The document describes an engineering team's presentation on a proposed new baseball and soccer facility at Purdue University. It includes summaries of the facility design, site layout, drainage plans, structural aspects, pursuit of LEED certification, and construction cost estimates. The project manager is Alice Madjani and the engineering team includes specialists in transportation, structures, environment, and construction.
Presentation by Dick Butler about the extensive modifications that he made to his ASW-22 in the early 2000s. This was presented at the 2003 Soaring Society of America (SSA) convention in Atlanta, Georgia.
Introduction to offshore oil and gas surface facilities, including drilling rig types, topside and substructures, jacket, compliant tower, jack up, gravity based structure, fpso, fso, semi submersible, tlp, spar, wellhead platform, processing platform, pipeline, and surface facilities selection
Culvert Design 201 Structural Design, Durability & ApplicationsPath Marketing Inc.
Randy McDonald, Armtec Drainage’s Director of Engineering and Frank Klita, Senior Sales Representative build on the basics of culvert design covered in Culvert Design 101 and will focus in- depth on the structural design of culverts. Additionally, the presenters will review considerations and best practices for culvert installations.
You'll Learn:
Culvert types & applications
- Structural design of culverts and buried structures as per CHBDC (Canadian Highway Bridge Design Code) methods
- Installation best practices
- Review of applications across Canada
Check out this year’s Showcase Book to see how this year's AEC Excellence Awards winners innovated with BIM tools and process to help their clients realize their projects across the Infrastructure, Building and Construction lifecycles.
Check out more from this year's winners here: autode.sk/AECExcellenceAwards
Presentation by Dick Butler about the extensive modifications that he made to his ASW-22 in the early 2000s. This was presented at the 2003 Soaring Society of America (SSA) convention in Atlanta, Georgia.
Introduction to offshore oil and gas surface facilities, including drilling rig types, topside and substructures, jacket, compliant tower, jack up, gravity based structure, fpso, fso, semi submersible, tlp, spar, wellhead platform, processing platform, pipeline, and surface facilities selection
Culvert Design 201 Structural Design, Durability & ApplicationsPath Marketing Inc.
Randy McDonald, Armtec Drainage’s Director of Engineering and Frank Klita, Senior Sales Representative build on the basics of culvert design covered in Culvert Design 101 and will focus in- depth on the structural design of culverts. Additionally, the presenters will review considerations and best practices for culvert installations.
You'll Learn:
Culvert types & applications
- Structural design of culverts and buried structures as per CHBDC (Canadian Highway Bridge Design Code) methods
- Installation best practices
- Review of applications across Canada
Check out this year’s Showcase Book to see how this year's AEC Excellence Awards winners innovated with BIM tools and process to help their clients realize their projects across the Infrastructure, Building and Construction lifecycles.
Check out more from this year's winners here: autode.sk/AECExcellenceAwards
Anz Stadium Case Study - SeatShare Concept Test - CheckinLineCheckinLine
Outlines the concept test on CheckinLine's new SeatShare concept with ANZ Stadium.
“We’d like to introduce you to a new concept for seating arrangements at ANZ Stadium called SeatShare, where you share a block of premium seating with other fans and only use them for the games you want.
Your SeatShare subscription fee allows you to lock in 2 tickets to a game in the future. CheckinLine will then run an active standby list for each game to allocate the leftover seats not already taken by SeatShare subscribers.
If you want to go to a particular game, you'll request seats for that game and check-in if required (if demand outstrips supply). You will pay a set fee for each seat you use beyond the initial sign-up.”
This test resulted in the rollout of a full SeatShare pilot trial and an increase in seat yield of 48-95% for ANZ Stadium.
Stadiums That Changed The Game - Structure Development Of Stadiumssoumya2492
Stadiums That Changed The Game. The Presentation shows and describes the structures and construction details of some of the world's most re knowned stadiums ie: Eden Gardens (Kolkata), Lord's, MCG, Bird's Nest, Cape Town Stadium and Maracana Stadium (Brazil).
Class Project for PM class, Scenario Based Presentation. This presentation has some details based on a question. Overall it gives an idea about critical path of a project . I will soon post the question for more clarity . Many thanks for your time.
This resource material is exclusively for the purpose of knowledge dissemination for the use of Civil engineering Fraternity, professionals & students.
