Impact of Modeling Simplification on Energy Simulation Speed and Accuracy Considering Climate Change: A Case Study of a Dormitory Building

Authors

Yasaman Dadras, University of Ottawa, CanadaFollow
Farzad Mostafazadeh, University of Ottawa, CanadaFollow
Miroslava Kavgic, University of Ottawa, CanadaFollow

Abstract

This study explores the impact of various weather files on the simulation accuracy of building energy model simplifications, focusing on thermal zone abstraction, HVAC system simplification, and material definition. Using a Canadian dormitory building as a case study, a detailed model is progressively simplified into four scenarios, ranging from individual to single-zone models. After calibration with real-world data, both detailed and simplified models are used to evaluate sixteen retrofit scenarios under current and future weather conditions, incorporating various present and future Typical Meteorological Year (TMY) and Canadian Weather Year for Energy Calculation (CWEC) files to account for climate change impacts.

Results reveal that all pre-calibrated simplification scenarios demonstrate deviations in total energy demand, approximately below 25%. Moreover, after implementing Energy Efficiency Measures (EEMs), calibrated simplified models exhibit an error of less than 10% compared to the detailed model. Furthermore, the simulations using various weather files reveal trends associated with climate change. As temperatures are projected to rise in the following decades, the simulated models using future weather files show approximately a 30% reduction in heating demand. However, simulations using TMY weather files indicate an average of 8.7% higher natural gas demand compared to those using CWEC weather files. This discrepancy underscores the critical importance of selecting appropriate weather datasets in energy modeling, as varying climatic assumptions influenced by climate change can significantly impact the results.

The paper will be presented:

Online

Primary U.N. Sustainable Development Goals (SDG)

Climate Action - - Take urgent action to combat climate change and its impacts

Secondary U.N. Sustainable Development Goals (SDG)

Industry, Innovation and Infrastructure - - Build resilient infrastructure, promote inclusive and sustainable industrialization and foster innovation

Primary CIB Task Group OR Working commission

TG124 – Net Zero Carbon Building Design and Construction Practices

Secondary CIB Task Group OR Working commission

W116 – Smart and Sustainable Built Environments

Recommended Citation

Dadras, Yasaman; Mostafazadeh, Farzad; and Kavgic, Miroslava (2025) "Impact of Modeling Simplification on Energy Simulation Speed and Accuracy Considering Climate Change: A Case Study of a Dormitory Building," CIB Conferences: Vol. 1 Article 171.
DOI: https://doi.org/10.7771/3067-4883.1926