Helena R. Tiedmann scite author profile

When engineers design and manage a building’s water and electricity utilities, they must make assumptions about resource use. These assumptions are often challenged when unexpected changes in demand occur, such as the spatial and temporal changes observed during the coronavirus (COVID-19) pandemic. Social distancing policies (SDPs) enacted led many universities to close their campuses and implement remote learning, impacting utility consumption patterns. Yet, little is known about how consumption changed at the building level. Here, we aim to understand how water and electricity consumption changed during the pandemic by identifying characteristic weekly demand profiles and understanding how these changes were related to regulatory and social systems. We performed k-means clustering on utility demand data measured before and as the pandemic evolved from five buildings of different types at the University of Texas at Austin. As expected, after SDPs were enacted both water and electricity use shifted, with most buildings seeing a sharp initial decline that remained low until the university partially reopened. In contrast to electricity use, we found that water use was tightly coupled with SDPs. Our study provides actionable information for managers to mitigate negative impacts (e.g., water stagnation) and capitalize on opportunities to minimize resource use.

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Controversy in wind energy construction projects: How social systems impact project performance

LaPatin

Spearing

Tiedmann

et al. 2023

Energy Policy

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Tracking the post-disaster evolution of water infrastructure resilience: A study of the 2021 Texas winter storm

Tiedmann

Spearing

Castellanos

et al. 2023

Sustainable Cities and Society

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A synthesis and review of exacerbated inequities from the February 2021 winter storm (Uri) in Texas and the risks moving forward

et al. 2023

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A severe winter storm in February 2021 impacted multiple infrastructure systems in Texas, leaving over 13 million people without electricity and/or water, potentially $100 billion in economic damages, and almost 250 lives lost. While the entire state was impacted by temperatures up to 10 °C colder than expected for this time of year, as well as levels of snow and ice accumulation not observed in decades, the responses and outcomes from communities were inconsistent and exacerbated prevailing social and infrastructure inequities that are still impacting those communities. In this contribution, we synthesize a subset of multiple documented inequities stemming from the interdependence of the water, housing, transportation, and communication sectors with the energy sector, and present a summary of actions to address the interdependency of infrastructure system inequities.

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Tracking the Post-Disaster Evolution of Water Infrastructure Resilience: A Study of the 2021 Texas Winter Storm

Tiedmann

Spearing²,

Castellanos

et al. 2022

SSRN Journal

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