Jonathan Goodroad Structural Option 2005 Thesis Penn State AE Delaware State University Administration and Student Services Building.

Slides:



Advertisements
Similar presentations
The Optimus Signature Boutique Offices, India AE Senior Thesis 2013 Punit G. Das | Structural Option Faculty Advisor: Dr. Linda Hanagan.
Advertisements

Reinforced Concrete Design-8
Lecture 33 - Design of Two-Way Floor Slab System
Fraser Centre State College, PA Tyler Strange Structural Option Consultant: Dr. Thomas Boothby April 13, 2011 Tyler StrangeStructural Option Fraser Centre.
Carl Hubben – Structural Option Ae senior thesis Office Building-G EASTERN UNITED STATES.
MICA GATEWAY RESIDENCE BALTIMORE, MARYLAND SCOTT MOLONGOSKI SENIOR THESIS STRUCTURAL OPTION ADVISOR: PROFESSOR SUSTERSIC.
Jeremiah Ergas AE 482 – 5 th Year Senior Thesis Structural Option April 15 th, 2008 Faculty Consultant: Dr. Ali Memari Northside Piers – Brooklyn, NY Structural.
A Medical Office Building For The Primary Health Network Daniel Goff I Structural Option Dr. Thomas Boothby l Faculty Advisor Sharon, Pennsylvania Source:
Milton S. Hershey Medical Center Biomedical Research Building Joshua Zolko, Structural Option.
Penn State Hershey Medical Center Children’s Hospital Hershey, Pennsylvania Matthew Vandersall Structural Option AE Senior Thesis Dr. Richard Behr.
The University Sciences Building Northeast, USA Final Presentation Chris Dunlay Structural Option Dr. Boothby.
OVERLOOK TOWERS AT DULLES CORNER HERNDON, VIRGINIA Anthony Perrotta AE Senior Thesis – Structural Option.
University Health Building Thesis Final Presentation
Hershey Academic Support Center Structural Option Shawn Jones Building Analysis of the Hershey Academic Support Center Hershey, PA Shawn Jones Structural.
Courtesy of Holbert Apple Associates Georgia Avenue Building Introduction Statistics Gravity System Lateral System Problem Statement & Solution.
LOCKWOOD PLACE BALTIMORE, MARYLAND Monica Steckroth- Structural Option.
George Read Hall The University of Delaware
Reading Structural Drawings
Rockville Metro Plaza II Rockville Pike John Vais | Structural Option PSU AE Senior Thesis 2014 Faculty Advisor – Dr. Hanagan Rockville, Maryland
Hershey Research Park Building One Jonathan Krepps Structural Option Senior Thesis 2013 Faculty Advisor: Dr. Hanagan.
Nick Szakelyhidi Structural Option Office Building Washington, DC Nick Szakelyhidi Structural Option.
GARY NEWMAN STRUCTURES OPTION ADVISOR: DR. HANAGAN SENIOR THESIS PRESENTATION SPRING 2008.
TYPICAL member spot checks & alternate systems design study
AMERICAN EAGLE OUTFITTERS Quantum II Corporate Headquarters Michael Sandretto Spring – 2007 Structural Option.
Southeast View of IRMC West View of IRMC. Presentation Outline Introduction Existing Structure Thesis Goals Structural Depth Lighting Breadth Conclusion.
BRYAN DARRIN SENIOR THESIS PRESENTATION MILLENNIUM HALL DREXEL CAMPUS PHILADELPHIA, PA.
Structural System Redesign Existing Conditions Proposal Gravity Design Lateral Design Cost Comparison Schedule Impact Conclusions.
Final Thesis Presentation Washingtonian Center Lee ResslerApril 15, 2008 Faculty Advisor: Dr. Memari.
Duquesne University Forbes Expansion
The Odyssey Condominium Aaron Snyder Arlington, Virginia
SEAN BEVILLE STRUCTURAL OPTION ADVISOR: PROF. BOOTHBY APRIL 13, 2009 TEMECULA MEDICAL CENTER “STRUCTURAL SYSTEM OPTIMIZATION” THE DEPARTMENT OF ARCHITECTURAL.
Lancaster, PA Courtyard by Marriott Danielle Shetler - Structural Option Senior Thesis - Spring 2005.
300 North La Salle Liam McNamara BAE / MAE Senior Thesis April 13 th, 2010.
