Poster presented at the 2023 AEESP Research & Education Conference in Boston, MA. Abstract: Objective: Develop and demonstrate a framework to estimate the life-cycle GHG emissions that result from repairing flood damages to single-family residential structures. Methods: Use component-level depth-damage estimates to generate economic demand vectors for five residential structure types across a range of flood depths. Input demand vectors into U.S. EPA's USEEIO LCIA model to produce structure-level depth-emissions curves for each structure type. Apply framework to Mississippi River Valley case study. Results: Depth-emissions curves were produced for five residential structure types. Case study results show that damages from the 100-year flood could produce 1.85 - 2.66 x 108 kg CO2eq in the Burlington-Davenport region and 1.11 - 3.01 x 108 kg CO2eq in the Paducah-Cairo region.