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Using Activity‐Based Modeling to Simulate Urban Resource Demands at High Spatial and Temporal Resolutions

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  • James Keirstead
  • Aruna Sivakumar

Abstract

Urban metabolism is an important technique for understanding the relationship between cities and the wider environment. Such analyses are typically performed at the scale of the whole city using annual average data, a feature that is driven largely by restrictions in data availability. However, in order to assess the resource implications of policy interventions and to design and operate efficient urban infrastructures such as energy systems, greater spatial and temporal resolutions are required in the underlying resource demand data. As this information is rarely available, we propose that these demand profiles might be simulated using activity‐based modeling. This is a microsimulation approach that calculates the activity schedules of individuals within the city and then converts this information into resource demands. The method is demonstrated by simulating electricity and natural gas demands in London and by examining how these nontransport energy demands might change in response to a shift in commuting patterns, for example, in response to a congestion charge or similar policy. The article concludes by discussing the strengths and weaknesses of the approach, as well as highlighting future research directions. Key challenges include the simulation of in‐home activities, assessing the transferability of the complex data sets and models supporting such analyses, and determining which aspects of urban metabolism would benefit most from this technique.

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  • James Keirstead & Aruna Sivakumar, 2012. "Using Activity‐Based Modeling to Simulate Urban Resource Demands at High Spatial and Temporal Resolutions," Journal of Industrial Ecology, Yale University, vol. 16(6), pages 889-900, December.
    • Handle: RePEc:bla:inecol:v:16:y:2012:i:6:p:889-900
    DOI: 10.1111/j.1530-9290.2012.00486.x
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    Cited by:

    1. John, Beatrice & Luederitz, Christopher & Lang, Daniel J. & von Wehrden, Henrik, 2019. "Toward Sustainable Urban Metabolisms. From System Understanding to System Transformation," Ecological Economics, Elsevier, vol. 157(C), pages 402-414.
    2. Circella, Giovanni & Johnston, Robert & Holguin, Andrew & Lehmer, Eric & Wang, Yang & McCoy, Michael, 2013. "Updating the PECAS Modeling Framework to Include Energy Use Data for Buildings," Institute of Transportation Studies, Working Paper Series qt8jr035gh, Institute of Transportation Studies, UC Davis.
    3. Ulpiani, Giulia & di Perna, Costanzo & Zinzi, Michele, 2019. "Water nebulization to counteract urban overheating: Development and experimental test of a smart logic to maximize energy efficiency and outdoor environmental quality," Applied Energy, Elsevier, vol. 239(C), pages 1091-1113.
    4. Kraxner, F. & Aoki, K. & Kindermann, G. & Leduc, S. & Albrecht, F. & Liu, J. & Yamagata, Y., 2016. "Bioenergy and the city – What can urban forests contribute?," Applied Energy, Elsevier, vol. 165(C), pages 990-1003.
    5. McKenna, Eoghan & Thomson, Murray, 2016. "High-resolution stochastic integrated thermal–electrical domestic demand model," Applied Energy, Elsevier, vol. 165(C), pages 445-461.
    6. I-Chun Chen & Kuang-Ly Cheng & Hwong-Wen Ma & Cathy C.W. Hung, 2021. "Identifying Spatial Driving Factors of Energy and Water Consumption in the Context of Urban Transformation," Sustainability, MDPI, vol. 13(19), pages 1-18, September.

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