Helios Plaza Houston, TX Advisor - Dr. Hanagan Kevin Zinsmeister Structural Option.
The Towers at the City College of New York Robin Scaramastro - Structural Option - Advisor: Dr. Memari Senior Thesis Final Presentation – Spring 2007.
URS – ARENA DISTRICT OFFICE BUILDING DAVID LEE STRUCTURAL OPTION.
Lexington II at Market Square North, Washington D.C. Alexis Pacella – Structural Option.
Dan Donecker BAE/MAE – Structural Option Senior Thesis Project 35 West 21 st Street New York, New York.
Howard County General Hospital Patient Tower Addition Columbia, MD Kelly M. Dooley Penn State Architectural Engineering Structural Option.
Ryan Pletz Structural Dr. Hanagan The Pennsylvania State University Department of Architectural Engineering Senior Thesis April 14, 2008.
Welcome to Daniel Painter’s Architectural Engineering Senior Thesis Presentation of Two Freedom Square April 16, 2003 Pennsylvania State University.
Signal Hill Professional Center: Implementing a Concrete Structural System Joseph Henry,Structural Option Dr. Linda Hanagan, Advisor Penn State Architectural.
Senior Thesis 2006 The Pennsylvania State University
T IMOTHY H P ARK – S TRUCTURAL O PTION. Building Summary Current Systems Proposal Description Gravity Lateral Other Structural Factors Breadth Options.
Brad Oliver – Structural Option Advisor – Professor Memari.
Oklahoma University Children’s Medical Office Building Oklahoma City, Oklahoma AE Senior Thesis Final Report April 14, 2014 Jonathan Ebersole Structural.
Fordham Place Bronx, NY Aric Heffelfinger Structural Option Spring 2006.
Justin Purcell Structural Option Advisor: Dr. Hanagan.
Computer Associates International, Regional Office
Park Potomac Office Building “E” Kyle Wagner l Structural Option AE Senior Thesis l Spring 2010 Faculty Consultant l Prof. Kevin Parfitt.
Eastern USA University Academic Center Alexander AltemoseIStructural Option.
SteelStacks Performing Arts Center Sarah Bednarcik | Structural BAE/MAE Faculty Advisors: Dr. Linda Hanagan & Dr. Ali Memari Spring Thesis 2013Bethlehem,
Chagrin Highlands Building One Beechwood, Ohio Branden J. Ellenberger - Structural Option Senior Thesis 2004.
Michael A. Troxell Structural Option Senior Thesis 2006 The College of Business Administration Northern Arizona University Flagstaff, Arizona.
Biobehavioral Health Building The Pennsylvania State University Daniel Bodde Structural Option Advisor – Heather Sustersic.
John Pillar Hampton Inn & Suites National Harbor, Md Advisor: Dr. Memari Distinguished Speaker Series, Spring 2007.
Arlington Gateway Hotel 801 North Glebe Road Arlington, Virginia Michael Gray Penn State University AE Senior Thesis Presentation 2005.
William W. Wilkins Professional Building Columbus, Ohio Michelle Benoit Senior Thesis Presentation Spring 2007 Structural Option.
Albany Medical Center Patient Pavilion Albany, Ny Thomas J. Kleinosky – Structural Senior Thesis 2012 | Advisor: Dr. Hanagan.
Structural Systems Design for a Laramie Office Building
CBD Chemical Production Building Virginia, USA Christina DiPaolo │ Structural Option.
R. Bryan Peiffer– Structural Option AE Senior Thesis 2011 Three PNC Plaza, Pittsburgh Pa.
Pearl Condominiums Philadelphia, PA
CONDOMINIUM TOWER & PARKING
Advisor: Professor M. Kevin Parfitt
Agricultural Hall and Annex Easting Lansing, MI
Introduction James W. & Frances G. McGlothlin Medical Education Center
Outline Introduction Structural Redesign Gravity System
Ryan Johnson - Structural Option
North Shore at Canton The Pennsylvania State University
Presentation transcript:

