THE SUSQUEHANNA CENTER RENOVATION & ADDITION BEL AIR, MD Penn State AE Senior Capstone Project Haitham Alrasbi Construction Management Option Advisor:

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THE SUSQUEHANNA CENTER RENOVATION & ADDITION BEL AIR, MD Penn State AE Senior Capstone Project Haitham Alrasbi Construction Management Option Advisor: Dr. Chimay Anumba

Presentation Outline I.Introduction I.Project Overview II.Before and after renovation II.Analysis 1: Reduction of weather impact in the foundation schedule III.Analysis 2: BIM use in the Susquehanna Center renovation project IV.Analysis 3: Alternative façade system (Architectural breadth) Not presented V.Analysis 4: Commissioning mechanical systems in the Susquehanna Center (Mechanical breadth) VI.Conclusion VII.Credits and Acknowledgments VIII.Questions and Answers Project Overview THE SUSQUEHANNA CENTER RENOVATION & ADDITION  Project Location: Bel Air, MD  Size: 106,955 SF (58,640 SF Addition & 49,159 SF Renovation)  Cost: $26.7M after $1.65M VE savings  Dates of Construction: 5/23/11-12/6/12  Delivery Method: GMP, CM-at-Risk  Objective: Find the best cost effective solutions for specific problems happened during the Susquehanna Center renovation and addition project.

Presentation Outline I.Introduction I.Project Overview II.Before and after renovation II.Analysis 1: Reduction of weather impact in the foundation schedule III.Analysis 2: BIM use in the Susquehanna Center renovation project IV.Analysis 3: Alternative façade system (Architectural breadth) Not presented V.Analysis 4: Commissioning mechanical systems in the Susquehanna Center (Mechanical breadth) VI.Conclusion VII.Credits and Acknowledgments VIII.Questions and Answers Project Overview Nearing Completion Before renovation

Presentation Outline I.Introduction II.Analysis 1: Reduction of weather impact on the foundation schedule I.Introduction II.Analysis III.Recommendations III.Analysis 2: BIM use in the Susquehanna Center renovation project IV.Analysis 3: Alternative façade system (Architectural breadth) Not presented V.Analysis 4: Commissioning mechanical systems in the Susquehanna Center (Mechanical breadth) VI.Conclusion VII.Credits and Acknowledgments VIII.Questions and Answers #1: Reduction of weather impact in the foundation schedule Problem: Rainfall during the foundation phase pushed the schedule about two months back Goal: Find the most cost effective ways to minimize the weather impact MayJuneJulyAugustSeptemberOctoberNovemberDecemberJanuaryFebruary MarchAprilMay JuneJulyAugustSeptemberOctoberNovember Planned Schedule Actual Schedule Delay

Presentation Outline I.Introduction II.Analysis 1: Reduction of weather impact on the foundation schedule I.Introduction II.Analysis III.Recommendations III.Analysis 2: BIM use in the Susquehanna Center renovation project IV.Analysis 3: Alternative façade system (Architectural breadth) Not presented V.Analysis 4: Commissioning mechanical systems in the Susquehanna Center (Mechanical breadth) VI.Conclusion VII.Credits and Acknowledgments VIII.Questions and Answers #1: Reduction of weather impact in the foundation schedule Analysis:  Schedule  Forecasts from NOAA climatological report  Check whether regularly  Physical techniques  Direct: e.g. physically cover the site  Indirect:  Drainage  Overtime/weekends  Concrete accelerators  Contract  Clear weather responsibility  Negotiation

Presentation Outline I.Introduction II.Analysis 1: Reduction of weather impact on the foundation schedule I.Introduction II.Analysis III.Recommendations III.Analysis 2: BIM use in the Susquehanna Center renovation project IV.Analysis 3: Alternative façade system (Architectural breadth) Not presented V.Analysis 4: Commissioning mechanical systems in the Susquehanna Center (Mechanical breadth) VI.Conclusion VII.Credits and Acknowledgments VIII.Questions and Answers #1: Reduction of weather impact in the foundation schedule Recommendations:  The construction team followed the best ways possible to minimize weather impact  Checking weather regularly is critical  Evaluate all means possible to recover from weather damage (e.g. concrete accelerators, working overtime, etc.)  Understand the contract very clearly

