Characterizing the Spatiotemporal Evolution of Building-Stock Age in Poultney, Vermont: A GIS-Based Approach to Improve Thermal Efficiency in Historical Buildings

Abstract

Many industrialized countries are exploring ways to facilitate the prioritization of efforts targeting improved thermal efficiency in an aging building stock. Older buildings, typically, have inefficient building envelopes and higher energy-consumption patterns relative to new construction, which contributes to higher overall energy consumption at the local and regional scale. Reducing energy consumption by increasing the efficiency of older buildings will result in lower anthropogenic greenhouse gas emissions and help address the growing issues related to climate change. To address these concerns a GIS-based approach is developed to evaluate building-stock age in rural communities with limited access to historical parcel data. This approach involves georeferencing historical Sanborn insurance maps, digitizing building footprints for each year. This methodology is applied to a small town in rural Vermont and a map is produced depicting the spatiotemporal evolution of building construction over the years 1885–1940. 1091 structures built prior to 1941 are identified and it is argued that weatherization efforts should focus on the oldest buildings first and sequentially address younger structures, lowering both energy consumption and greenhouse gas emissions associated with the least-efficient building stock.