Start of Dedicated Archived Web Content Area
This page contains Archived Web Content of the Howard County Department of Public Works. The web content stored on this page was created before April 24, 2026, reproduces paper documents created before April 24, 2026, or reproduces the content of other physical media created before April 24, 2026; is retained exclusively for reference, research, or recordkeeping; is not altered or updated after the date of archiving; and is organized and stored in this dedicated area and identified as archived web content. If you need an accessible version of any web content, paper documents, or reproductions of the content of other physical media stored on this page, please contact the Stormwater Management Division at 410-313-6444.
Plumtree Branch and Tiber Branch Stormwater Retrofit Studies
Howard County Department of Public Works completed stormwater retrofit studies in the Plumtree Branch Watershed and Tiber Branch Watershed in the Ellicott City area.The studies included drainage assessments and improvement studies of:
- Existing stormwater infrastructure (inlets, pipes, manholes, outlets, swales)
- Opportunities for improved stormwater infrastructure and management
- Opportunities for water quality improvement
Watersheds were divided into assessment areas and categorized for improved stormwater infrastructure and management and water quality opportunities:
- Potential Capital Improvement Projects
- Potential Repair and Maintenance Projects
- Potential On-Lot Improvements
Potential work in these areas depends upon further analysis, future funding, and each project’s prioritization relative to each other and to additional priorities throughout the County. Homeowners can also reduce runoff on their own properties by installing rain gardens and rain barrels, taking advantage of existing County cost-sharing, credit and reimbursement programs.
The final studies are available for viewing. Comments and questions can be sent to the Stormwater Management Division.
Valley Mede Drainage Study
A comprehensive hydrologic and hydraulic analysis of the July 30, 2016 flooding event in the Valley Mede, Chatham and Nob Hill areas of the Plumtree Branch and Little Plumtree Branch watersheds of Ellicott City was completed in 2017. This analysis also modeled how certain water retention controls, stream channel enhancements and local drainage improvements may reduce the amount of flooding for various storm conditions.
A formal presentation explaining the results of the drainage study took place at a public meeting on Wednesday November 15, 2017 starting at 7:00 PM in the George Howard Building’s Banneker Room at 3430 Court House Drive in Ellicott City. Presentation materials can be downloaded below.
Archived Ellicott City - Tiber Branch Watershed Materials
A detailed floodplain analysis using both one-dimensional and two-dimensional hydraulic modeling is available for viewing. The floodplain study, which was completed in July 2013, considered several standard rainfall events as well as the rainfall event that resulted from the remnants of Tropical Storm Lee on September 7, 2011. The study also included a conceptual assessment of potential flood mitigation options.
Rainfall Intensity Distribution Comparison
Cumulative Rainfall Distribution Comparison
Flooding Depth and Limits - Multiple Storm Events
Appendix A - Existing Hydrology and Hydraulics
Appendix C - Proposed Hydrology and Hydraulics
Appendix D - 1-D Hydraulic Modeling (HEC-RAS)
Appendix E - 2-D Hydraulic Modeling (TUFLOW)
Appendix F - Center for Watershed Protection SWM Concept Analysis
Also see the supplemental Case Study: Valley Mede-Ellicott City Tropical Storm Lee Flood Event
An above-water visual condition inspection of all the retaining walls located along the Hudson Branch and Tiber Branch in Old Ellicott City, MD was conducted in Spring of 2016. The purpose of this inspection was to assess the current condition of the walls and provide a tool for prioritizing the repair of the inspected walls.
A detailed floodplain analysis using two-dimensional hydraulic modeling is available for viewing. The floodplain study, which was completed in June 2017, used the July 30, 2016 storm event as the basis for the modeling effort. The study also included a conceptual assessment of potential flood mitigation options.