Examination of the release of lead and bacteria from activated carbon point-of-use filters

Clark, Gemma Giovanna

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https://hdl.handle.net/2142/124546 Copy

Description

Title

Examination of the release of lead and bacteria from activated carbon point-of-use filters

Author(s)

Clark, Gemma Giovanna

Issue Date

2024-04-19

Director of Research (if dissertation) or Advisor (if thesis)

Nguyen, Thanh H

Doctoral Committee Chair(s)

Nguyen, Thanh H

Committee Member(s)

• Verma, Vishal
• Smith, Rebecca L
• Giammar, Daniel E

Department of Study

Civil & Environmental Eng

Discipline

Environ Engr in Civil Engr

Degree Granting Institution

University of Illinois at Urbana-Champaign

Degree Name

Ph.D.

Degree Level

Dissertation

Keyword(s)

• Bacteria
• Lead
• Point-of-use Filter
• Drinking Water Quality
• Biofilm

Language

eng

Abstract

Drinking water distribution system infrastructure in the United States is aging and degrading, contributing to numerous public health crises and a rise in concern over chemical and microbiological water quality. Point-of-use (POU) filters certified to remove lead (Pb), many of which are composed of porous solid block activated carbon media, have become increasingly popular as a temporary solution to address drinking water quality problems. Unfortunately, these filters can release high concentrations of bacteria and fail to effectively remove particulate Pb. For their rapid rise in usage, these POU filters are understudied, and some unintended consequences go overlooked in the pursuit of an inexpensive and convenient solution to decrease Pb exposure in drinking water. The goal of this work was to capture a holistic view of the contributions activated carbon POU filters make to drinking water quality. We examined the impacts of the common corrosion inhibitor phosphate on biofilm characteristics and the relationship between biofilm structure and bacterial release from POU filters. Phosphate filters released lower concentrations of bacteria than groundwater filters, and phosphate biofilms grew to be thicker and rougher than groundwater biofilms. This knowledge is essential for understanding where these filters fit in a system where other lead contamination prevention measures may be in place. We quantified the risk posed by Legionella pneumophila (L. pneumophila) in homes supplied by private wells and studied the role POU filters play on the microbial risk of drinking water. L. pneumophila was detected in about 30% of samples in rural homes. Systems without filters and without chlorine had the highest risk, followed by those with ripe filters (>1 week old), those without filters and with chlorine, and finally, those with new filters. Acquiring quantitative data and understanding the factors influencing the microbial risk in understudied water systems and from using these ubiquitous POU filters is essential for risk management in indoor environments. We examined the impacts of water hardness and biofilm in the filters on the Pb removal efficiency of activated carbon POU filters. Adding calcium and dissolved biomass diminished the repulsion of negatively charged Pb phosphate nanoparticles, increasing aggregation and improving POU filter performance. This study provides important insights into how well filters will remove Pb as bacteria accumulate and grow, the contribution of aggregation to this Pb removal efficiency, and to what extent additional measures need to be taken to minimize bacterial growth.

Graduation Semester

2024-05

Type of Resource

Text

Handle URL

https://hdl.handle.net/2142/124546

Copyright and License Information

Copyright 2024 Gemma Clark

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