Egidio F Tentori

Egidio F Tentori
Cornell University | CU · Department of Civil and Environmental Engineering

PhD

About

5
Publications
242
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18
Citations
Introduction
Egidio F Tentori currently works as a Sr. Environmental Engineer at Gradient in Boston, MA. Egidio previously worked as a graduate researcher in the Department of Civil and Environmental Engineering at Cornell University. Egidio has a background in Microbiology, Environmental Engineering and Environmental Chemistry.
Skills and Expertise
Environmental Analysis
Water Quality
Water Treatment
Environmental Pollution
Gas Chromatography

Publications

Publications (5)
Figure 5. Genus-level taxonomic composition of AD and membrane biofilm...
Reactor and membrane conditions at startup.
Treatment of Anaerobic Digester Liquids via Membrane Biofilm Reactors: Simultaneous Aerobic Methanotrophy and Nitrogen Removal
Article
Full-text available
  • Sep 2024
Anaerobic digestion (AD) produces useful biogas and waste streams with high levels of dissolved methane (CH 4) and ammonium (NH 4 +), among other nutrients. Membrane biofilm reactors (MBfRs), which support dissolved methane oxidation in the same reactor as simultaneous nitrification and denitrification (ME-SND), are a potential bubble-less treatmen...
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HFMBR performance (data points) and model predictions (dashed lines)...
HFMBR CH4 oxidation rate and biomarker amounts for the four tested M....
Condition B, 4.2-day retention time M. trichosporium OB3b reactor...
Per-cell biomarker transcript levels in M. trichosporium OB3b during...
+3 Correlation of steady state per-cell pmoA transcript levels with per...
Methane Monooxygenase Transcripts as Quantitative Biomarkers of Methanotrophic Activity in Methylosinus trichosporium OB3b
Article
Full-text available
  • Nov 2020
Methanotrophs are naturally occurring microorganisms capable of oxidizing methane and have an impact on global net methane emissions. The genes pmoA and mmoX are used as biomarkers for bacterial methanotrophs. Quantitative relationships between transcript amounts of these genes and methane oxidation rates could facilitate estimation of methanotroph...
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Peroxy-Acid Treatment of Polycyclic Aromatic Hydrocarbons: Degradation Kinetics, Thermodynamics, and Predictive Modeling
Article
Full-text available
  • Nov 2021
Polycyclic aromatic hydrocarbons (PAHs) are potentially carcinogenic organic compounds that are persistent in the environment. The peroxy-acid treatment is an advanced oxidation process (AOP) that can effectively degrade recalcitrant organic compounds. In this study, the degradation of four PAH compounds (anthracene, benzo[a]pyrene, phenanthrene, a...
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FIG 1 Performance of M. album BG8 and M. parvus OBBP reactors. (A) M....
FIG 2 Steady-state per-cell pmoA transcript amounts and methane...
FIG 3 M. album BG8 reactors during substrate limitation and recovery....
FIG 4 Classification of significant differential gene expression (DGE)...
+3 FIG 5 Changes in central metabolic pathways in M. album BG8 during...
RNA Biomarker Trends across Type I and Type II Aerobic Methanotrophs in Response to Methane Oxidation Rates and Transcriptome Response to Short-Term Methane and Oxygen Limitation in Methylomicrobium album BG8
Article
Full-text available
  • Jun 2022
Methanotrophs are naturally occurring microorganisms capable of oxidizing methane, having an impact on global net methane emissions. Additionally, they have also gained interest for their biotechnological applications in single-cell protein production, biofuels, and bioplastics.
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microorganisms-12-01841-s001.zip
Data
  • Sep 2024
Supplementary data for Treatment of Anaerobic Digester Liquids via Membrane Biofilm Reactors: Simultaneous Aerobic Methanotrophy and Nitrogen Removal
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