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ACE, Inc.

1. ACE, Inc. The Father Judge Science Center. Philadelphia, Pennsylvania (Northeast). PROJECT NUMBER: CAE 10 – 2007/08 PRESENTATION DATE : December 5 th , 2007 @ 8:30am TEAM MEMBERS: Julie Coyle, Michael Boland, Mark McShea, Sara Miller, Christopher Renfro. 2. ACE, Inc.

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ACE, Inc.

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  1. 1 ACE, Inc. The Father Judge Science Center Philadelphia, Pennsylvania (Northeast) PROJECT NUMBER:CAE 10 – 2007/08 PRESENTATION DATE: December 5th, 2007 @ 8:30am TEAM MEMBERS:Julie Coyle, Michael Boland, Mark McShea, Sara Miller, Christopher Renfro

  2. 2 ACE, Inc. Background Introduction • Client • Father Judge High School • All-boys – 1,250 • Roman Catholic • Location • Philadelphia, PA • Objective • Introduce New Technologies into the Students’ Curriculum

  3. 3 ACE, Inc. Location

  4. 4 ACE, Inc. Physics Laboratory

  5. 5 ACE, Inc. Physics Prep Room

  6. 6 ACE, Inc. Chemistry Laboratory

  7. 7 ACE, Inc. Chemistry Prep Room

  8. 8 ACE, Inc. Biology Laboratory

  9. 9 ACE, Inc. Lecture Classroom

  10. 10 ACE, Inc. Existing Problems • Current labs inadequate for science programs • Space is tight, no room for large experiments • Clutter due to lack of proper storage space • Biology water supply & electrical outlets no longer function • Fume hood in chemistry lab no longer functional • No air conditioning in the physics laboratory • NEED FOR EXPANSION OF SPACE

  11. 11 ACE, Inc. Site Decision CHOSEN + visible from street, pleasant views – no direct connection to school + ground floor access & displays – Fairmount Park Commission land – not visible from street, blocked views + direct connection to school – no ground floor access or displays + Archdiocese of Philadelphia land

  12. 12 ACE, Inc. Utility Services • City & Pennoni Plans • Water Main = 8 inch • Gas Main = 3 inch • Fire Main = 6 inch • Sewer Main = 18 inch • Electrical Conduit = 3 inch • Telephone & Cable = overheads • NEW DIRECT CONNECTIONS

  13. 13 ACE, Inc. Geotechnical Survey • Boring & Sampling < 50 feet away (McClymont & Rak) • Blows = 99 per foot @ 10 feet • clay, silt-sand, mica • Water Table not reached (low) • SUITABLE FOR DESIGN

  14. 14 ACE, Inc. Traffic Circulation • Typical suburban transportation • 25% walk • 25% drive • 50% SEPTA • lack of spaces • PROVIDE SOME PARKING Building Area Heavy Vehicular Light Vehicular Pedestrian Paths

  15. 15 ACE, Inc. Stormwater Flows • Tough requirements • proximity to Pennypack Creek (DEP) • erosion of steep slope (contours) • CONNECT EXISTING SEWER Building Area Aquatic Bodies Drainage Paths Contour Lines

  16. 16 ACE, Inc. Architectural Program • Curriculum Support • Vocational = 50sf per person • Classrooms = 20sf per person • NET AREA: 14,480sf • Normal Occupants = 250 people

  17. 17 ACE, Inc. Interior Schematics • Circulation = +67% • Gross Area = 24,185sf • Height Limit = 3 stories • Footprint Size = ~8,000sf • DIMENSIONS: 80 feet BY100 feet

  18. 18 ACE, Inc. Exterior Concepts Transparent : Opaque 1 : 1 Solar Array Green Roof Entrance Overhang Many Trees

  19. Provide Father Judge High School with a functional, economical, and safe arrangement of lab and classroom spaces Must be able to adapt to changing technologies and modes of science education 19 ACE, Inc. Structural Goals

  20. Live Loads = 40 psf to 250 psf (IBC 2006) Point Loads = 0 to 3,000 lbs (IBC 2006) Earthquake Load Total Base Shear = ~150 kips (IBC 2006) Total Wind Load = ~30 kips (ASCE 7 – Chapter 6) 20 ACE, Inc. Load Development

  21. Created to help define the goals Predicts challenges of the structural design for architecture of proposed building Calculates the total load the building will face Gives a rough estimate of appropriate member sizes A HEAD START ON WINTER TERM DESIGN 21 ACE, Inc. Structural Program

  22. Total Factored Load = ~3,000 kips Assuming a conservative deflection requirement of L/360 (IBC 2006): Largest moment of inertia (if steel) = 4,000 in4 Spanning the proposed multi-class lecture hall (~50’ bay size) will likely require a small truss system 22 ACE, Inc. Program Output

  23. Bearing Wall Steel Frame Concrete Frame 23 ACE, Inc. Systems Alternatives * FINAL SYSTEM WILL LIKELY BE SOME COMBINATION OF THESE *

  24. 24 ACE, Inc. Mechanical System Design Goals Comfort for Students and Faculty Safety in Laboratories Energy Conservation Applicable Codes: 2006 Versions of IBC, IMC, IECC, IFC, ASHRAE Mechanical Handbook, NFPA 704

