINET CONSTRUCTION... 3 FEATURES AND CONTROLS... 3 DIMENSIONAL
More informationFundamentals of Psychrometrics. By James L. Murphy, Colorado Building Environments Sales Engineer
Fundamentals of Psychrometrics By James L. Murphy, Colorado Building Environments Sales Engineer Let s s Start with Air Air is Made up of Two Main Gases Nitrogen (77%) Oxygen (23%) If that is all there
More informationTEC Controller Terminal Box Controller (VAV) - with Hot Water Reheat, Application Application Note Building Technologies
TEC Controller Terminal Box Controller (VAV) - with Hot Water Reheat, Application 2023 Application Note 140-1052 Building Technologies Table of Contents Overview... 4 Hardware Inputs... 6 Hardware Outputs...
More informationPharmaceutical Facility Design
PhEn-602 Pharmaceutical Facility Design J. Manfredi Notes 9A PhEn-602 J. Manfredi 1 Primary & Secondary HVAC units Primary Primary air handling unit arrangement: One unit is responsible for all of the
More informationELECTRICAL QUANTITY WEIGHT (LB)
VRF SYSTEM INDOOR UNIT ENTERING AIR TEMPERATURES ( F) CAPACITIES (kbtuh) Max SOUND ELECTRICAL WEIGHT TOSHIBA-CARRIER COOLING HEATING Airflow PRESSURE, MARK NO. TYPE ROOM TOTAL SENSIBLE HEATING V / Ø /
More informationTechnical Assignment 3 11/15/04. Executive Summary
Executive Summary This report is an analysis of the existing systems within the Outreach Innovation Building in University Park, PA. One significant design criteria was a lower than average noise criteria
More informationRE: Phase 2 Improvements DATE: July 1, 2016 New Administration Building Wernle Youth & Family Treatment Center 2000 Wernle Road Richmond, Indiana
ADDENDUM NO. 2 RE: Phase 2 Improvements DATE: July 1, 2016 New Administration Building Wernle Youth & Family Treatment Center 2000 Wernle Road Richmond, Indiana TO: All Bidders Gentlemen: This Addendum
More informationSummary Comparison of Simulation Program Features
Summary Comparison of Simulation Program Features FEATURE DOE2.2 equest TRACE 700 HAP Public/Proprietary Public Domain Proprietary Proprietary Proprietary Simulation Method 8760 hours 8760 hours 8760 hours
More informationSubmittal Data Performance Data Electrical Data
ERMS Series Submittal Data Submittal Data Unit Designation: Job name: Architect: Engineer: Contractor: Performance Data Revision: 07/01/11 Cooling Capacity: EER: Heating Capacity: COP: Ambient Air Temp:
More informationChilled Beam and Radiant Cooling Basics. Salt Lake City, UT ASHRAE Chapter December 2013 Nick Searle
Chilled Beam and Radiant Cooling Basics Salt Lake City, UT ASHRAE Chapter December 2013 Nick Searle nsearle@dadanco.com Contents Radiant Ceilings & Chilled Beam Basics Energy & Space Savings First and
More informationEnergy-Efficient Makeup Air Units BY HUGH CROWTHER, P.ENG., MEMBER ASHRAE
This article was published in ASHRAE Journal, March 20145 Copyright 2015 ASHRAE. Posted at www.ashrae.org. This article may not be copied and/or distributed electronically or in paper form without permission
More informationAIR HANDLING SYSTEM RETRO-COMMISSIONING TRENDING ANALYSIS
AIR HANDLING SYSTEM RETRO-COMMISSIONING TRENDING ANALYSIS 1 AIR HANDLING UNIT TRENDS 2 1. The trending charts provided on the following pages prepared as part of a retro-commissioning investigation. The
More informationDecember 6, 2018 Optimizing Solutions through Superior Dehumidification Technology SM
Humidity Control and Heating and Cooling Applications December 6, 2018 Optimizing Solutions through Superior Dehumidification Technology SM Today s Discussion Discussion of cooling, heating and dehumidification
More informationTechnical Assignment 3. Mechanical Systems Existing Conditions Evaluation