Jonathan Goodroad Structural Option 2005 Thesis Penn State AE Delaware State University Administration and Student Services Building

DSU Administration Building 4-Story Office Building 4-Story Office Building 88,600 SF 88,600 SF Southeast corner of DSU campus Southeast corner of DSU campus

Outline Building Background Building Background –General –Architecture –Existing Structure Depth Study – Redesign with Two-way Flat Plate System Depth Study – Redesign with Two-way Flat Plate System –Redesign Proposal –Gravity System –Lateral System –Building Impact –System Comparisons Breadth Study – Construction Issues Breadth Study – Construction Issues Breadth Study – Mechanical Loading Analysis Breadth Study – Mechanical Loading Analysis Conclusions Conclusions Acknowledgements Acknowledgements Questions Questions

Outline Building Background Building Background –General –Architecture –Existing Structure Depth Study – Redesign with Two-way Flat Plate System Depth Study – Redesign with Two-way Flat Plate System –Redesign Proposal –Gravity System –Lateral System –Building Impact –System Comparisons Breadth Study – Construction Issues Breadth Study – Construction Issues Breadth Study – Mechanical Loading Analysis Breadth Study – Mechanical Loading Analysis Conclusions Conclusions Acknowledgements Acknowledgements Questions Questions

Building Background Location: Dover, Delaware Location: Dover, Delaware Cost: $17.5 million Cost: $17.5 million Project Team: Project Team: – –Owner: Delaware State University – –Architect: H2L2 Architects – –Civil Engineer: George, Miles and Buhr, LLP – –Landscape Architect: Synterra – –Structural Engineer: CVM Engineers – –MEP Engineer: Mark Ulrick Engineers – –Construction Manager: EDiS

Building Background Architecture Architecture Vertical Circulation Lounge Area Offices Entrance Area Vertical Circulation

Building Background East portion w/ basement + 4 stories + mechanical penthouse East portion w/ basement + 4 stories + mechanical penthouse West portion w/ single-story offices and 2- story atrium West portion w/ single-story offices and 2- story atrium

Building Background Existing Structure Existing Structure –Gravity  Composite steel beam with reinforced concrete slab on composite deck  3” concrete slab on 2 ½” 20 gage deck  Alternating 28’ x21’4” and 28’ x22’8” typical bays  Typical W16x26 beams  Typical W24x55 girders

Building Background Existing Structure Existing Structure –Lateral  Semi-rigid moment connections  Masonry shear walls around elevators

Existing Structure Existing Structure –Foundation  East portion uses 24” mat foundation  West portion slab on grade with square footings  Piers around perimeter of entire footprint  Grade beam around perimeter of slab on grade  Wide grade beam down center of mat

Outline Building Background Building Background –General –Architecture –Existing Structure Depth Study – Redesign with Two-way Flat Plate System Depth Study – Redesign with Two-way Flat Plate System –Redesign Proposal –Gravity System –Lateral System –Building Impact –System Comparisons Breadth Study – Construction Issues Breadth Study – Construction Issues Breadth Study – Mechanical Loading Analysis Breadth Study – Mechanical Loading Analysis Conclusions Conclusions Acknowledgements Acknowledgements Questions Questions

Depth Study Redesign Proposal Redesign Proposal –Change from steel frame system to cast-in- place reinforced two-way flat plate system –Exploration of the concrete design process –Compare feasibility differences between the two systems

Depth Study Gravity System Gravity System Design Goals:  Uniform bay sizes  Consistent column dimensions –Floor to floor –Across floor plan  Limited effect on architecture –Space dimensions –Travel penetrations Design Guides:  IBC 2003  ACI Design Analyses:  Equivalent Frame Analysis  ADOSS  ETABS

Depth Study Gravity System Gravity SystemLoads: Floor Dead20 psf Roof Dead20psf Exterior Wall1.4 klf Conc. Weight145 pcf Floor Live100 psf Snow Load20 psf Materials: 4000 psi concrete psi reinforcing

Depth Study Gravity System Gravity SystemDesign:Slabs –ADOSS used for design –12” flat plate slab –#5’s and #7’s

Depth Study Gravity System Gravity SystemDesign:Columns –ETABS used for load determination –22”x 22” columns –Most longitudinal reinforcing controlled by minimum steel requirements  Interior basement level excluded –Used 4 #10’s in most and 4 #18’s in basement interior columns

Depth Study Gravity System Gravity SystemDesign:Columns Shear stud strips provide necessary reinforcement around column areas with high shear stress Max shear stress = 253 psi

Depth Study Lateral System Lateral System Design Goals –Reinforced concrete shear walls used in vertical opening locations  2 elevators and 1 mechanical shaft –Integrate columns as boundary elements where possible Design Guides:  IBC 2003  ACI  ASCE 7-02

Depth Study Lateral System Lateral System –Wind Load:  Determined from IBC 2003  Exposure Category C  Basic Wind Speed = 90 mph  Importance Factor = 1.15 (Category III)  Base Shear =303 kips

Depth Study Lateral System Lateral System –Seismic Load:  Determined with IBC 2003 (Chapter 16), ACI (Chapter 21), and ASCE 7-02 Base Shear = 747 kips