This file contains state of art techniques adopted & practiced as per IS456 code provisions for analysis design & detailing of flat slab structural systems.
The presentation aims to provide clear,concise, technical details of flat slabs design.
The presentation deals with structural actions & behavior of flat slabs with visual representations obtained through finite element analysis.
The knowledge gained can be used for designing building structures frequently encountered in construction.
The presentation covers an important feature of slab systems supported on rigid & flexible support & clearly demarcates the minimum beam dimensions required to consider the supports to be either rigid or flexible.
The presentation alsoincludes clear technical drawings to highlight the importance of detailing w.r.t. rebar lay out - positioning & curtailment. Typical section drawing through middle & column strips are also included for visualizing rebar patterns in 3 -d views.
This presentation is an outcome of series of lectures for undergrad & grad students studying in civil engineering.
My next presentation would be on Analysis & design of deep beams.
Kindly mail me ( vvietcivil@gmail.com) your questions & valuable feedback.
This is one of the presentations I gave with my team, in the 2020-2021 school year, to demonstrate the final design of the Titan Rover senior design project that I co-led. Titan Rover is a legacy senior design project. Its main objective is to create a version of the Mars Rover for the University Rover Challenge.
Note: This presentation uses custom animation, and so to correctly view it and read text on most slides, you will need to download it.
This is the final presentation of my senior design capstone project, delivered to a public audience and a board of reviewing engineers. Slides 1-6, and 55-58 were designed by me, with the remaining slides designed by the other members of our team of six. The movie on the final slide was also my responsibility, as was the Google SketchUp rendering used to create it. As project manager of the team, I had the final approval of each of the slides that went into the presentation.
Randy McDonald, Armtec Drainage’s Director of Engineering and Frank Klita, Senior Sales Representative, for the exciting second part of our 2-part Culvert series – Culvert Design 201! This presentation will build on the basics of culvert design covered in Culvert Design 101 and will focus in- depth on the structural design of culverts. Additionally, the presenters will review considerations and best practices for culvert installations.
What You'll Learn
Culvert types & applications
Structural design of culverts and buried structures as per CHBDC (Canadian Highway Bridge Design Code) methods
Installation best practices
Review of applications across Canada
2. 2
ENGINEERING TEAM
PROJECT MANAGER: Alice Madjani
TRANSPORTATION ENGINEER: Eric Hulme
STRUCTURAL ENGINEER: Matt Murray
ENVIRONMENTAL ENGINEER: Mike Broyles
STRUCTURAL ENGINEER: Ryan Laughlin
Introduction Facility Drainag Structura ConstructioLEEDAcces
3. Presentation Overview
Baseball Facility
Soccer Facility
Site Layout
Drainage
Site Access
Structural Aspects
LEED Credentials
Construction and Cost
3Introduction Facility Drainag Structura ConstructioLEEDAcces
4. Time for a New Facility
Other Big Ten Facilities
Current Purdue Facility
4Introduction Facility Drainag Structura ConstructioLEEDAcces
5. The Facility
5Introduction Facility Drainag Structura ConstructioLEEDAcces
1,800 Permanent
Seats
2 Green Spaces
State of the art Press
Box
High Definition
Grass Berme Seating
Home & Away
Lockers
Indoor Batting Cages
Unique Architecture
6. Soccer Facility
Continue using the eastern
field for competition
Option of using the west field
for a future men’s team
Expanded Seating
Support Facilities
Concessions Stand
Restrooms
Locker Room
H.D. Lighting
Opportunities to share
facilities
6Introduction Facility Drainag Structura ConstructioLEEDAcces
8. Drainage and Grading
Storm Water Management Overview
Stream running through the center of the site
Detention Basin on the west end of the site
Drainage system for the baseball field
Grading Summary
Buildings are elevated 1-2 ft to prevent infiltration during
heavy storms.
The stream is the low point of the site, allowing the site
to drain to it.
