1. Understanding the role of biofilms and estimation of life-span of a tire derived aggregates-based underground stormwater treatment system.
- Author
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Singh, Rajneesh and Gulliver, John S.
- Subjects
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BIOFILMS , *URBAN runoff , *COPPER , *WASTE recycling , *WASTE tires - Abstract
• An attempt is made towards treatment of urban runoff using tire derived aggregates. • Role of biofilms in TDA-based treatment systems was analyzed using batch studies. • Phosphorous concentration is reduced below USEPA recommended disposal limit. • TDA-based stormwater treatment systems can work roughly up to 8–9 years. • Biofilm was seen to limit the leaching of metals from tire-derived aggregates. The importance of biofilm in tire derived aggregates (TDA) based underground systems has been investigated in this paper, to assess the utilization of tire waste as a cost-effective and sustainable resource for stormwater treatment. The primary objective of this study is to look into the role of biofilms in preventing metal leaching from a TDA based stormwater treatment system and to estimate the life span of a TDA based stormwater treatment system. TDA subjected to different influents to promote or limit the growth of biofilms were analyzed for their leaching and adsorption potential for fifteen different metals through 72 flushes, which is representative of roughly 9 years of TDA exposure to storm events in the upper Midwest USA. Biofilm growth on a manufacturing byproduct (wire exposed-TDA) was higher than on the traditional TDA. The presence of biofilm on TDA had a minor impact on orthophosphate adsorption as observed in a previous study conducted by the authors. However, metals such as iron, zinc and copper, which were previously a concern, had substantially lower leaching into the stored runoff. In addition, the orthophosphate removal from runoff by TDA with a biofilm through 72 flushes indicates that TDA based underground systems can have orthophosphate removal life span beyond 8–9 years. Thus, TDA with biofilms in an underground storage/infiltration chamber has the potential to establish itself as a sustainable, cost-effective, and long life-span alternative for stormwater remediation of orthophosphate pollution without leaching of metals. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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