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University Sciences Building N ORTHEASTERN U.S.

PRESENTATION OUTLINE: I. P ROJECT B ACKGROUND II. A NALYSIS # 1 : BIM I MPLEMENTATION 1. W AYS T O P AY F OR BIM 2. C REATING A BIM M ODEL III. A NALYSIS # 2 : S OLAR P HOTOVOLTAIC S YSTEM D ESIGN

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University Sciences Building N ORTHEASTERN U.S.

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  1. PRESENTATION OUTLINE: I. PROJECT BACKGROUND II. ANALYSIS#1: BIM IMPLEMENTATION 1. WAYS TO PAY FOR BIM 2. CREATING A BIM MODEL III. ANALYSIS#2: SOLAR PHOTOVOLTAIC SYSTEM DESIGN 1. LAYOUT AND DESIGN 2. ELECTRICAL BREADTH IV. ANALYSIS#3: RAINWATER COLLECTION 1. SIZING OF COLLECTION TANK 2. STRUCTURAL BREADTH V. LESSONDS LEARNED VI. ACKNOWLEDGEMENTS University Sciences Building NORTHEASTERNU.S. JUSTIN GREEN CONSTRUCTION MANAGEMENT

  2. PRESENTATION OUTLINE: I. PROJECT BACKGROUND II. ANALYSIS#1: BIM IMPLEMENTATION 1. WAYS TO PAY FOR BIM 2. CREATING A BIM MODEL III. ANALYSIS#2: SOLAR PV SYSTEM DESIGN 1. LAYOUT AND DESIGN 2. ELECTRICAL BREADTH IV. ANALYSIS#3: RAINWATER COLLECTION 1. SIZING OF COLLECTION TANK 2. STRUCTURAL BREADTH V. LESSONDS LEARNED VI. ACKNOWLEDGEMENTS PROJECT BACKGROUND: University Sciences Building JUSTIN GREEN - CM

  3. PRESENTATION OUTLINE: I. PROJECT BACKGROUND II. ANALYSIS#1: BIM IMPLEMENTATION 1. WAYS TO PAY FOR BIM 2. CREATING A BIM MODEL III. ANALYSIS#2: SOLAR PV SYSTEMDESIGN 1. LAYOUT AND DESIGN 2. ELECTRICAL BREADTH IV. ANALYSIS#3: RAINWATER COLLECTION 1. SIZING OF COLLECTION TANK 2. STRUCTURAL BREADTH V. LESSONDS LEARNED VI. ACKNOWLEDGEMENTS ANALYSIS#1: BIM IMPLEMENTATION • Benefits of BIM: • Control of project information; everything is located in one place. • Improved coordination between trades through clash detection. • Greater productivity in the field and less demolition / re-work required. • Less time is spent on RFI’s and conflict resolution. • Increases design efficiency by up to 40%. • Better-quality design and detailing can be produced. • Opens up new markets and services for designers / contractors. • According to McGraw Hill Construction: • 7 in 10 BIM users who measure Return on Investment (ROI) see positive returns. • 1 in 5 BIM users who measure ROI see returns greater than 50%. • Half of the industry is using BIM or BIM-related tools today. This represents a 75% increase in usage in the last two years. • Challenges of BIM: • Learning curve: time and resources spent on training for BIM. • Tendency to stick with building methods that are more familiar / proven. • Very few people within the industry are considered experts in BIM. • BIM software is still changing and not fully integrated between all disciplines. • Who is responsible for the building model? Updates to the model? Risk? University Sciences Building JUSTIN GREEN - CM

  4. PRESENTATION OUTLINE: I. PROJECT BACKGROUND II. ANALYSIS#1: BIM IMPLEMENTATION 1. WAYS TO PAY FOR BIM 2. CREATING A BIM MODEL III. ANALYSIS#2: SOLAR PV SYSTEMDESIGN 1. LAYOUT AND DESIGN 2. ELECTRICAL BREADTH IV. ANALYSIS#3: RAINWATER COLLECTION 1. SIZING OF COLLECTION TANK 2. STRUCTURAL BREADTH V. LESSONDS LEARNED VI. ACKNOWLEDGEMENTS University Sciences Building JUSTIN GREEN - CM

  5. PRESENTATION OUTLINE: I. PROJECT BACKGROUND II. ANALYSIS#1: BIM IMPLEMENTATION 1. WAYS TO PAY FOR BIM 2. CREATING A BIM MODEL III. ANALYSIS#2: SOLAR PV SYSTEMDESIGN 1. LAYOUT AND DESIGN 2. ELECTRICAL BREADTH IV. ANALYSIS#3: RAINWATER COLLECTION 1. SIZING OF COLLECTION TANK 2. STRUCTURAL BREADTH V. LESSONDS LEARNED VI. ACKNOWLEDGEMENTS University Sciences Building JUSTIN GREEN - CM