8Introduction Facility Drainag Structura ConstructioLEEDAcces
9. Stream Design
Trapezoidal Channel
Designed for 100-year, 12 hour duration rain event
4:1 side slopes for stability
Lined with cobbles to prevent erosion
Side slopes lined with native grasses
Prevent erosion
Remove sediment (TSS) and nutrients from runoff
3 connected sections
Connector from east drainage basin to the site
East Channel (about 1/2 of developed site drainage)
West Channel (all of developed site drainage)
9Introduction Facility Drainag Structura ConstructioLEEDAcces
10. Stream Dimensions
Connector from east drainage
basin
Depth: 3 ft
Bottom Width: 2 ft
Top Width: 10 ft
East Channel
Depth: 4 ft
Bottom Width: 1 ft
Top Width: 33 ft
West Channel
Depth: 4 ft
Bottom Width: 6 ft
Top Width: 38 ft
10Introduction Facility Drainag Structura ConstructioLEEDAcces
13. Detention Basin Design
Design storm: 100-year, 12 hr duration rain
event
Required Storage Volume: 16.64 acre-ft
Design Characteristics
Overflow weir: 45 ft wide x 1 ft high
4 outflow pipes
2 – 12” diameter pipes at invert elevation of 670.1
ft
2 – 15” diameter pipes at invert elevation of 672.2
ft
Depth of 8 feet and bottom elevation of 667.4
ft
Top elevation of 675.4 ft 13Introduction Facility Drainag Structura ConstructioLEEDAcces
14. Baseball Field Drainage
Hydraway 2000 drainage system
Geotextile drainage mat
12” wide x 1” thick
Strong, able to withstand heavy loading
Placed every 20 feet
Drain to a central drainage pipe
Installation
After field is graded appropriately
Smaller trencher creates a 6” wide x 12” deep
Backfill with granular fill to promote drainage
14Introduction Facility Drainag Structura ConstructioLEEDAcces
15. Baseball Field Drainage
Layout
• Blue Lines = Hydraway 2000
Mats
• Pink Line = Central Drainage
Collector
Source: Hydraway website
15Introduction Facility Drainag Structura ConstructioLEEDAcces
16. Pavement Systems
Surface Asphalt
Binder Asphalt
Type #53
Sub-base
1 ½ inch
4 ½ inch
8 inch
Surface Asphalt
Binder Asphalt
Type #53
Sub-base
1 ½ inch
3 inch
8 inch
Concrete
Type #53
Sub-base
6 inch
8 inch
Pervious
Concrete
Sand
Type #53
Sub-base
9 inch
2 inch
9 inch
Introduction Facility Drainag Structura ConstructioLEEDAcces 16
18. Site Access: Existing Traffic Volumes
LOS ANALYSIS
McCormick & Cherry (AWSC)
A.M. Peak Hour:
LOS E
41 sec Delay
McCormick & Tennis Center
(TWSC)
A.M. Peak Hour:
LOS B
15 sec Delay
P.M. Peak Hour:
• LOS F
• 330 sec Delay
– P.M. Peak Hour:
• LOS C
• 18 sec Delay
Introduction Facility Drainag Structura ConstructioLEEDAcces 18
19. Site Access: 2010 Background
Volumes
LOS ANALYSIS
McCormick & Cherry (AWSC)
A.M. Peak Hour:
• LOS F
• 95 sec Delay
McCormick & Tennis Center
(TWSC)
A.M. Peak Hour:
• LOS C
• 16 sec Delay
P.M. Peak Hour:
• LOS F
• 492 sec Delay
P.M. Peak Hour:
• LOS C
• 20 sec Delay
Introduction Facility Drainag Structura ConstructioLEEDAcces 19
20. Site Access: 2010 Total Volumes
LOS ANALYSIS
McCormick & Cherry (RDBT)
A.M. Peak Hour:
• LOS C
• 18 sec Delay
McCormick & Tennis Center (TWSC)
A.M. Peak Hour:
• LOS C
• 17 sec Delay
McCormick & Perimeter Pkwy (TWSC)
A.M. Peak Hour:
• LOS A
• 0 sec Delay
P.M. Peak Hour:
• LOS C
• 19 sec Delay
P.M. Peak Hour:
• LOS C
• 21 sec Delay
P.M. Peak Hour:
• LOS A
• 0 sec Delay
Introduction Facility Drainag Structura ConstructioLEEDAcces 20
21. Traffic Maintenance Plan
Construction Access
Baseball Stadium: Proposed AlignmentPerimeter Parkway
Soccer Stadium: Existing gravel access north of Tennis
parking Lot
McCormick Road Improvements
Long-Term Stationary Work Zone
Work Zone Type
Intermittent Closure (off-peak hours only)
Use of shoulder
Construction Phasing
