1 / 39

The Central Team

The Central Team. Ben Thompson. Ryan Sawasaki. Kevin Nadolny. Lan Yu. Holger Keitel. Joanna Lennartsson. Linda Strömgren. 1. 2. 4. Flying Box. 6. Flying Box. 7. Flying Box. 8. Flying Box. 9. Flying Box. 10. Flying Box. 11. 12. Flying Box – 1st structural system - Floorplan

anja
Télécharger la présentation

The Central Team

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. The Central Team Ben Thompson Ryan Sawasaki Kevin Nadolny Lan Yu Holger Keitel Joanna Lennartsson Linda Strömgren 1

  2. 2

  3. 4

  4. Flying Box 6

  5. Flying Box 7

  6. Flying Box 8

  7. Flying Box 9

  8. Flying Box 10

  9. Flying Box 11

  10. 12

  11. Flying Box – 1st structural system - Floorplan - steel construction with pile foundation - concrete slab, use of composite beams N 13

  12. Flying Box – 1st structural system – Section A-A - perimeter MRF for lateral loads - use of base isolation to decrease lateral loads 14

  13. Flying Box – 2nd structural system - Floorplan - Cast in Place Concrete Construction 15

  14. 17

  15. Boxes in Forest 19

  16. Boxes in Forest 20

  17. Boxes in Forest 21

  18. Boxes in Forest 22

  19. Boxes in Forest 23

  20. Boxes in Forest 24

  21. Boxes in Forest 26

  22. Boxes in Forest – 1st Structural Concept - Reinforced concrete 29

  23. Boxes in Forest – 1st Structural Concept - Reinforced concrete 30

  24. Boxes in Forests – 2nd structural design – Second Floor Plan - Cloumns and beams layout - “Forests“ location need to be adjusted 33

  25. Boxes in Forests – 2nd structural design – Third Floor Plan - Customize the elements - Eccentric center of stiffness 34

  26. Boxes in Forest – Auditorium - candilevered auditorium - truss construction, pile foundation W 16x57 W 14x34 W 14x74 N W 14x34 36

  27. Boxes in Forest – Auditorium - Roof - cable construction to reduce the steel amount - bay size is 50 ft cable W 16x57 W 14x26 37

  28. Access for workers – before morning transit Site offices Recycling area Cranes Dry material storage Material storage Access for materials – least disturbing for on campus activities 38

  29. Structural System Cost Comparison – Concept 1 “Flying Box” Construction permit fee Total permit fee is $ 108 000 Fees included in the estimate: fire hydrant fee, sewer fee, arts development fees, LAUSD developer fees, dwelling unit tax and utility connection. 39

  30. Cooling Load Estimate • “Rule of Thumb”: 1 Ton/400 SF • Required Airflow: • Main Duct Run: 40” f for low pressure • Equivalent to 76”x19”, 60”x24”, 37”x37” • Horizontal Duct Run each floor: 28” f for low pressure • Equivalent to 29”x23”, 56”x14” 41

  31. Say 2’ for access 18” min 6’-9” 37” 37” 5’-3” 32’ Electrical Equipment Hot Water heater 22’ AHU: 9.6’ x 28’ x 6.01’high Mechanical shaft sizing Minimum area for mechanical shaft 6.75’x5.25’ = 35.5 SF Mechanical room sizing Plumbing Mech Room 32’x22’ = 704 SF 42

  32. HVAC System • Conventional System Option • Under-floor Passive Distribution System Option • Energy savings • Less ductwork • Easier maintenance 43

  33. Elevator Gen2™ with Remote Elevator Monitoring (REM ®) Low energy consumption Low speed Reduce need for maintenance by no switches, no gear-weel, no oil use. Only reusable components. Encourage usage of the stairs– fewer users –less mechanical wear Excavation depth:47” (1,2 m) below finished slab Top height: 138” (3,5 m) above top slab – space for mechanical and emergency operations Dimensions: Door opening = 38” (900 mm ) 66” x 99” (1670 x 2520 mm) including construction tolerance Costs: $50 000 (installation not included) 44

  34. Energy demand • Reduce energy consumption • Few large Air Handling Units • Low speed • Conformity regarding components • Energy Demand • 145 kBtu/SF for University Bldgs (1995 DOE Data)1,300,000 kWh/year • Peak Energy Demand • 9.33 W/SF (75th percentile 1995 DOE data) • With 4% annual growth: Total 2015 Peak Energy Demand = 500kW 45

  35. Geothermal Energy Solar Energy • Solar Supply = 12 W/SF • For 50% of roof area, max available solar energy = 180 kW, or 36% of estimated peak energy demand. • @ $6/W, 500 kW of solar energy installed = $3,000,000, 42,000 SF!! • @ $6/W, 180 kW of solar energy installed = $1,080,000 • $3/W Rebate (CA Energy Commission) • Total installed cost = $540,000 • Energy savings as high as $25,000/year Our site is not very suitable for geothermal energy Source: California Energy Commission “Preliminary Renewable Resource Assessment,” July 2003 46

  36. Other Green Concepts– LEED requirements • Reusable materials • Recycling • Prefered use of bio-mass materials • Low VOC • Low contamination • Green Roof • Cut cooling costs 20-30% • Stormwater, aesthetics, acoustics • Waste heat recovery • Thermal storage in building mass • Climate façade • IR reflective coatings/paint • Hybrid Solar Lighting • Low-flow plumbing fixtures • Grey-water recycling • Storm water control – native plant landscaping 47

  37. 49

  38. Green funding • Public Interest Energy Research Program (PIER)  California Energy Commission (solar energy) • Environmental Protection Agency (EPA) Drinking Water State Revolving Fund (green roofs) • Renewable Resources Trust Fund Emerging Renewables Program (solar energy) 48

More Related