Opportunity
East Palo Alto Municode #ST-33
Civil Engineering Design Services for Woodland Avenue Street Improvement Project
Posted
October 04, 2023
Respond By
July 31, 2026
Identifier
ST-33
NAICS
541330
The City of East Palo Alto Public Works Department, Engineering Division, is seeking qualified firms to provide civil engineering design services for the Woodland Avenue Street Improvement Project (ST-33). - Scope of work includes: - Preparation of plans, specifications, and engineer’s estimate (PS&E) for improvements along Woodland Avenue between University Avenue and Newell Road - Roadway repair, sidewalk installation, ADA accessibility enhancements, traffic calming measures, stormwater improvements, and signage/striping - Environmental documentation and clearance (PA & ED) - Public outreach and coordination - Delivery of 50% and 100% design plan sets, bid packages, technical specifications, construction schedules, and cost estimates - Bid support and construction support (responding to RFIs, field inspections, review of change orders, punch list preparation) - No specific OEMs or hardware products are required; the procurement is for professional engineering consulting services - Opportunity is open to qualified civil engineering service providers with relevant experience - Reimbursable expenses are capped at $1,000 per task - The contract term will be determined based on the agreed scope, fee proposal, and budget availability
Description
The City of East Palo Alto is requesting proposals for civil engineering design services for the Woodland Avenue Street Improvement Project. The project includes preparation of plans, specifications, and engineer's estimate for street improvements along Woodland Avenue between University Avenue and Newell Road. The scope involves roadway repair, installation of sidewalks, ensuring ADA accessibility, construction of traffic calming measures, stormwater improvements, and signage and striping. The goal is to increase safety for pedestrians, cyclists, and drivers, and encourage alternative transportation modes to reduce vehicle traffic.