Reconstruction by Halves (sides)
Work Zone Speed limit: 40 mph
As prescribed by INDOT Design Manual, Part VII - Work Zone Traffic Control
Introduction Facility Drainag Structura ConstructioLEEDAcces 21
22. Live Load
60.0 psf for stadium seating
50.0 psf for rooms
20.0 psf roof live load
0.54 psf live load reduction factor
Seismic Load
60 kip base shear
Lateral Loads
First Story = 17.4 kip
Second Story = 21.0 kip
Third Story = 21.6 kip
Dead Load
63.0 psf roof load
74.0 psf for other floors
Wind Load
10.7 psf lateral load
13.4 psf uplift
Environmental Load
22.0 psf snow load
11.9 psf ice load
Structural Design: Loads
22Introduction Facility Drainag Structura ConstructioLEEDAcces
23. SAP2000 Analysis
Placing columns & beams
Model of main stadium
structure
Application of loads
Computer analysis
Approximate Analysis
Axial forces in columns of the
critical section
Portal method for lateral load
Structural Design: Stadium Frame
Analysis
23Introduction Facility Drainag Structura ConstructioLEEDAcces
24. Structural Design:Sizing Stadium Component
First Floor Column
Sizes
First Floor Beam Sizes
24Introduction Facility Drainag Structura ConstructioLEEDAcces
25. Structural Design:Sizing Stadium
Components
4” concrete
decking
18K5 joists
spaced at 5’ for
third story
12K3 joists
spaced at 5’ for
lower stories
Additional
Structural
Components
:
25Introduction Facility Drainag Structura ConstructioLEEDAcces
27. Structural Design: Concrete Stadium
Seating
Design: Isolate
Beams, Girders,
and Columns
Assume no
moment Transfer
Reduction to a
determinate
structure
Load Path for
Structure
Beams
24 ft span
Simply supported
2.5 ft wide
PCI Design Handbook
Load
Path
27Introduction Facility Drainag Structura ConstructioLEEDAcces
28. 29.5 ft span
Simply supported
Apply distributed beam
loads
Neglect compression
Flexure controls
PCI Design Handbook
Structural Design: Concrete Stadium
Seating
Design: Isolate
beams, Girders,
and Columns
Assume no
moment Transfer
Reduction to a
determinate
structure
Girders
28Introduction Facility Drainag Structura ConstructioLEEDAcces
29. No moments – No
interaction diagrams
Tributary area of
girders for total loads
Detail the section –
Check strength
PCI Design Handbook
Design: Isolate
beams, Girders,
and Columns
Assume no
moment Transfer
Reduction to a
determinate
structure
Columns
29Introduction Facility Drainag Structura ConstructioLEEDAcces
Structural Design: Concrete Stadium
Seating
30. Complicated
Moment Resistant
Frame
Truss remove
indeterminacy
Consider tributary
area
Apply joint loads
Joint analysis
member forces
Check Stresses
Reality
Model
30Introduction Facility Drainag Structura ConstructioLEEDAcces
Structural Design: Awning Support
Structure
Support Section
31. Foundation Design
Soil Capacity
Gross soil bearing capacity of
6,400 psf
2,000 psf net allowable
bearing pressure used in
design
Shallow Foundations
Combined Footings
3 columns per footing
Eleven 5-ft x 35-ft reinforced
concrete footings
Design Considerations
Soil bearing capacity
Immediate settlement
Consolidation settlement
31Introduction Facility Drainag Structura ConstructioLEEDAcces
34. Project Controls
Project Organization/communication
Design-Build firm advantages
Site Management
Lines of communication
34Introduction Facility Drainag Structura ConstructioLEEDAcces
35. Quality, Materials and Safety
Quality
ZEAL’s Quality Control and Quality Assurance Manual
Monitoring of all products, materials, and work
Inspections
Material
Building : Steel framing, reinforced concrete, masonry
Parking lot: Pervious concrete
Access road: Asphalt pavement
Safety
ZEAL’s Safety Manager
Subcontractor’s safety requirements
