Anthony Pimentel, Gary Hunter, Anthony Pimentel, Robert Osborne, James Garrison, Steven DeBoses
{"title":"间歇性UV LP和LED系统的弹性、可持续性和风险","authors":"Anthony Pimentel, Gary Hunter, Anthony Pimentel, Robert Osborne, James Garrison, Steven DeBoses","doi":"10.2175/193864718825159162","DOIUrl":null,"url":null,"abstract":"Resilience, Sustainability, and Risk of Intermittent UV LP And LED SystemsAbstractUV LP and LED systems were compared in their engineering viability for an intermittent flow, 1 MGD average flow UV wastewater system at 65% UVT regarding resilience, sustainability, and risk. Resiliency to system cycling, sustainability via a life-cycle cost comparison, and risk of maintaining system performance guarantees were evaluated for LP, current LED, and future LED systems. Overall, this assessment demonstrated the feasibility and future optimization of these systems in wastewater disinfection. As UV LEDs continue to develop and enter the wastewater market, full-scale UV LED systems could help wastewater treatment systems reduce energy cost, labor requirements, and monetary risk. Advancement of UV LP and LED systems in treating intermittent flows with minimal energy requirements will help the wastewater industry meet climate change and sustainability initiatives.UV LP and LED systems were compared in their engineering viability for an intermittent flow, 1 MGD UV wastewater system at 65% UVT regarding resilience, sustainability, and risk. Resiliency to system cycling, sustainability in a life-cycle cost comparison, and risk of maintaining system performance guarantees were evaluated for LP, current LED, and future LED systems. Overall, this assessment will demonstrate the feasibility and future optimization of these systems in wastewater disinfection.SpeakerPimentel, AnthonyPresentation time09:00:0009:30:00Session time08:30:0010:00:00SessionUV Disinfection: Where are we? Where are we going?Session locationRoom S404c - Level 4TopicDisinfection and Public Health, Intermediate Level, Municipal Wastewater Treatment Design, Research and InnovationTopicDisinfection and Public Health, Intermediate Level, Municipal Wastewater Treatment Design, Research and InnovationAuthor(s)Pimentel, AnthonyAuthor(s)A. Pimentel <sup>1</sup>; G. Hunter <sup>2 </sup>; A. Pimentel <sup>1</sup>; H. Mettlan <sup>3</sup>; R. Osborne <sup>4</sup>; J. Garrison <sup>6</sup>; S DeBoses <sup>6</sup>;Author affiliation(s)Black & Veatch <sup>1</sup>; Black & Veatch <sup>2 </sup>; Black & Veatch, Los Angeles, CA <sup>1</sup>; Black & Veatch <sup>3</sup>; Black & Veatch <sup>4</sup>; Clemson Wastewater Treatment Facility <sup>6</sup>; Clemson Wastewater Treatment Facility <sup>6</sup>;SourceProceedings of the Water Environment FederationDocument typeConference PaperPublisherWater Environment FederationPrint publication date Oct 2023DOI10.2175/193864718825159162Volume / Issue Content sourceWEFTECCopyright2023Word count12","PeriodicalId":498160,"journal":{"name":"Proceedings of the Water Environment Federation","volume":"34 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2023-10-04","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Resilience, Sustainability, and Risk of Intermittent UV LP And LED Systems\",\"authors\":\"Anthony Pimentel, Gary Hunter, Anthony Pimentel, Robert Osborne, James Garrison, Steven DeBoses\",\"doi\":\"10.2175/193864718825159162\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Resilience, Sustainability, and Risk of Intermittent UV LP And LED SystemsAbstractUV LP and LED systems were compared in their engineering viability for an intermittent flow, 1 MGD average flow UV wastewater system at 65% UVT regarding resilience, sustainability, and risk. Resiliency to system cycling, sustainability via a life-cycle cost comparison, and risk of maintaining system performance guarantees were evaluated for LP, current LED, and future LED systems. Overall, this assessment demonstrated the feasibility and future optimization of these systems in wastewater disinfection. As UV LEDs continue to develop and