From concept to application: A review of use cases in urban building energy modeling.

• Analyzing prevailing workflow and requirements for urban building energy modeling (UBEM). • Categorizing UBEM applications into four main use cases via examples and summary case studies. • Outlining data sources, modeling approaches, and calibration methods for UBEM applications. • Introducing the minimum viable UBEM (MVU) concept. • Outlining potential and future development for UBEM applications. Urban building energy modeling (UBEM) is a bottom-up, physics-based approach to simulate the thermal performance of new or existing neighborhoods and cities. The field has flourished in recent years, creating increasingly robust urban data streams that lead from Geographical Information Systems, CityGML, Light Detection and Ranging, and tax assessor databases to synthetic hourly building energy demand profiles for current and potential future conditions. Depending on the availability of historic building energy use data, a variety of modeling, simulation, and calibration approaches as well as use cases have been proposed. This paper provides a consolidated UBEM workflow with data and process requirements, and organizes UBEM proposals into four main application categories: urban planning and new neighborhood design, stock-level carbon reduction strategies, individual building-level recommendations, and buildings-to-grid integration. For each application, the paper further introduces a minimum viable UBEM, a novel concept for UBEMs conceptualized in the spirit of a minimum viable product. Specific case studies and/or examples are listed for each application area where available. [ABSTRACT FROM AUTHOR]