TY - GEN
T1 - Equitable Access to Affordable and Clean Water in Pre-Pandemic, Pandemic, and Post-Pandemic Modes of Work
AU - Vizanko, Brent
AU - Komarovsky, Shimon
AU - Zauscher, Elias
AU - Ostfeld, Avi
AU - Berglund, Emily
N1 - Publisher Copyright: © 2025 ASCE.
PY - 2025
Y1 - 2025
N2 - The distribution of clean water through public systems can be inequitable, as variations in water quality are common drivers for negative health outcomes and can lead households to spend more on water treatment or alternative sources of water, such as bottled water. The COVID-19 pandemic caused complex, location dependent changes to demands due to social distancing that led to changes in water quality. The first wave of social distancing was characterized by wide-spread adoption of work-from-home practices and social distancing, causing water demands to shift from places of employment and recreation to residences. Subsequent changes have ushered in a new post-pandemic regime that is characterized by a hybrid work force. The hybrid work force includes many individuals who have adopted a personal schedule of working from home and working from the office that increases the uncertainty in modeling daily population movement changes and demands. The changes in water quality that followed the change from pre-pandemic, business-as-usual scenarios to COVID-19 social distancing scenarios were modeled using an agent-based modeling framework coupled with a virtual WDS network, but further research is needed to explore how changes to hybrid work generate changes in demands and water quality. Water quality changes caused by the transition from pandemic to post-pandemic regimes have not been quantified, and this research develops a tool to test and compare water quality, equitable access to clean water, and the cost of water in pre-pandemic, pandemic, and post-pandemic scenarios. An agent-based model (ABM) is developed to simulate the movement of individual agents to and from home, work, and leisure locations. The cost of buying water is calculated using the demand specified in the hydraulic network. Equity is assessed using the cost of water as a percentage of income for households in the lower 20% of incomes. In this work, an ABM is applied to a hydraulic system synthesized for Clinton, North Carolina. The hydraulic model is created using street maps to place pipes and nodes, well locations to place water sources, and census data to determine the demand required. Household incomes are distributed to represent Clinton, North Carolina, using census data. The ABM is applied for three scenarios, pre-pandemic, pandemic, and post-pandemic, and results demonstrate changes in water quality that lead to economic inequities. The modeling framework that is developed in this research can be applied to assess equity impacts of water quality changes such as those associated with pandemic scenarios.
AB - The distribution of clean water through public systems can be inequitable, as variations in water quality are common drivers for negative health outcomes and can lead households to spend more on water treatment or alternative sources of water, such as bottled water. The COVID-19 pandemic caused complex, location dependent changes to demands due to social distancing that led to changes in water quality. The first wave of social distancing was characterized by wide-spread adoption of work-from-home practices and social distancing, causing water demands to shift from places of employment and recreation to residences. Subsequent changes have ushered in a new post-pandemic regime that is characterized by a hybrid work force. The hybrid work force includes many individuals who have adopted a personal schedule of working from home and working from the office that increases the uncertainty in modeling daily population movement changes and demands. The changes in water quality that followed the change from pre-pandemic, business-as-usual scenarios to COVID-19 social distancing scenarios were modeled using an agent-based modeling framework coupled with a virtual WDS network, but further research is needed to explore how changes to hybrid work generate changes in demands and water quality. Water quality changes caused by the transition from pandemic to post-pandemic regimes have not been quantified, and this research develops a tool to test and compare water quality, equitable access to clean water, and the cost of water in pre-pandemic, pandemic, and post-pandemic scenarios. An agent-based model (ABM) is developed to simulate the movement of individual agents to and from home, work, and leisure locations. The cost of buying water is calculated using the demand specified in the hydraulic network. Equity is assessed using the cost of water as a percentage of income for households in the lower 20% of incomes. In this work, an ABM is applied to a hydraulic system synthesized for Clinton, North Carolina. The hydraulic model is created using street maps to place pipes and nodes, well locations to place water sources, and census data to determine the demand required. Household incomes are distributed to represent Clinton, North Carolina, using census data. The ABM is applied for three scenarios, pre-pandemic, pandemic, and post-pandemic, and results demonstrate changes in water quality that lead to economic inequities. The modeling framework that is developed in this research can be applied to assess equity impacts of water quality changes such as those associated with pandemic scenarios.
UR - http://www.scopus.com/inward/record.url?scp=105006935604&partnerID=8YFLogxK
U2 - 10.1061/9780784486184.056
DO - 10.1061/9780784486184.056
M3 - منشور من مؤتمر
T3 - World Environmental and Water Resources Congress 2025: Cool Solutions to Hot Topics - Proceedings of World Environmental and Water Resources Congress 2025
SP - 604
EP - 609
BT - World Environmental and Water Resources Congress 2025
A2 - Ahmad, Sajjad
A2 - Struck, Scott
A2 - Drummond, Chad
T2 - World Environmental and Water Resources Congress 2025: Cool Solutions to Hot Topics
Y2 - 18 May 2025 through 21 May 2025
ER -