Presentation Outline I.Introduction II.Analysis 1: Reduction of weather impact in the foundation schedule III.Analysis 2: BIM use in the Susquehanna Center renovation project I.Introduction II.Analysis III.BIM Uses IV.BIM Cost analysis V.Conclusion IV.Analysis 3: Alternative façade system (Architectural breadth) Not presented V.Analysis 4: Commissioning mechanical systems in the Susquehanna Center (Mechanical breadth) VI.Conclusion VII.Credits and Acknowledgments VIII.Questions and Answers #2: BIM use in the Susquehanna Center renovation project Problem: BIM was not used in the Susquehanna Center project because  Subcontractors lack BIM knowledge  Construction documents were not available in a BIM friendly format  Cost concern Goal: Find whether BIM was worth implementing (hoklife.com, 2012) $ $ $

Presentation Outline #2: BIM use in the Susquehanna Center renovation project Analysis: Subcontractors lack knowledge Offering BIM service Construction Manager/Owner/Designer 3 rd party Training subcontractors Construction Manager/Owner/Designer 3 rd party Construction Documents format problem Convert available CDs 3D scan the building Existing Conditions Modeling (3deling.com, 2011) I.Introduction II.Analysis 1: Reduction of weather impact in the foundation schedule III.Analysis 2: BIM use in the Susquehanna Center renovation project I.Introduction II.Analysis III.BIM Uses IV.BIM Cost analysis V.Conclusion IV.Analysis 3: Alternative façade system (Architectural breadth) Not presented V.Analysis 4: Commissioning mechanical systems in the Susquehanna Center (Mechanical breadth) VI.Conclusion VII.Credits and Acknowledgments VIII.Questions and Answers

Presentation Outline #2: BIM use in the Susquehanna Center renovation project BIM Uses: Existing Conditions Modeling Cost Estimation 3D Coordination Design Authoring BIM prerequisite: Train subcontractors I.Introduction II.Analysis 1: Reduction of weather impact in the foundation schedule III.Analysis 2: BIM use in the Susquehanna Center renovation project I.Introduction II.Analysis III.BIM Uses IV.BIM Cost analysis V.Conclusion IV.Analysis 3: Alternative façade system (Architectural breadth) Not presented V.Analysis 4: Commissioning mechanical systems in the Susquehanna Center (Mechanical breadth) VI.Conclusion VII.Credits and Acknowledgments VIII.Questions and Answers

Presentation Outline #2: BIM use in the Susquehanna Center renovation project BIM cost analysis: BIM PrerequisitesLaborEquipmentTotal Training subcontractors$4,800- BIM UseLaborEquipmentTotal Existing Conditions Modeling$10,240$2,560$12,800 Cost Estimation$8,100- 3D Coordination$11,200- Design Authoring$36,160$10,300$46,460 TOTAL$70,500$12,860$83,360 Cost ($M) Project BIM Cost ($) Direct BIM savings ($) Net BIM savings ($) BIM ROI (%) 54Progressive Data Center120,000(395,000)(232,000)140 82HP Data Center20,000(67,500)(47,500)240 16GSU Library10,000(74,120)(64,120)640 47Aquarium Hilton90,000(800,000)(710,000)780 88Mansion on Peachtree1,440(15,000)(6,850)940 30Ashley Overlook5,000(135,000)(130,000) Wynkoop3,800(200,000)(196,200) Raleigh Marriott4,288(500,000)(495,712) NAU Sciences Lab1,000(330,000)(329,000) Savannah State5,000(2,000,000)(1,995,000)39900 I.Introduction II.Analysis 1: Reduction of weather impact in the foundation schedule III.Analysis 2: BIM use in the Susquehanna Center renovation project I.Introduction II.Analysis III.BIM Uses IV.BIM Cost analysis V.Conclusion IV.Analysis 3: Alternative façade system (Architectural breadth) Not presented V.Analysis 4: Commissioning mechanical systems in the Susquehanna Center (Mechanical breadth) VI.Conclusion VII.Credits and Acknowledgments VIII.Questions and Answers