  6. PRESENTATION OUTLINE: I. PROJECT BACKGROUND II. ANALYSIS#1: BIM IMPLEMENTATION 1. WAYS TO PAY FOR BIM 2. CREATING A BIM MODEL III. ANALYSIS#2: SOLAR PV SYSTEM 1. LAYOUT AND DESIGN 2. ELECTRICAL BREADTH IV. ANALYSIS#3: RAINWATER COLLECTION 1. SIZING OF COLLECTION TANK 2. STRUCTURAL BREADTH V. LESSONDS LEARNED VI. ACKNOWLEDGEMENTS ANALYSIS#2: SOLAR PV SYSTEM DESIGN University Sciences Building JUSTIN GREEN - CM

  7. PRESENTATION OUTLINE: I. PROJECT BACKGROUND II. ANALYSIS#1: BIM IMPLEMENTATION 1. WAYS TO PAY FOR BIM 2. CREATING A BIM MODEL III. ANALYSIS#2: SOLAR PV SYSTEMDESIGN 1. LAYOUT AND DESIGN 2. ELECTRICAL BREADTH IV. ANALYSIS#3: RAINWATER COLLECTION 1. SIZING OF COLLECTION TANK 2. STRUCTURAL BREADTH V. LESSONDS LEARNED VI. ACKNOWLEDGEMENTS University Sciences Building JUSTIN GREEN - CM

  8. PRESENTATION OUTLINE: I. PROJECT BACKGROUND II. ANALYSIS#1: BIM IMPLEMENTATION 1. WAYS TO PAY FOR BIM 2. CREATING A BIM MODEL III. ANALYSIS#2: SOLAR PV SYSTEMDESIGN 1. LAYOUT AND DESIGN 2. ELECTRICAL BREADTH IV. ANALYSIS#3: RAINWATER COLLECTION 1. SIZING OF COLLECTION TANK 2. STRUCTURAL BREADTH V. LESSONDS LEARNED VI. ACKNOWLEDGEMENTS University Sciences Building JUSTIN GREEN - CM

  9. PRESENTATION OUTLINE: I. PROJECT BACKGROUND II. ANALYSIS#1: BIM IMPLEMENTATION 1. WAYS TO PAY FOR BIM 2. CREATING A BIM MODEL III. ANALYSIS#2: SOLAR PV SYSTEMDESIGN 1. LAYOUT AND DESIGN 2. ELECTRICAL BREADTH IV. ANALYSIS#3: RAINWATER COLLECTION 1. SIZING OF COLLECTION TANK 2. STRUCTURAL BREADTH V. LESSONDS LEARNED VI. ACKNOWLEDGEMENTS ANALYSIS#3: RAINWATER COLLECTION University Sciences Building JUSTIN GREEN - CM

  10. PRESENTATION OUTLINE: I. PROJECT BACKGROUND II. ANALYSIS#1: BIM IMPLEMENTATION 1. WAYS TO PAY FOR BIM 2. CREATING A BIM MODEL III. ANALYSIS#2: SOLAR PV SYSTEMDESIGN 1. LAYOUT AND DESIGN 2. ELECTRICAL BREADTH IV. ANALYSIS#3: RAINWATER COLLECTION 1. SIZING OF COLLECTION TANK 2. STRUCTURAL BREADTH V. LESSONDS LEARNED VI. ACKNOWLEDGEMENTS University Sciences Building JUSTIN GREEN - CM

  11. PRESENTATION OUTLINE: I. PROJECT BACKGROUND II. ANALYSIS#1: BIM IMPLEMENTATION 1. WAYS TO PAY FOR BIM 2. CREATING A BIM MODEL III. ANALYSIS#2: SOLAR PV SYSTEMDESIGN 1. LAYOUT AND DESIGN 2. ELECTRICAL BREADTH IV. ANALYSIS#3: RAINWATER COLLECTION 1. SIZING OF COLLECTION TANK 2. STRUCTURAL BREADTH V. LESSONDS LEARNED VI. ACKNOWLEDGEMENTS Sample of Structural Shear and Moment Diagrams University Sciences Building JUSTIN GREEN - CM Payback Period = 13 Years Payback Period = 12 Years

  12. PRESENTATION OUTLINE: I. PROJECT BACKGROUND II. ANALYSIS#1: BIM IMPLEMENTATION 1. WAYS TO PAY FOR BIM 2. CREATING A BIM MODEL III. ANALYSIS#2: SOLAR PV SYSTEMDESIGN 1. LAYOUT AND DESIGN 2. ELECTRICAL BREADTH IV. ANALYSIS#3: RAINWATER COLLECTION 1. SIZING OF COLLECTION TANK 2. STRUCTURAL BREADTH V. LESSONDS LEARNED VI. ACKNOWLEDGEMENTS LESSONS LEARNED: University Sciences Building JUSTIN GREEN - CM

  13. PRESENTATION OUTLINE: I. PROJECT BACKGROUND II. ANALYSIS#1: BIM IMPLEMENTATION 1. WAYS TO PAY FOR BIM 2. CREATING A BIM MODEL III. ANALYSIS#2: SOLAR PV SYSTEMDESIGN 1. LAYOUT AND DESIGN 2. ELECTRICAL BREADTH IV. ANALYSIS#3: RAINWATER COLLECTION 1. SIZING OF COLLECTION TANK 2. STRUCTURAL BREADTH V. LESSONDS LEARNED VI. ACKNOWLEDGEMENTS ACKNOWLEDGEMENTS: University Sciences Building JUSTIN GREEN - CM

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