Aging infrastructure, constrained sites, and increasing rainfall intensity continue to exacerbate flooding and erosion challenges across Tennessee communities. The Village at Glencliff, a medical respite residential campus in Nashville, Tennessee, has experienced persistent channel instability, distressed pavement, and frequent ponding along primary access routes due to the absence of a comprehensive hydrologic assessment during prior site expansion efforts. Before future development can be fully constructed, targeted erosion mitigation and stormwater management solutions are required to protect existing residences, improve accessibility, and enhance long term site resilience. The University of Tennessee Senior Design team was tasked with evaluating existing conditions and developing practical, sustainable design alternatives addressing erosion, flooding, and pavement deterioration across the campus. The project area included a paved entrance drive, parking facilities, residential units arranged around a central rain garden, and two small tributaries that converge before discharging beneath East Thompson Road. Hydrologic analyses were conducted using modelling software in accordance with the Metro Nashville Stormwater Management Manual to identify drainage deficiencies contributing to channel erosion and roadway ponding. Design alternatives focused on improving stormwater conveyance, stabilizing channels, and mitigating erosion while coordinating with planned future development. Proposed solutions incorporated grading and layout adjustments compliant with ADA Standards, pavement design recommendations based on existing geotechnical data and local design guidance, and stormwater quality measures in accordance with TDEC regulations. Alternatives were assessed using a decision matrix grounded in Envision triple bottom line criteria, balancing environmental performance, social impact, and economic feasibility. Erosion control measures were developed per the TDEC Erosion Prevention and Sediment Control Handbook. This project demonstrates how a hydrologic assessment paired with resilient, sustainable infrastructure design can reduce flooding and erosion risks, improve accessibility and safety, and support the community. The work aligns with the American Society of Civil Engineers’ Grand Challenges by enhancing disaster resilience through innovative and practical stormwater solutions.