The document provides information on the proposed Clinton River Wastewater Treatment Plant project. Key details include:
- The plant will be located in Madison Heights, Michigan and treat 50 million gallons per day of wastewater from Oakland County.
- Engineering services will be provided for construction, environmental, structural, water resources, and transportation aspects.
- The treatment process will include primary settling, aeration tanks, secondary settling, and tertiary treatment before discharge.
- Structural designs and analyses were presented for the administration/education building and tertiary treatment facility.
- A cost estimate of $200 million was provided along with a project schedule through completion in 2015.
3. • 760 square miles
• 80 miles from the headwaters to the
outlet at Lake St. Clair
• Includes portions of Wayne, Lapeer,
Macomb, Oakland and St. Clair
counties
• Land uses include industrial, urban,
suburban and agricultural
• Contains 63 communities
• 1.5 million people live within the
watershed
• Most populated watershed in Michigan
Clinton River Watershed Council 3
Clinton River Watershed
4. Area of Concern (Environmental Protection
Agency)
• Degraded fish &
wildlife populations
• Beach closings and
other restrictions
• Degradation of
aesthetics
Combined sewer overflows are the largest
source of pollutants by CRWC
http://detroit.cbslocal.com
4
Environmental Impacts
6. • Diverts 30 percent of Oakland County’s effluent collected from
twelve different cities from the Detroit Water and Sewage
Department
• The wastewater is treated to meet the National Pollutant
Discharge Elimination System (NPDES)
• Includes the construction of an Administration/Environmental
Awareness Center
• Educate local communities of the treatment processes used
• Promote awareness of sustainable water reuse
Project Overview
Clinton River Watershed Council
6
7. • LMPP Consultants is to provide the following
engineering services listed below:
• Construction Engineering
• Environmental Engineering
• Structural Engineering
• Water Resources Engineering
• Constraints are the following:
• Geotechnical Engineering
• Transportation Engineering
• Inlet and Outlet Design
7
Engineering Services and Constraints
9. • Madison Heights, Oakland
County, MI (Site 3)
• Bounded by I-75, W Twelve
Mile Rd and John R Rd
• Located on Ajax Drive
Project Location
Influent
Effluent
Existing
Interceptor
9
10. • Site is currently used as a police
impound lot, a recreational vehicle
storage lot and composite site
• The site is located in an industrial
area showing no zoning conflicts
• The adjacent land is owned by
DTE Energy Chestnut Station
which will provide electrical
services to the WWTP
• The site requires clearing and
milling of the existing parking lot
areas
10
Existing Site Locations
12. • Locate and select sources of wastewater influent
processed in the proposed WWTP
• Locate and select receiving bodies of water for the
proposed WWTP effluent
• Determine NPDES Permit limits for the project site
• Determine the “best” treatment process for the
project
• Develop equipment location and size
• Develop a treatment plant master plan that details
the prospects for future expansion
• Report all requirements to the project stakeholders
in the Environmental Engineering Technical Report
12
Environmental Engineering Scope
17. • Architectural & Structural Layouts
• Gravity and Environmental Load
Calculations:
• Dead Loads
• Live Loads
• Wind Loads
• Snow Loads
• Seismic Loads
• Identification and Design of Lateral Force
Resisting System
• Roof / Flooring System Design
• Analysis using Structural Design Software
• Member Design (Beams, Columns, Etc.)
• Shear and Moment Connection Details
Typical Beam to Column
Flange with Moment
Connection
17
Structural Engineering Scope
35. • Sustainability ManagementPlan
• Cost ManagementPlan
• Logistics Plan
• Safety Management Plan
• ScopeManagementPlan
• Site Management Plan
• Schedule Management Plan
• Permitting/Approval Plan
Project Management Plan includes:
35
ConstructionEngineeringScope
36. LEED 2009 Reference Guide for Green Building Design and Construction: NewConstruction
and Major Renovations
USGBC.org
Accepted to achieve:
LEED Certified
LEED Category Points
Sustainable Sites 22
Water Efficiency 10
Energy and Atmosphere 2
Materials and Resources 4
Indoor Environmental
Quality 7
Innovation In Design 3
Total Points 48
36
LeadershipinEnergyandEnvironmentalDesign
37. Based on a casestudy outlined in the Detroit Waterand Sewerage Department
Technical Feasibility ofSatellite Treatment, 2003 proposed a new56.3 million
gallon perday WWTP along the Clinton River had a projected cost of $225.9
million resulting in a $4.01gallon perday. The Clinton River WWTP is a 50 MGD
facility resulting in an initial conceptual estimate of $200 million.
$200,000,000
37
ConceptualProjectCost
39. $72 million
36%
$102 million
51%
$26 million
13%
Infrastructure (36%)
Electrical, Mechanical and
Technical Components (51%)
Construction Management
(13%)
39
Project Cost Distribution
40. Calculated using “RSMeans Building Cost Data 2013”
based on the unit price including both equipment and
site work for the building only.
40
Administration/EnvironmentalAwareness Center
Cost
41. Staging area located
next to the office trailer
and safety board is
dedicated to house the
subcontractor’s office trailers.
I-75
41
Logistics Plan
43. CERTIFICATE OF OPERATION
A/E BUILDING
PLANT
GRIT WITH PUMP
2014 20152013
AERATION
SECONDARY AND
TERTIARY
FOUNDATION
STEEL
ENCLOSURE
INTERIORS
FIRST FLOOR
SECOND FLOOR
PRIMARY
SITEWORK
43
Project Construction Schedule
44. Schematic Design
Complete
11/21/2012
Design Development
Complete
2/1/2013
Building Permit
Approved
3/8/2013
Start Construction 4/15/2013
Construction
Documents Complete
4/19/2013
Admin. Building:
Topped Out
8/23/2013
Admin. Building:
Building Watertight
1/10/2014
Admin. Building:
Certificate of
Occupancy
2/28/2014
Tertiary Building:
Building Watertight
3/14/2014
Plant Operational 3/27/2015
44
Project Milestones
Are
we
there
yet?
54. • An erosion and sedimentation control plan during
construction
• Install low-flow and low-flush fixtures in restrooms
• A commissioning plan to verify the project’s energy-related
systems are installed, calibrated and perform to the design
requirements
• Comply with Advanced Buildings Core Performance Guide
• Do not use CFC-based refrigerates in HVAC systems
• Dedicate a minimum of 175 square feet for collection and
storage of recycling materials
• ASHRAE 62.1-2007 to mechanically, naturally and mixed-
mode ventilated spaces
• Prohibit smoking in the building
LEED Category: Prerequisites
55. • Build within ½ mile of a residential area and basic services
and with pedestrian access Public transportation access
• Provide bicycle storage and changing rooms
• Provide preferred parking to employees with low-emitting
and fuel efficient vehicles
• Provide minimum code required parking lot
• Provide a stormwater management plan to protect from
excess erosion and reuse of stormwater runoff
• Provide best management practices to treat stormwater
• Use concrete paved surfaces and plant vegetation for
shading hardscapes
• Install vegetated roof
• Utilizes “dark sky” light fixtures
LEED Category: Sustainable Sites
56. • Plant native and drought resistant plantings to not require
potable water for irrigation
• Treat 50 percent of wastewater on site
• Use low flow fixtures and equipment throughout the
project
LEED Category: Water Efficiency