  25. 25 ACE, Inc. PROJECT SITE Design Conditions • INDOOR • Winter Design • 72°F for most rooms: Labs, Classrooms, Toilets, Offices, etc. • 68°F for Corridors • 65°F for Storage Rooms • 60°F for Mechanical Rooms • Summer Design • 78°F for all rooms • OUTDOOR • Winter • DB Temperature: 10°F • Summer • DB Temperature: 93°F • WB Temperature: 78°F ~ 52% Humidity

  26. 26 ACE, Inc. Heating, Cooling & Air Supply • Winter • Sensible heat loss, tentative max ≈ 97.8 kBTU/hr • Infiltration & Conduction • Summer • Sensible and latent heat gain, tentative max ≈ 729 kBTU/hr • Conduction, Radiation, Infiltration, Equipment, Occupants & Lighting • Outdoor Air Requirements • 0.15CFM/sf or 20CFM/person (labs), 15CFM/person (other rooms), whichever is greater • Minimum 1CFM/sf Required • Ventilation and Exhaust Requirements • Hazardous Materials • Fume Hoods & Exhaust Fans • Tentative maximum supply air ≈ 31,500 CFM, summer and 11,800 CFM, winter

  27. 27 ACE, Inc. System Alternatives Direct Expansion (DX) Coils Furnace Heating Heating and Cooling Coils Passive Heating and Cooling

  28. 28 ACE, Inc. Electrical Program • Design Goals • Provided the necessary means upon which people are accustomed • Technologically advanced equipment with energy efficient systems • Meet LEED certification

  29. 29 ACE, Inc. Design Consideration • Average Demand • Lighting - 1.1 W/SF (IECC) • Electrical and Mechanical - 3.1 W/SF (NEC) • Variety of lighting schemes • 10-20 fc in corridors • 30 fc in classroom • 50 -100 fc in labs • Emergency Power • Lighting - 0.05 W/SF

  30. 30 ACE, Inc. Electrical Program • System Alternatives • Voltage service system • Light fixtures and receptacles • Uninterruptible power supply • Emergency power systems

  31. 31 ACE, Inc. Electrical Program • Analysis Method • code requirements • NEC • IECC • Hand calculations • eQuest

  32. 32 ACE, Inc. Plumbing Systems • Design Goals • Adequate Water Supply • Quick & Hygienic Sanitary System • Effective Storm Drainage • Criteria • Codes • Philadelphia Plumbing Code • LEED Certification for Schools

  33. 33 ACE, Inc. Water Supply System • Requirements • Minimum Number of Plumbing Fixtures (PPC) • Water Supply Design Loads • Cold Water Totals • 340 w.s.f.u./116 gpm • Hot Water Totals • 33 w.s.f.u./22 gpm • Water Supply Alternatives • 8” Water Main • Recycled Rainwater (LEED) • Hot Water System Alternatives • Gas, Oil or Electric Water Storage Tank • Solar Water Storage Tank (LEED)

  34. 34 ACE, Inc. Sanitary System • Requirements • Liquid Waste Removal • 1.6 Gallons per Flush • Cleanouts < 50ft • Ventilation • Sanitary Design Loads • Total: 220 d.f.u. • 18” Sewer Main • LEED Certification • Waterless Urinals • Low-Consumption Water Closets

  35. 35 ACE, Inc. Fire Protection Systems • Design Goals • Protection of Life • Protection of Property • Continuity of Operation • Criteria • Codes • Philadelphia Amendments to 2006 IFC • Fire Protection Handbook • NFPA 13 • NFPA 72

  36. 36 ACE, Inc. Fire Protection Systems • Requirements (IFC 2006) • 2 Hour Fire-Rated Walls • Type I – Protected • Means of Egress • Sprinklered Common Path Limit – 75 ft • Sprinklered Dead-End Limit – 20 ft • Sprinklered Travel Distance Limit – 200 ft • Automatic Sprinkler Systems • Group E Occupancy over 20,000 sf • Light Hazard – 225 sf coverage • Ordinary Hazard – 130 sf coverage • Smoke Alarms/Signals • Fire Extinguishers – In Laboratories • Monthly Fire and Evacuation Drills

  37. 37 ACE, Inc. Scope of Work INCLUSIONS • Stand-alone building • Basic Laboratories • Specialized Laboratories • Additional Rooms • Site Work, Architecture, Structure/Foundations, Plumbing, Fire Safety, HVAC • Environmental Study • Parking Provisions • Plans, Sections, Details • LEED Silver (33 – 36 points) • EXCLUSIONS • Existing renovations • Vertical transportation • Acoustical Design • Obtaining land from • Penny Pack Park • (owner’s responsibility) • Telecommunications • Natural Gas • Building Controls

  38. 38 ACE, Inc. Fall Schedule

  39. 39 ACE, Inc. Winter Schedule

  40. 40 ACE, Inc. Spring Schedule

  41. 41 ACE, Inc. Cost Estimate • Unit Price = $193 per sf • Building Subtotal = $4.8 million • Building Total = $7.3 million • PROJECT TOTAL = $9.5 million • Design Fee = $1.1 million • Senior Curriculum = $165,000 • TIME TOTAL = 2.3 weeks per person per term

  42. 42 ACE, Inc. Project Budget • Fundraising & Alumni Donations = $3.0 million • Limited to Building Wing Addition • Community Benefit > Monetary Cost • Ideal Science Center Concept • Pick & Choose Features • RECOMMENDED CAPITAL = $10.0 million

  43. 43 ACE, Inc. The End Questions?

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