1 / 31

HALF MOONE CRUISE & CELEBRATION CENTER

HALF MOONE CRUISE & CELEBRATION CENTER. Jonathan Walker Lighting / Electrical Option 4/15/09. Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion. Jonathan C. Walker. Personal Information. Internship Clark Nexsen full-time.

sidney
Télécharger la présentation

HALF MOONE CRUISE & CELEBRATION CENTER

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. HALF MOONE CRUISE & CELEBRATION CENTER Jonathan Walker Lighting / Electrical Option 4/15/09 Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  2. Personal Information • Internship • Clark Nexsen full-time Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  3. Building and Site Information • Norfolk, Virginia • 89,000 SF • $21 million • 2 levels • Built on pier • Near Town Point Park Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  4. Architectural Context • Large multi-purpose space • Cruise terminal • Relate to the Nauticus Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  5. Lighting Redesign • Lobby (5,300 SF) • Façade • Conference Room (2,500 SF) • Waiting Area / Ticket Queuing (12,000 SF) Façade Conference Waiting Area / Ticket Queuing Lobby Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  6. Lobby Lighting • Design Criteria • Illuminance: 5 fc • Transition space from outside to inside • Accent displays on northwest wall • High CRI • Psychological Aspects: spacious feeling • Controls: scene settings Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  7. Lobby Lighting Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  8. Lobby Lighting Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  9. Lobby Lighting Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  10. Lobby Lighting Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  11. Lobby Lighting Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  12. Lobby Lighting Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  13. Façade Lighting • Design Criteria • Illuminance: Not critical • Avoid visual clutter • Emphasize architectural and structural elements • Transparency to Lobby Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  14. Façade Lighting • Design Criteria • Illuminance: Not critical • Avoid visual clutter • Emphasize architectural and structural elements • Transparency to Lobby Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  15. Lighting Redesign • Lobby (5,300 SF) • Façade • Conference Room (2,500 SF) • Waiting Area / Ticket Queuing (12,000 SF) Facade Conference Waiting Area / Ticket Queuing Lobby Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  16. Conference Lighting • Design Criteria • Illuminance: 30 fc • Video performance • Psychological Aspects: pleasantness • Visual clarity • Controls Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  17. Conference Lighting • Design Criteria • Illuminance: 30 fc • Video performance • Psychological Aspects: pleasantness • Visual clarity • Controls Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  18. Conference Lighting Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  19. Lighting Redesign • Lobby (5,300 SF) • Façade • Conference Room (2,500 SF) • Waiting Area / Ticket Queuing (12,000 SF) Facade Conference Waiting Area / Ticket Queuing Lobby Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  20. Waiting Area / Ticket Queuing Lighting • Design Criteria • Illuminance: 30 fc • Psychological Aspects: spacious and pleasant • High CRI, medium CCT • Daylight • Controls Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  21. Waiting Area / Ticket Queuing Lighting Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  22. Waiting Area / Ticket Queuing Lighting • Design Criteria • Illuminance: 30 fc • Psychological Aspects: spacious and pleasant • High CRI, medium CCT • Daylight • Controls Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  23. Waiting Area / Ticket Queuing Lighting • Daylighting • 15 skylights • Lighting & Electrical impact • Mechanical impact • Structural impact Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  24. Waiting Area / Ticket Queuing – Mechanical Analysis • Scenario #1 • (existing roof only) • Scenario #2 • (existing roof + new skylights) • Heat Transfer • Heat Transfer • Heat Transfer • Solar Radiation Roof Roof Skylight Roof Roof: q=U*A*(CLTD) + Skylight: q(cond) = U*A*(CLTD) + Skylight: q=A*SC*SCL Roof: q=U*A*(CLTD) q = cooling load (W) U = U-value (W/m2K) A = Area (m2) CLTD = Cooling Load Temperature Differences (K) SC = Shading Coefficient of Skylight (unitless) SCL = Solar Cooling Load (W/ m2) Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  25. Waiting Area / Ticket Queuing – Mechanical Analysis • At 100%, lighting power is 9,486 watts • Skylights should be added to this space. Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  26. Waiting Area / Ticket Queuing – Structural Analysis • Structurally acceptable, as modeled • No significant additional structural elements necessary Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  27. Electrical Redesign: Panelboards Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  28. Electrical Analysis – Feeder Comparison: Copper versus Aluminum • Less cost for Aluminum feeders • Expansion properties affect connections Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  29. Conclusion: Lighting of 4 Spaces • Dynamic Environment • Versatile • Reduction in power consumption Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  30. Conclusion: Skylight Impact on Mechanical and Structural Systems • Skylights • Cost and energy savings from skylights • No significant additional structural elements necessary • Creates dynamic environment Roof Skylight Roof Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

  31. Conclusion: Skylight Impact on Mechanical and Structural Systems • Special thanks to: • Clark Nexsen • Scott Schwerin and Dan Rusnack • Penn State Department of Architectural Engineering • Professors Mistrick, Houser, Dannerth • Family and Friends Questions? Introduction | Lighting | Mechanical | Structural| Electrical | Conclusion Jonathan C. Walker

More Related