Presentation Outline #2: BIM use in the Susquehanna Center renovation project BIM cost analysis: BIM PrerequisitesLaborEquipmentTotal Training subcontractors$4,800- BIM UseLaborEquipmentTotal Existing Conditions Modeling$10,240$2,560$12,800 Cost Estimation$8,100- 3D Coordination$11,200- Design Authoring$36,160$10,300$46,460 TOTAL$70,500$12,860$83,360 Cost ($M) Project BIM Cost ($) Direct BIM savings ($) Net BIM savings ($) BIM ROI (%) 54Progressive Data Center120,000(395,000)(232,000)140 82HP Data Center20,000(67,500)(47,500)240 16GSU Library10,000(74,120)(64,120)640 47Aquarium Hilton90,000(800,000)(710,000)780 88Mansion on Peachtree1,440(15,000)(6,850)940 30Ashley Overlook5,000(135,000)(130,000) Wynkoop3,800(200,000)(196,200) Raleigh Marriott4,288(500,000)(495,712) NAU Sciences Lab1,000(330,000)(329,000) Savannah State5,000(2,000,000)(1,995,000)39900 Direct BIM Savings ($)Net BIM savings ($)BIM ROI (%) Minimum120,00036,64044 Maximum200,000116, I.Introduction II.Analysis 1: Reduction of weather impact in the foundation schedule III.Analysis 2: BIM use in the Susquehanna Center renovation project I.Introduction II.Analysis III.BIM Uses IV.BIM Cost analysis V.Conclusion IV.Analysis 3: Alternative façade system (Architectural breadth) Not presented V.Analysis 4: Commissioning mechanical systems in the Susquehanna Center (Mechanical breadth) VI.Conclusion VII.Credits and Acknowledgments VIII.Questions and Answers

Presentation Outline #2: BIM use in the Susquehanna Center renovation project Conclusion:  BIM is worth implementing with a return of investment between 44% and 140%.  Choose subcontractors that have prior BIM experience  Analyze the ROI of BIM in the early stages of planning I.Introduction II.Analysis 1: Reduction of weather impact in the foundation schedule III.Analysis 2: BIM use in the Susquehanna Center renovation project I.Introduction II.Analysis III.BIM Uses IV.BIM Cost analysis V.Conclusion IV.Analysis 3: Alternative façade system (Architectural breadth) Not presented V.Analysis 4: Commissioning mechanical systems in the Susquehanna Center (Mechanical breadth) VI.Conclusion VII.Credits and Acknowledgments VIII.Questions and Answers

Presentation Outline #4: Commissioning mechanical systems in the Susquehanna Center Problem: Limited commissioning scope of work, which led to identify the pool leakage problem late in the construction phase Goals: Modify the commissioning plan in a cost effective way to help identify problems earlier Determine how it could effect the mechanical system Picture taken I.Introduction II.Analysis 1: Reduction of weather impact in the foundation schedule III.Analysis 2: BIM use in the Susquehanna Center renovation project IV.Analysis 3: Alternative façade system (Architectural breadth) Not presented V.Analysis 4: Commissioning mechanical systems in the Susquehanna Center (Mechanical breadth) I.Introduction II.Analysis III.Mechanical breadth IV.Conclusion VI.Conclusion VII.Credits and Acknowledgments VIII.Questions and Answers

Presentation Outline #4: Commissioning mechanical systems in the Susquehanna Center Analysis: Current commissioning plan: Installation checklist Mechanical equipment inspection Automation system commissioning Track errors using android tablets Proposed commissioning plan: Early involvement Assistance in developing the mechanical design Pool commissioning services Cross section of the Pool 3” cement I.Introduction II.Analysis 1: Reduction of weather impact in the foundation schedule III.Analysis 2: BIM use in the Susquehanna Center renovation project IV.Analysis 3: Alternative façade system (Architectural breadth) Not presented V.Analysis 4: Commissioning mechanical systems in the Susquehanna Center (Mechanical breadth) I.Introduction II.Analysis III.Mechanical breadth IV.Conclusion VI.Conclusion VII.Credits and Acknowledgments VIII.Questions and Answers