Technical Assignment 3 Mechanical Systems Existing Conditions Evaluation The Milton Hershey School New Supply Center Prepared for: William P. Bahnfleth, Ph.D., P.E., Professor Department of Architectural
More informationElectrical Systems Existing Conditions and Building Load Summary Report
The building was constructed a few years ago to act as both a Headquarters and to be a display of what the product they manufacture can accomplish when put to work. The building features both office and
More informationR7DA Series TECHNICAL SPECIFICATIONS. FEATURES and BENEFITS. 6 and 7 ½ Ton DOAS Packaged Gas/Electric Units
TECHNICAL SPECIFICATIONS R7DA Series 6 and 7 ½ Ton DOAS Packaged Gas/Electric Units 5.4 ISMRE Commercial System 81% Steady State Efficiency Standard Features Fits Pre-Existing Curbs High-Efficiency Low
More informationENGINEERING BULLETIN. Overview of Chilled Beam Technology. Purpose. Summary. Theory
Overview of Chilled Beam Technology Purpose Chilled beam technology is new to the United States but has been used in Europe since the 1950 s. Chilled beams can reduce energy costs, improve indoor air quality,
More informationVERTICAL AHU ENGINEERING SPECIFICATIONS BULLETIN
VERTICAL AHU ENGINEERING SPECIFICATIONS BULLETIN 20-019 TABLE OF CONTENTS DESIGN & SPECIFICATIONS...3 APPLICATIONS... 3 CABINET CONSTRUCTION... 3 FEATURES AND CONTROLS... 3 DIMENSIONAL DATA... 5 SPECIFICATIONS...
More informationUFAD and Displacement Ventilation. Dan Int-Hout, FASHRAE Chief Engineer Krueger Richardson, Texas
UFAD and Displacement Ventilation Dan Int-Hout, FASHRAE Chief Engineer Krueger Richardson, Texas UFAD and DV Systems, Objectives: Understand Differences between: Well Mixed, Partially Stratified and Fully
More informationFF1DNA, FF1DNE FAN COIL UNITS. Sizes 018, 024, 030. Form No. PDS FF1D.18.3 FEATURES FF1D
FAN COIL UNITS FF1DNA, FF1DNE Sizes 018, 024, 030 FF1D FEATURES The FF1DNA and FF1DNE Fan Coil units are designed as upflow indoor air handlers for split-system heat pumps and air conditioners. They are
More informationClosing the Gap: Getting Full Performance from Residential Central Air Conditioners. Task 4 - Develop New Climate-Sensitive Air Conditioner
Closing the Gap: Getting Full Performance from Residential Central Air Conditioners Task 4 - Develop New Climate-Sensitive Air Conditioner Simulation Results and Cost Benefit Analysis April 27, 27 Prepared
More informationENERGY COST AND FEATURE REPORT
ENERGY COST AND FEATURE REPORT Building Name: Rating Org.: GREEN DREAM GROUP, LLC ANNUAL ENERGY COSTS Heating $ 565 Cooling $ 0 Water Heating $ 0 Lights & Appliances $ 1402 Photovoltaics $ -189 Service
More informationRelative Humidity in Schools Jim Cummings and Chuck Withers
to Co n tr o l Relative Humidity in Schools Jim Cummings and Chuck Withers SEEC Southern Energy-Efficiency Center Energy Efficient Strategies to Control Relative Humidity in Schools James Cummings and
More information7. MECHANICAL SYSTEM DESIGN
7. MECHANICAL SYSTEM DESIGN The second primary topic of this thesis is to investigate the application of a dedicated outdoor air system (DOAS) to the SLCC. The stated goals for this thesis of improved
More informationPrepared by Advanced Energy Efficiency & Environmental Quality (AE3Q) Kirsten Shaw 1743 S Horne, Ste 100 Mesa, AZ
October 2, 213 City of Apache Junction Residential Energy Audit for: Jack and Laura Stone 17 S Ocotillo Dr Apache Junction, AZ 8512 Prepared by Advanced Energy Efficiency & Environmental Quality (AE3Q)
More informationCapt. Tim s s Duct Design Mythbusters. The bitterness of poor quality is remembered long after the sweetness of low price is forgotten!
