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151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions 151 First Side Pittsburgh, PA.

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Presentation on theme: "151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions 151 First Side Pittsburgh, PA."— Presentation transcript:

1 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions 151 First Side Pittsburgh, PA William J. Buchko Structural Option Senior Thesis April 14 th, 2008 Advisor: Kevin Parfitt introduction

2 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Presentation Outline  Overview  Proposal  Structural Depth  Acoustics Breadth  Construction Management Breadth  Conclusions  Acknowledgements and Dedication  Questions introduction

3 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Overview  Location: Pittsburgh, PA  Significance: First condominium built downtown since 1968  Architecture: 18 stories 82 units Open floor plan 233,000 SF overview

4 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Overview  Mechanical: 36.7 Ton roof top unit by AAON Individual heat pumps  Electrical: 120/208 3 phase system 1800a main switch  Lighting: Incandescent downlights in units Fluorescent downlights and wall washers in corridors and public areas overview

5 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Overview  Construction: $24M construction cost Owned by Zambrano Corp., Ralph A. Falbo, Inc., and EQA Landmark Communities Design-build construction  Structural: Hambro composite joist floor system Braced frame and moment connection lateral system overview

6 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Proposal  Structural Depth Decrease cost and increase performance by using typical structural systems  Acoustics Breadth Analyze proposed systems and check existing systems for acoustical quality  Construction Management Breadth Analyze and compare proposed systems to current systems proposal

7 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Structural Depth  Floor System Current Hambro MD2000 composite joist system compared to a typical composite beam system  Lateral System Current combination braced frame and moment connection system compared to concrete core, braced frame, and moment connection systems structural depth

8 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Structural Depth  Current Hambro floor system 3¼” concrete on metal decking Supported by joist with composite top chord structural depth

9 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Structural Depth  Proposed composite steel system 4” light weight concrete on B-LOK decking with 1 stud/ft Beams placed at third points of bays structural depth

10 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Structural Depth Typical floor beam layout and design structural depth

11 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Structural Depth Column redesign structural depth

12 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Structural Depth  Current lateral system Combination of braced frames and moment connections structural depth

13 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Structural Depth Frames long grids 2, 3, and 4 in north-south direction structural depth

14 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Structural Depth Frames long grids E and F in east-west direction structural depth

15 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Structural Depth  Concrete core lateral system Utilizes concrete core to handle all lateral loading Unacceptable due to interaction of trades structural depth

16 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Structural Depth  Braced frame lateral system Utilizes braced frames for all lateral loading Quicker installation Low torsion due to design Unacceptable due to diagonal braces within floor plan structural depth

17 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Structural Depth Proposed braced frame layout structural depth

18 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Structural Depth  Moment connection lateral system Utilizes moment connections for all lateral loading Fully restrained connections recommended for greater than 10 stories Unacceptable due to cost and scheduling of fully restrained connections structural depth

19 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Acoustics Breadth  Floor system Compare current Hambro system to proposed composite beam system  Mechanical system Analyze current issues and provide alternative solutions acoustics breadth

20 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Acoustics Breadth  Current Hambro floor system STC of 57 IIC of 30 Susceptible to structure born sound Susceptible to “wave” phenomenon acoustics breadth

21 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Acoustics Breadth  Proposed beam floor system STC of 55 IIC of 35 Potential for better low end absorption Not susceptible to “wave” phenomenon acoustics breadth

22 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Acoustics Breadth  Mechanical system Roof top unit in direct line of sight with penthouse terraces Most common complaint from workers and potential tenants acoustics breadth

23 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Acoustics Breadth  Existing sound levels AAON representative unable or unwilling to provide acoustical data Data obtained through IVIE IE-33 Pocket PC and similar unit Values were confirmed by 3 rd party acoustician acoustics breadth

24 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Acoustics Breadth IVIE IE-33 Graph acoustics breadth

25 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Acoustics Breadth  Proposed solutions Acoustical barrier would only provide 6dB reduction System can be relocated to minimize sound levels on terraces acoustics breadth

26 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Acoustics Breadth Proposed roof top unit relocation acoustics breadth

27 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Acoustics Breadth  Relocation effects 30ft gives 15dB reduction Nosier supply intake now faces away from all occupied spaces Two walls separate unit from terraces, adding approximately 20dB of reduction Total reduction of approximately 40dB, putting the terrace at an acceptable sound level acoustics breadth

28 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Construction Management Breadth  Schedule Compare scheduling impacts of proposed systems both on and off of the critical path  Cost Compare cost of proposed systems to current systems cm breadth

29 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Construction Management Breadth  Schedule Steel placement takes 177 days and is unaffected by floor system change Pouring of proposed floor system would save a minimum of 1 day per floor, though not on the critical path A potential 10 days could be saved through fire protection, though not on the critical path The braced frame lateral system could save 5 days along critical path, but was found to be unacceptable cm breadth

30 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Construction Management Breadth  Cost Larger slab and more expensive concrete offset with cheaper steel, resulting in a similar cost between floor systems Redesign of columns and beams save 131 Tons of steel, which saves approximately $228,000 Labor savings estimated at approximately $30,000 Potential system savings of 1-2% of total building cost cm breadth

31 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Conclusions  Structural Depth A composite beam floor system would be both feasible and economical to use No better lateral system was found  Acoustics Breadth A composite beam floor system could provide equal acoustical qualities Mechanical system can be moved to provide a better sound level on outdoor terraces  Construction Management Breadth All proposed systems could be implemented without a change in the critical path All proposed systems would be similar in cost or less expensive conclusions

32 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Acknowledgements I would like to thank the following companies and individuals:  Zambrano Corp.  The Kachele Group  Indovina Associates Architects  Hambro Systems  Cenkner Engineering Associates, Inc.  Professor Kevin Parfitt  Professor Moses Ling  The Thesis Mentors  Family and friends for their support and understanding conclusions

33 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Dedication This Thesis presentation and year long project is dedicated to the memory of: Nicholas Buchko 9/15/15 – 12/6/06 “Never give up.” conclusions

34 151 First Side William J. Buchko introduction overview proposal structural depth acoustics breadth cm breadth conclusions Questions? conclusions

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