Depth Study Lateral System Lateral SystemDesign: Shear walls –Seismic loading governs –Stiffness analysis used for wall load determination –ETABS used for strength and deflection analysis

Depth Study Lateral System Lateral SystemDesign:  Flexural steel determined with minimum requirements  Max steel ratio noted  Longitudinal spacing accounted for  Transverse steel spaced at 6”  Shear reinforcement spaced at 6”

Depth Study Lateral System Lateral SystemDesign: Required Steel (worst case for E-W direction)

Depth Study Building Impact Building Impact –Building weight greatly increased  Expensive existing foundation may not have capacity to expand on questionable soil –Thickness of shear walls may intrude upon corridor spaces –Floor to floor height reduced by 2’ per floor, overall building height reduced –Fire rating of 4 hours for concrete, no spray on fireproofing required

Depth Study System Comparison System Comparison –Steel system cost approximately $1.5 million –Concrete system cost approximately $1.9 million –Concrete requires little lead time –Steel construction more precise –Steel system can be fabricated in any temperature  Concrete requires warmer temperatures

Outline Building Background Building Background –General –Architecture –Existing Structure Depth Study – Redesign with Two-way Flat Plate System Depth Study – Redesign with Two-way Flat Plate System –Redesign Proposal –Gravity System –Lateral System –Building Impact –System Comparisons Breadth Study – Construction Issues Breadth Study – Construction Issues Breadth Study – Mechanical Loading Analysis Breadth Study – Mechanical Loading Analysis Conclusions Conclusions Acknowledgements Acknowledgements Questions Questions

Breadth Study Construction Issues Construction Issues –Concrete construction  Uniform bays allows for faster floor cycle with consistent formwork –Use of flying forms allows for this  Consistent column dimensions add to ease of erection –Rebar changes, dimensions do not  Use of #18 bars in basement columns –Requires crane for placement  Smaller bars may be better choice  Shear stud strips –Reduces congestion at column locations –Provides shear reinforcement without labor of bending bars

Outline Building Background Building Background –General –Architecture –Existing Structure Depth Study – Redesign with Two-way Flat Plate System Depth Study – Redesign with Two-way Flat Plate System –Redesign Proposal –Gravity System –Lateral System –Building Impact –System Comparisons Breadth Study – Construction Issues Breadth Study – Construction Issues Breadth Study – Mechanical Loading Analysis Breadth Study – Mechanical Loading Analysis Conclusions Conclusions Acknowledgements Acknowledgements Questions Questions

Breadth Study Mechanical Loading Analysis Mechanical Loading Analysis –South facing atrium space  Analyze effect of glazing on cooling load  Using Hourly Analysis Program, take sample space and determine effects

Breadth Study Mechanical Loading Analysis Mechanical Loading Analysis –U-value and shading coefficient effect heat transmission through glazing –U-value is measure of ability to conduct  Lower value = lower heat transmittance –Shading coefficient is ratio of heat gain through selected glazing to heat gain through single pane of clear glazing  Expressed as <1  Lower value = lower heat transmittance

Breadth Study Mechanical Loading Analysis Mechanical Loading Analysis –Existing glazing:  U = 0.29  SC = 0.44 –New glazing:  U = 0.31  SC = 0.20

Breadth Study Existing System Cost: $73,500 Existing System Cost: $73,500 Proposed System Cost: $85,000 Proposed System Cost: $85,000 Difference: $11,500 Difference: $11,500 Payback: 4.6 years Payback: 4.6 years

Outline Building Background Building Background –General –Architecture –Existing Structure Depth Study – Redesign with Two-way Flat Plate System Depth Study – Redesign with Two-way Flat Plate System –Redesign Proposal –Gravity System –Lateral System –Building Impact –System Comparisons Breadth Study – Construction Issues Breadth Study – Construction Issues Breadth Study – Mechanical Loading Analysis Breadth Study – Mechanical Loading Analysis Conclusions Conclusions Acknowledgements Acknowledgements Questions Questions

Conclusions Concrete design would use 12” slab, 22” square columns, and 16” reinforced concrete shear walls Concrete design would use 12” slab, 22” square columns, and 16” reinforced concrete shear walls Steel system more cost effective option Steel system more cost effective option Coordination of trades would require more work for a concrete system Coordination of trades would require more work for a concrete system Better glazing can improve energy costs Better glazing can improve energy costs

Acknowledgements Thanks to… Thanks to… –PSU AE Faculty –Delaware State University –CVM Engineers –Family and Friends –Holly and Todd

?Questions?