BOLAND DRIVE PATH PROJECT Martin Le Jack Reilly Paul Rodriguez Allison Rotella Maria Wilson
INTRODUCTION TO PROJECT The purpose: to construct a multi-purpose path, which will connect two existing bike and pedestrian paths The scope: the area along the south side of Boland Drive between Riverside Drive and Portage Avenue, a location that runs parallel to Pinhook Lake The elements: a cantilevered bridge in areas of steep decline to the lake, a recreational overlook, and a shared path sidewalk along Boland Drive The end goal: to encourage biking and walking as alternative forms of transportation for motorists.
BIKE THE BEND Bicycle Friendly Community Status Top ranked in Indiana City Plan of 2006 includes a Bicycle Plan outlining how the City will address encouraging bicycling as a form of alternate transportation Bike South Bend 2010-2012 Long-term 103-mile bike plan Beneficial for individuals and community at large Reduction in congestion and delays on roadways, lower emissions from gasoline-powered vehicles, reduction in maintenance costs for roadways, amplified interest in the recreational area
CITY S BIKE PLAN Mid-2013: 63.4 miles complete Multi-purpose Paths Striped Bike Lanes On-road Shared Routes Future Goals League of American Bicyclists 5 Es
DESIGN PHILOSOPHY Efficiency, Creativity, and Ethics Efficiency federal funds are limited, so design must be cost effective, and use local contractors Creativity thinking outside of the box for fresh ideas Ethics important to remain ethical at all times J.A.M.M.P. Engineering has a variety of experience in providing engineering services to both public and private clients We pride ourselves in the quality of our work and our ability to provide for our clients as a committed and well - qualified team of engineers
PROJECT TEAM City of South Bend Client J.A.A.M.P. Engineering Project Lead Eric Wolverton Technical Consultant Allison Rotella Project Manager Martin Le John Reilly Maria Wilson Paul Rodriguez Earth Exploration Bridge Design Field Surveying Regulatory Compliance
DESIGN ALTERNATIVES Several design characteristics considered: Location Material Structural System Path Use
LOCATION Path will follow the south side of Boland Drive on the North Side of Pinhook Lake Alternatives include: North Side of Boland Following Ribourde Drive
MATERIALS Reinforced concrete piles and decking Wood-Plastic Composite Wearing Surface and Railings Alternatives include: Steel Lumber
STRUCTURAL SYSTEM Combination of Piles into Lakebed and cantilevered supports from bank Outlook area will require more piles into lakebed Transitions from sidewalk on Boland to path on lake will require supports into bank with varying degrees of cantilever effect Geological properties of the area currently unknown Exact survey data also unknown
DESIGN CHALLENGES Stability of Bank AASHTO Requirements ADA Requirements Gabion Wall Traffic Maintenance
TYPICAL CROSS SECTION OF TWO WAY SHARED USE PATH
SAFETY RAILING REQUIREMENTS Ideal Shoulder Width: 3 5 Maximum Cross Slope: 6:1 Recommended Cross Slope: -typical = 1% -not to exceed = 2% Grade Requirements: -5% max for any distance -8.3% max for up to 200-10% max or up to 30-12.5% max for up to 10
SAFETY RAILING REQUIREMENTS
ROAD CROSSING REQUIREMENTS
EXAMPLE SIGNAGE
PROJECT SCHEDULE
SUMMARY Location: the south side of Boland Drive in the area between Riverside Drive and Portage Avenue Components: a bridge portion along Pinhook Lake, an overlook, and a sidewalk running parallel to Boland Drive Structure: a combination of cantilevered and piles Material: a concrete deck with wood paneling Use: a bike and pedestrian path, as well as a recreational center due to the overlook and benches
CONCLUSION We are confident that our design and construction of the Boland Drive Multi-Use Pathway between Portage Avenue and Riverside Drive will enhance the local area. The path, which will comply with regional standards and accommodate all bicycle and pedestrian users, will fit in nicely with the City s Comprehensive Plan. As such, J.A.M.M.P. would be honored to be an integral part of the Boland Drive Path Project.