SMX (Seattle Maritime Experience) ACE Thursday Team #2

Transcription

1 Insert picture here SMX (Seattle Maritime Experience) ACE Thursday Team #2

2 Design Brief Pier 62/63 Seattle Waterfront Budget of $30,000,000 Seattle Waterfront Museum and Education Center Museum Lobby and Gift Shop Educational Space Supporting Spaces Exterior Plaza Flexible Vessel Mooring Display Spaces

3 Presentation Overview Concept Architects Structural Engineers Civil Engineers Mechanical/Electrical Engineers Lighting Contractors

4 Insert picture here Architects Emma, Kalijah, Ky, Katie, Tiffany, Alexis

5 Key Concept Buzz Words i.e. What we HOPE the Project Will Achieve ICONIC Seattle SUSTAINABLE Net Zero FLEXIBLE Multi Purpose ACCESSIBLE Public EDUCATIONAL Buildings That Teach

6 Concept Slide

7 Precedent

8 Site Analysis Diagrams

9 Program

10 Adjacency Diagram

11 Site Massing

12 Concept Sketches

13 Final Sketches

14 Exterior SITE PLAN

15 Exterior

16 Exterior

17 Exterior

18 Exterior River and Seating/Lights

19 Building

20 Building

21 Building

22 Interior

23 Interior Floor plans with legend

24 Interior

25 Interior

26 Interior Museum second level perspective

27 Interior

28 Interior

29 Insert picture here Structural Engineers Michelle, Francois, Elysia, Tuan, Danny, Carlos, Matt, Nanjin

30 What is Structural Engineering? Making a building stay up Support structure under various load conditions Vertical and Horizontal Gravity Earthquake Wind Materials Steel Concrete Wood Beams, column, girders, braces (brace frames)

31 Basis of Design ASCE 7 10 Occupancy Category for our building Category III Loading Dead Per load maps Live Per load maps Snow 15 psf Wind 115 mph (1,700 year storm) Earthquake S S = 1.32 g S 1 = 0.6 g

32 Load Map

33 Load Maps

34 Typical Section Sizes Typical Floor Beam W18 x 35 Typical Roof Girder W36 x 282 Typical Interior Columns W12 x 87

35 Framing Plans Level 1

36 Framing Plans Level 2

37 Elevation

38 Pedestrian Bridge

39 Pedestrian Bridge

40 Pedestrian Bridge

41 Insert picture here Civil Engineers Kevin, Ben

42 Civil Goals Net Zero Water Meet Seattle City Codes Green Storm water Infrastructure

43 Objectives Capture Rainwater for Potable Reuse Water feature Treat Blackwater and Greywater for Non potable Reuse Toilet flushing Sizing MBR TreatmentSystem Design a Green Roof to Assist Rainwater Management

44 Rainwater Capture Rainwater for Potable Reuse Vortex Filter 5 Micron Filters UV

45 Blackwater and Greywater

46 Calculation Method

47 Calculation Method

48 MBR Sizing 3500 GPD GPD = GPD

49 Green Roof

50 Results

51 Results

52 Results

53 Sources: content/uploads/greeninfrastructure.bmp KNEY%20KOI%20FILTERS/f10000vcutaway.jpg.html content/uploads/2013/09/trcpone.jpg green roof ion3/3 6%20Keaney.pdf / / / / / Green Roof.jpg

54 Insert picture here Mechanical/Electrical Engineers Aisse, Rebecca, Tony

55 Mechanical System Overview Heating Source Solar Hot Water Panels Cooling Sources Air Cooled Chiller Puget Sound Temperature Control Ground Source Heat Pump System Ventilation Operable Windows Ddi Dedicated doutside Air Unit

56 Operable Windows Used for outside air and temperature adjustment Limited by outdoor air temperature and weather Supplemental to dedicated outside air unit Controlled by temperature sensors with manual override by building staff

57 Solar Hot Water Panels Centrally located on roof of pedestrian skybridge Heating water source to heat pump system Supplies heating water loops to both buildings Hot water storage tank

58 Ground Source Heat Pump System Basis of Design Trane Axiom Utilizes Puget Sound as cooling source Heat pump heats or cools air prior supplying to space Separate heating/cooling water loops

59 Power Distribution Two Buildings, Single 1200A Service Distribution identified to serve Mechanical, Plug Load, Exterior and Interior Lighting Sizing based on benchmark power densities

60 Power Distribution UTILITY (SEATTLE CITY LIGHT) 14,700/7,200V TYPICAL HOUSE 240/120V 240V: HEATER, RANGE, DRYER. UTILIZATION VOLTAGES 120V: LIGHTS, RECEPTACLES, WASHER, KITCHEN APPLIANCES, COMPUTERS, TV S, ETC. COMMERCIAL BUILDING 480/277V & 208/120V 480V: LARGE MECHANICAL LOADS (FANS, PUMPS, HEATING EQUIP) 277V: LIGHTING 208V: MECHANICAL EQUIPMENT 120V: LIGHTING, RECEPTACLES, COMPUTERS, ETC.

61 Photovoltaic System PV cells will cover rooftop of one building Connects into building power distribution Goal: Net Zero Energy Energy Use Intensity (EUI) of ,500 kwh/year 200 kw peak 580 PV cells 12,000 square feet of PV array required 24,000 lbs

62 Insert picture here Lighting g Tony

63 Lighting Overview

64 Featured Spaces Interior Skyspace Lobby Winter Garden

65 Featured Spaces Exterior Courtyard

66 Control and Intent

67 Insert picture here Contractors Blake, Matt, Cole

68 Logistics

69 SCHEDULING

70 ACE Thursday Team 2 Pier 62/63 Waterfront Museum

71 Estimate:

72

73 Thank you!