Howard Analla scite author profile

Howard Analla

5Publications

62Citation Statements Received

170Citation Statements Given

How they've been cited

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150

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Henderson Community College

Publications

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Survey of full‐scale sidestream enhanced biological phosphorus removal (S2EBPR) systems and comparison with conventional EBPRs in North America: Process stability, kinetics, and microbial populations

Onnis‐Hayden

Srinivasan

Tooker

et al. 2019

Water Environment Research

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Sidestream EBPR (S2EBPR) is an emerging alternative process to address common challenges in EBPR related to weak wastewater influent and may improve EBPR process stability. A systematic evaluation and comparison of the process performance and microbial community structure was conducted between conventional and S2EBPR facilities in North America. The statistical analysis suggested higher performance stability in S2EBPR than conventional EBPR, although possible bias associated with other plant‐specific factors might have affected the comparison. Variations in stoichiometric values related to EBPR activity and discrepancies between the observed values and current model predictions suggested a varying degree of metabolic versatility of PAOs in S2EBPR systems that warrant further investigation. Microbial community analysis using various techniques suggested comparable known candidate PAO relative abundances in S2EBPR and conventional EBPR systems, whereas the relative abundance of known candidate GAOs seemed to be consistently lower in S2EBPR facilities than conventional EBPR facilities. 16S rRNA gene sequencing analysis revealed differences in the community phylogenetic fingerprints between S2EBPR and conventional facilities and indicated statistically higher microbial diversity index values in S2EBPR facilities than those in conventional EBPRs. Practitioner Points Sidestream EBPR (S2EBPR) can be implemented with varying and flexible configurations, and they offer advantages over conventional configurations for addressing the common challenges in EBPR related to weak wastewater influent and may improve EBPR process stability. Survey of S2EBPR plants in North America suggested statistically more stable phosphorus removal performance in S2EBPR plants than conventional EBPRs, although possible bias might affect the comparison due to other plant‐specific factors. The EBPR kinetics and stoichiometry of the S2EBPR facilities seemed to vary and are associated with metabolic versatility of PAOs in S2EBPR systems that warrant further investigation. The abundance of known candidate PAOs in S2EBPR plants was similar to those in conventional EBPRs, and the abundance of known candidate GAOs was generally lower in S2EBPR than conventional EBPR facilities. Further finer‐resolution analysis of PAOs and GAOs, as well as identification of other unknown PAOs and GAOs, is needed. Microbial diversity is higher in S2EBPR facilities compared with conventional ones, implying that S2EBPR microbial communities could show better resilience to perturbations due to potential functional redundancy.

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Fermentation of Mixed Liquor for Phosphorus Removal

Barnard¹,

Houweling²,

Analla³

et al. 2010

proc water environ fed

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All discoveries associated with phosphorus removal were first made in plants as accidental occurrences. Once observed, they were followed by laboratory and pilot scale work to be studied and explained. While the mechanism of biological phosphorus removal has been well researched and documented to the point where it is now possible to design a plant with a very reliable phosphorus removal process using formal flow sheets, biological phosphorus removal is still observed in a number of plants that have no designated anaerobic zone, which is considered essential for phosphorus removal. It was also not possible to model all these plants with standard simulation packages such as BioWin and GPS-X. This paper will discuss some of the background, and some case histories and applications, and present a simple postulation as to the mechanism and efforts at modeling the results.

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Performance and Microbial Population in Side-Stream Enhanced Biological Phosphorus Removal Systems

Onnis‐Hayden

Tooker

et al. 2018

proc water environ fed

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Rethinking and Reforming Enhanced Biological Phosphorus Removal (EBPR) Strategy – Concepts and Mechanisms of Side-Stream EBPR

Tooker

Bott

et al. 2017

proc water environ fed

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Saving phosphorus removal at the Henderson NV plant

Barnard¹,

Houweling²,

Analla

et al. 2012

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While the mechanism of biological phosphorus removal (BPR) and the need for volatile fatty acids (VFA) have been well researched and documented to the point where it is now possible to design a plant with a very reliable phosphorus removal process using formal flow sheets, BPR is still observed in a number of plants that have no designated anaerobic zone, which was considered essential for phosphorus removal. Some examples are given in this paper. A theory is proposed and then applied to solve problems with a shortage of VFA in the influent of the Henderson NV plant. Mixed liquor was fermented in the anaerobic zone, which resulted in phosphorus removal to very low levels. This paper will discuss some of the background, and some case histories and applications, and present a simple postulation as to the mechanism and efforts at modelling the results.

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Howard Analla

Survey of full‐scale sidestream enhanced biological phosphorus removal (S2EBPR) systems and comparison with conventional EBPRs in North America: Process stability, kinetics, and microbial populations

Fermentation of Mixed Liquor for Phosphorus Removal

Performance and Microbial Population in Side-Stream Enhanced Biological Phosphorus Removal Systems

Rethinking and Reforming Enhanced Biological Phosphorus Removal (EBPR) Strategy – Concepts and Mechanisms of Side-Stream EBPR

Saving phosphorus removal at the Henderson NV plant

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