Presentation Outline #4: Commissioning mechanical systems in the Susquehanna Center Analysis: Trane Trace™700 model Input: Slab U-value: 0.73 Btu/hr-sq ft 2 ˚F Roof U-value: Btu/hr-sq ft 2 ˚F Wall U-value: Btu/hr-sq ft 2 ˚F Room dimensions: 117’ x 67’ x 27’ Density: 320sq ft/person I.Introduction II.Analysis 1: Reduction of weather impact in the foundation schedule III.Analysis 2: BIM use in the Susquehanna Center renovation project IV.Analysis 3: Alternative façade system (Architectural breadth) Not presented V.Analysis 4: Commissioning mechanical systems in the Susquehanna Center (Mechanical breadth) I.Introduction II.Analysis III.Mechanical breadth IV.Conclusion VI.Conclusion VII.Credits and Acknowledgments VIII.Questions and Answers

Presentation Outline #4: Commissioning mechanical systems in the Susquehanna Center Conclusion:  The cooling system in the pool area was not affected by the pool change of order  Early involvement means early detection of problems  Potential savings if solution includes changes in the building system design I.Introduction II.Analysis 1: Reduction of weather impact in the foundation schedule III.Analysis 2: BIM use in the Susquehanna Center renovation project IV.Analysis 3: Alternative façade system (Architectural breadth) Not presented V.Analysis 4: Commissioning mechanical systems in the Susquehanna Center (Mechanical breadth) I.Introduction II.Analysis III.Mechanical breadth IV.Conclusion VI.Conclusion VII.Credits and Acknowledgments VIII.Questions and Answers

Presentation Outline Conclusion  Analysis 1: Reduction of weather impact on the foundation schedule The construction team chose the most effective ways in regards to cost, schedule, physical techniques, and contract to minimize weather impact  Analysis 2: BIM use in the Susquehanna Center renovation project BIM use in the Susquehanna Center was estimated to have a ROI of 44% to 140% I.Introduction II.Analysis 1: Reduction of weather impact in the foundation schedule III.Analysis 2: BIM use in the Susquehanna Center renovation project IV.Analysis 3: Alternative façade system (Architectural breadth) Not presented V.Analysis 4: Commissioning mechanical systems in the Susquehanna Center (Mechanical breadth) VI.Conclusion VII.Credits and Acknowledgments VIII.Questions and Answers  Analysis 4: Commissioning mechanical systems in the Susquehanna Center Cooling system was not affected by the new commissioning plan Early involvement helps detecting problems early which could mean potential savings in different aspects in project

Presentation Outline Acknowledgements I.Introduction II.Analysis 1: Reduction of weather impact in the foundation schedule III.Analysis 2: BIM use in the Susquehanna Center renovation project IV.Analysis 3: Alternative façade system (Architectural breadth) Not presented V.Analysis 4: Commissioning mechanical systems in the Susquehanna Center (Mechanical breadth) VI.Conclusion VII.Credits and Acknowledgments VIII.Questions and Answers Dr. Chimay Anumba Dr. Moses Ling Dr. Craig Dubler Dr. John Messner Dr. Kevin Parfitt Dr. Robert Holland AE faculty members Doug Belling fromTurner DeShawn Alexander from Limbach Robert Blyler fromLimbach Family and Friends Ibrahim Alanqar Mohammed Alali Jaafar Al Aidaroos Ian Bower Chang Liu Cheuk Tsang Adam Karlheim Julanda Alriyami Mohammed Allawati Haitham Alabdali Abdulaziz Alalyani Omanis at Penn State

Presentation Outline Questions and Answers I.Introduction II.Analysis 1: Reduction of weather impact in the foundation schedule III.Analysis 2: BIM use in the Susquehanna Center renovation project IV.Analysis 3: Alternative façade system (Architectural breadth) Not presented V.Analysis 4: Commissioning mechanical systems in the Susquehanna Center (Mechanical breadth) VI.Conclusion VII.Credits and Acknowledgments VIII.Questions and Answers  Analysis 1: Reduction of weather impact on the foundation schedule The construction team chose the most effective ways in regards to cost, schedule, physical techniques, and contract to minimize the weather impact  Analysis 2: BIM use in the Susquehanna Center renovation project BIM use in the Susquehanna Center was estimated to have a ROI of 44% to 140%  Analysis 4: Commissioning mechanical systems in the Susquehanna Center Cooling system was not affected by the new commissioning plan Early involvement helps detecting problems early which could mean potential savings in different aspects in project Conclusion