enter the wastewater market, full-scale UV LED systems could help wastewater treatment systems reduce energy cost, labor requirements, and monetary risk. Advancement of UV LP and LED systems in treating intermittent flows with minimal energy requirements will help the wastewater industry meet climate change and sustainability initiatives.UV LP and LED systems were compared in their engineering viability for an intermittent flow, 1 MGD UV wastewater system at 65% UVT regarding resilience, sustainability, and risk. Resiliency to system cycling, sustainability in a life-cycle cost comparison, and risk of maintaining system performance guarantees were evaluated for LP, current LED, and future LED systems. Overall, this assessment will demonstrate the feasibility and future optimization of these systems in wastewater disinfection.SpeakerPimentel, AnthonyPresentation time09:00:0009:30:00Session time08:30:0010:00:00SessionUV Disinfection: Where are we? Where are we going?Session locationRoom S404c - Level 4TopicDisinfection and Public Health, Intermediate Level, Municipal Wastewater Treatment Design, Research and InnovationTopicDisinfection and Public Health, Intermediate Level, Municipal Wastewater Treatment Design, Research and InnovationAuthor(s)Pimentel, AnthonyAuthor(s)A. Pimentel <sup>1</sup>; G. Hunter <sup>2 </sup>; A. Pimentel <sup>1</sup>; H. Mettlan <sup>3</sup>; R. Osborne <sup>4</sup>; J. 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Resilience, Sustainability, and Risk of Intermittent UV LP And LED Systems
Resilience, Sustainability, and Risk of Intermittent UV LP And LED SystemsAbstractUV LP and LED systems were compared in their engineering viability for an intermittent flow, 1 MGD average flow UV wastewater system at 65% UVT regarding resilience, sustainability, and risk. Resiliency to system cycling, sustainability via a life-cycle cost comparison, and risk of maintaining system performance guarantees were evaluated for LP, current LED, and future LED systems. Overall, this assessment demonstrated the feasibility and future optimization of these systems in wastewater disinfection. As UV LEDs continue to develop and enter the wastewater market, full-scale UV LED systems could help wastewater treatment systems reduce energy cost, labor requirements, and monetary risk. Advancement of UV LP and LED systems in treating intermittent flows with minimal energy requirements will help the wastewater industry meet climate change and sustainability initiatives.UV LP and LED systems were compared in their engineering viability for an intermittent flow, 1 MGD UV wastewater system at 65% UVT regarding resilience, sustainability, and risk. Resiliency to system cycling, sustainability in a life-cycle cost comparison, and risk of maintaining system performance guarantees were evaluated for LP, current LED, and future LED systems. Overall, this assessment will demonstrate the feasibility and future optimization of these systems in wastewater disinfection.SpeakerPimentel, AnthonyPresentation time09:00:0009:30:00Session time08:30:0010:00:00SessionUV Disinfection: Where are we? Where are we going?Session locationRoom S404c - Level 4TopicDisinfection and Public Health, Intermediate Level, Municipal Wastewater Treatment Design, Research and InnovationTopicDisinfection and Public Health, Intermediate Level, Municipal Wastewater Treatment Design, Research and InnovationAuthor(s)Pimentel, AnthonyAuthor(s)A. Pimentel 1; G. Hunter 2 ; A. Pimentel 1; H. Mettlan 3; R. Osborne 4; J. Garrison 6; S DeBoses 6;Author affiliation(s)Black & Veatch 1; Black & Veatch 2 ; Black & Veatch, Los Angeles, CA 1; Black & Veatch 3; Black & Veatch 4; Clemson Wastewater Treatment Facility 6; Clemson Wastewater Treatment Facility 6;SourceProceedings of the Water Environment FederationDocument typeConference PaperPublisherWater Environment FederationPrint publication date Oct 2023DOI10.2175/193864718825159162Volume / Issue Content sourceWEFTECCopyright2023Word count12
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