35Introduction Facility Drainag Structura ConstructioLEEDAcces
36. Cost Estimate
Price Proposal
Schedule of values
Request for payment due the 1st of every month and payment
received by the 15th of the next month
5% retainage on all payments
36
PRICE PROPOSAL
Basic Facility Proposal Price $6,458,182
Optional Facilities Proposal Price $3,160,805
Parking and Transportation Facility Proposal price $3,545,865
Total Project Price Proposal $13,164,853
Introduction Facility Drainag Structura ConstructioLEEDAcces
38. Cost Estimate
Parking and Transportation Facility
38
CSI division Total Cost
Direct cost
Division 31 - Earthwork $144,271.58
Division 32 - Exterior Improvement $2,320,927.91
Division 33 - Utilities $275,384.21
Total Direct Cost $2,740,583.70
Indirect Cost
Fees $426,129
Insurance $143,881
Allowance $664,592
Total indirect Cost $1,234,602
Total Facility cost (89.2% reduction factor) $3,545,865
Introduction Facility Drainag Structura ConstructioLEEDAcces
39. Cost Estimate
Optional Facility
39
Direct cost Total Cost
Soccer $664,047
Seat expansion $105,000
Other Roadways and parking facility $1,666,245
Total Direct cost $2,435,292
Indirect Cost
Fees $389,800
Insurance $127,853
Allowance $590,558
Total indirect Cost $1,108,211
Total Facility cost (89.2% reduction factor) $3,160,805
Introduction Facility Drainag Structura ConstructioLEEDAcces
40. Project Schedule
Project duration: 462 days; ~ 20 months
Design schedule
Conceptual Design: Jan 13,09 –May 5, 09
Final Design: May 1, 09 – Aug 12, 09
Construction schedule
Site preparation and mobilization: Aug 3, 09
Construction starts: Aug 17, 09
Scheduled completion date: Oct 20, 2010
Latest construction completion date : Nov 30, 2010
40Introduction Facility Drainag Structura ConstructioLEEDAcces
44. References
Ashley, Erin. "Using Pervious Concrete to achieve LEED credits." 2008.
Pervious Concrete Pavement. 02 February 2009
<http://www.perviouspavement.org/benefits_LEEDcredit.htm>.
B4UBUILD. A Sample Residential Construction Schedule. 1998 - 2008. 19
February 2009 <http://www.b4ubuild.com/resources/schedule/6kproj.shtml>.
CE 498 - CE Design Project. January 2009. 02 February 2009
<https://engineering.purdue.edu/Courses/CE498>.
Corporation, The Schneider. "Storm Water Analysis." 2007.
Google. Google Earth. West Lafayette, February 2009.
Hydraway Drainage Systems. “Hydraway 2000.” 2007.
<http://www.hydraway.net/hydraway_2000.php>
HNTB. Purdue University - Athletic Facilities Master Plan. Conceptual
master plan. Indianapolis: HNTB, 2007.
J&M Equipment Specialist & Salvage Recovery. 2008. 2 February 2009
<jmequipmentspecialist.com/id7.html>.
Michigan, University of. Michigan Go Blue. February 2009. February 2009
<http://www.mgoblue.com/facilities/article.aspx?id=28646#>.
44
45. References cont’d
Microsoft. Live Search Maps. February 2009. February 2009
<http://maps.live.com/>.
Office of the University Architect. "Consultant's Handbook." 2006. Office of
University Architect. 20 January 2009
<http://www.purdue.edu/architect/resources/handbook/index.html>.
Qualite. Design Soccer. 2008. 12 February 2009
<http://www.qualite.com/DesignSoccer.html>.
RS Means. Building Construction Cost Data. Kingston, MA: R.S. Means
Company, 2009.
The Schneider Corporation. "Report of Geotechnical Engineering Study."
2008.
The Schneider Corporation. "Storm Water Analysis." 2007.
U.S. Fish and Wildlife Service. "Viewing Wetland with Google Earth (Plug-in
for Google Earth)." July 2008.
U.S. Green Building Council. New Construction Version 2.2 Reference
Guide. Washington, DC: U.S. Green Building Council, 2006.
US Green Building Council. 2009. 20 January 2009 <http://www.usgbc.org/>.
45