Supplemental  Owner: Harford Community College  Architect: Hord | Coplan | Macht  Construction Manager: Turner  Civil: Site Resources, Inc.  MEP: Burdette, Koehler, Murphy & Associates, Inc.  Structural: CMJ Structural Engineering, Inc.  Natatorium: Counsilman Hunsaker

Supplemental

Presentation Outline Supplemental I.Introduction II.Analysis 1: Reduction of weather impact in the foundation schedule III.Analysis 2: BIM use in the Susquehanna Center renovation project IV.Analysis 3: Alternative façade system (Architectural breadth) Not presented V.Analysis 4: Commissioning mechanical systems in the Susquehanna Center (Mechanical breadth) VI.Conclusion VII.Credits and Acknowledgments VIII.Questions and Answers Current Commissioning Plan New Commissioning Plan

Presentation Outline Supplemental I.Introduction II.Analysis 1: Reduction of weather impact in the foundation schedule III.Analysis 2: BIM use in the Susquehanna Center renovation project IV.Analysis 3: Alternative façade system (Architectural breadth) Not presented V.Analysis 4: Commissioning mechanical systems in the Susquehanna Center (Mechanical breadth) VI.Conclusion VII.Credits and Acknowledgments VIII.Questions and Answers

Presentation Outline I.Introduction II.Analysis 1: Reduction of weather impact in the foundation schedule III.Analysis 2: BIM use in the Susquehanna Center renovation project IV.Analysis 3: Alternative façade system (Architectural breadth) Not presented V.Analysis 4: Commissioning mechanical systems in the Susquehanna Center (Mechanical breadth) VI.Conclusion VII.Credits and Acknowledgments VIII.Questions and Answers References Trauner, Theodore J., William A. Manginelli, J.Scott Lowe, Mark F. Nagata, and Brian J. Furniss. Construction Delays: Understanding Them Clearly, Analyzing Them Correctly. Amsterdam: Butterworth-Heinemann, Print. Hinze, Jimmie W. Construction Planning and Scheduling. Upper Saddle River, New Jersey: Pearson Prentice Hall, Print. Sears, S.Keoki, Glenn A. Sears, and Richard H. Clough. Construction Project Management. Hoboken, New Jersey: John Wiley & Sons, Print. Sidney M. Levy. Construction Process Planning and Management. Burlington, MA: Elsevier, Print. Cameron K. Andres, and Ronald C. Smith. Principles and Practices of Commercial Construction. Upper Saddle River, New Jersey: Pearson Prentice Hall, Print. "Construction And The Weather." MyWeather 2. UK Weather, 31 Jan Web. 29 Jan Crissinger, Joseph L. "Design and Construction vs. Weather." RCI Online. N.p., Feb Web. 29 Jan Messner, John, Chimay Anumba, Craig Dubler, Shane Goodman, Colleen Kasprzak, Ralph Kreider, Robert Leicht, Chitwan Saluja, and Nevene Zikic. BIM Project Execution Planning Guide. 2nd ed. Computer Integrated Construction Research Program. Pennsylvania State University, Web. January, Oliveiral, Jose. "Useful Approaches to BIM for Renovation Projects." Architectural Evangelist. N.p., 27 Sept Web. 28 Jan "The Efficient Windows Collaborative." The Efficient Windows Collaborative. N.p., Web. 29 Mar "3D Laser Scanning Services." 3Deling. N.p., 30 Oct Web. 29 Mar ACG Commissioning Guideline. N.p.: n.p., n.d. AABC Commissioning Group. 28 Jan Web JMZ Architects and Planners, P.C., and Frederick Ward Associates, Inc. Facilities Master Plan - Harford Community College. Harford Community College, Jan Web. 20 Sept

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