Capt. Tim s s Duct Design Mythbusters The bitterness of poor quality is remembered long after the sweetness of low price is forgotten! WHY CARE ABOUT THE DUCTS? Human Comfort Zone (After All, it s s only
More informationC13-Series Engineering Guide
Engineering Guide Effective January 2018 Horizontal Air-Cooled, Water-Cooled, Chilled Water and Heat Pump Contents Product Features............................... 3 Product Options................................
More informationRetrocommissioning Findings Summary: Building X #1 Priority: Major Comfort/Control Problems
IMPORTANT NOTICE: This sample document is provided for instructional purposes only. CCC is not rendering advice concerning any commission project or practices. This document is neither approved nor intended
More informationHVAC 101. The Basics of Heating, Ventilation and Air Conditioning
HVAC 101 The Basics of Heating, Ventilation and Air Conditioning HVAC Heating, Ventilation and Air Conditioning Provides comfort for people Allows humans to exist under adverse conditions. Comfort Comfort
More informationEquipment Specifications and Required Information Quantity Rebate
Rebate not to exceed 50% of the cost of equipment. Recycling rebates qualify for the entire rebate, regardless of the recycling cost. Equipment must be purchased or recycled in 2016. Installed equipment
More informationControl Sequence Number
R Control Sequence Number DIGITAL CONTROLS 9800 24 VAC HOT MON NOTE 1: 24VAC MUST BE EARTH GROUNDED COOLING INPUT HOT AI4 AI5 AI6 24 VAC POWER ANALOG INPUTS PRICE UMCB 24VAC BINARY OUTPUTS HOT B01 B02
More informationSECTION SEQUENCE OF OPERATION FOR HVAC CONTROLS PART 1 GENERAL
SECTION 15910 SEQUENCE OF OPERATION FOR HVAC CONTROLS PART 1 GENERAL 1.1 RELATED DOCUMENTS A. Drawings and general provisions of the Contract, including General and Supplementary Conditions and other Division
More informationI. Introduction and Arrangement
Joseph Firrantello - Mechanical Option Primary Faculty Consultant: Freihaut Laboratory Facility, Eastern Pennsylvania Mechanical Assignment 3 Existing Conditions Report 11.14.03 Executive Summary The purpose
More informationMatt Cooper, PE, BEMP, HBDP, Group 14 Engineering Ken Urbanek, PE, HBDP MKK Consulting Engineers, Inc.
M&V Real Results of High Performance Design Matt Cooper, PE, BEMP, HBDP, Group 14 Engineering Ken Urbanek, PE, HBDP MKK Consulting Engineers, Inc. Overview Measurement & Verification (M&V) Plan for New
More informationTechnical Report Rouse Boulevard. The Navy Yard Philadelphia, PA 19112
Technical Report 1 201 Rouse Boulevard The Navy Yard Philadelphia, PA 19112 Nicholas W. Mattise Option: Mechanical;; Advisor: Dr. Miller September 23, 2013 Nicholas W. Mattise 1 of 22 Contents Executive
More informationPACKAGE AIR CONDITIONER
PACKAGE AIR CONDITIONER FORM NO. ATZ-206 TZAA- HIGH EFFICIENCY SERIES NOMINAL SIZE 10 TON [35.2 kw] 10 TON MODEL [35.2 kw] This product is shipped with a nitrogen holding charge that must be vented prior
More informationMechanical System Redesign. Dedicated Outdoor Air System. Design Criteria
Mechanical System Redesign Dedicated Outdoor Air System Design Criteria The outdoor air conditions used were for Philadelphia, Pennsylvania IAP at a 0.4% occurrence. The supply air conditions were developed
More informationCOMcheck Software Version Review Mechanical Compliance Certificate
COMcheck Software Version 4.0.7.2 Review Mechanical Compliance Certificate Section 1: Project Information Energy Code: 2014 Oregon Energy Efficiency Specialty Code Project Title: Benton County Health Project
More informationVertiCool Aurora Engineering Guide
Engineering Guide Effective August 2016 Air-Cooled, Water-Cooled and Water Source Heat Pump Contents Product Features... 3 Options... 4 Physical Data...5-6 Air-Cooled Performance Data (a) (b) (c)...7-8
More informationAir Handler Unit (AHU) Equipment Purchase and Delivery Invitation to Bid
DATE: February 1, 2018 SUBJECT: Letter of Clarification #2 RE: TO: Air Handler Unit (AHU) Equipment Purchase and Delivery Invitation to Bid All Prospective Bidders Houston First Corporation ( HFC ) issues
More informationArchitectural Alliance Incorporated MDP CONSULTING ENGINEERS, INC N 11th Street Beaumont, TX 77702
04/08/2013 last saved: TRENT plotted: DRAWN BY: TLH CHECKED BY: DWD 04/08/2013 last saved: DMCPHERSON plotted: DRAWN BY: TLH CHECKED BY: DWD 04/08/2013 last saved: DMCPHERSON plotted: DRAWN BY: TLH CHECKED
More information2009 IECC Commercial Mechanical Requirements
BUILDING ENERGY CODES UNIVERSITY 2009 IECC Commercial Mechanical Requirements Ken Baker PNNL-SA-66171 Learning(Objec-ves(( ( 1. Find(minimum(equipment(efficiency(requirements( and(recite(at(least(3(common(terms(for(measuring(
More informationProduct Data. FPMA Sizes 018 thru 036 FPMB Sizes 018 thru 030 Base Series Horizontal Fan Coil
FPMA Sizes 018 thru 036 FPMB Sizes 018 thru 030 Base Series Horizontal Fan Coil A13303 Fig. 1 - FPM(A,B)NU Uncased Horizontal Fan Coil (FPMANU model shown) Fig. 2 - FPM(A,B)NC Cased Horizontal Fan Coil
More informationThe Creative and Performing Arts High School (CAPA) Pittsburgh, PA 11/11/2002 Andrew Tech Mechanical Option Prof. S. A. Mumma
Objectives and Requirements For the Creative and Performing Arts High School (CAPA), the main objective of the mechanical design is to provide an energy efficient system that is easily maintainable and
More informationHVAC Controls Upgrades: Requirement Details ( )
REQUIRED CONTROLS/FEATURES To qualify the upgrade must add or substantially modify 3 or more sequences/system capabilities. Also, all sequences and items listed under the required section are needed in
More informationMetasys Integrator TITUS Application
Metasys Connectivity Technical Manual 629.5 Metasys Integrator Section Application Note Issue Date October 12, 2005 APPLICATION NOTE Metasys Integrator TITUS Application lntroduction Page 3 Application
More informationGil Rossmiller. In the construction industry for over 30 years. ICC IRC Plumbing & Mechanical Code Development Committee
Gil Rossmiller In the construction industry for over 30 years ICC IRC Plumbing & Mechanical Code Development Committee ICC- IECC Commercial Energy Code Development Committee Building Official Parker, Colorado
More informationEMBASSY SERIES SINGLE PACKAGE AIR CONDITIONERS (WATER-COOLED) C2ED060, 090, 120 & 180 5, 7-1/2, 10 & 15 Nominal Tons
560.20-TG1Y (388) EMBASSY SERIES SINGLE PACKAGE AIR CONDITIONERS (WATER-COOLED) C2ED060, 090, 120 & 180 5, 7-1/2, 10 & 15 Nominal Tons Each circuit includes a fully hermetic compressor with a crankcase
More informationReviewing HVAC Designs for Compliance with ACCA Manual S
Reviewing HVAC Designs for Compliance with ACCA Manual S by Wes Davis An approved code change to the 2009 International Residential Code (IRC) clarifies an existing requirement for sizing HVAC equipment:
More informationEvaporative Cooling in a Hot-Dry Climate
Evaporative Cooling in a Hot-Dry Climate David Springer Davis Energy Group SWEEP Workshop July 10, 2007 Sponsors: Clarum Homes California Energy Commission U.S.Department of Energy Issues for Discussion
More information