Erratum: Water Science and Technology 75 (10), 2257-2267: Liquid-gas mass transfer at drop structures, Natércia Matias, Asbjørn Haaning Nielsen, Jes Vollertsen, Filipa Ferreira and José Saldanha Matos, doi: 10.2166/wst.2017.103

Natércia Matias*, Filipa Ferreira, José Saldanha Matos, Asbjørn Haaning Nielsen, Jes Vollertsen

*Corresponding author for this work

Research output: Contribution to journalComment/debateResearchpeer-review

1 Citation (Scopus)

Abstract

Over the last decades, considerable progress has been made in the understanding of the sulfur cycle in sewer systems. In spite of a wealth of experimental and field studies that have addressed the release of hydrogen sulfide from free surface flows in gravity sewers and the corresponding air-water mass transfer, little is known about hydrogen sulfide emission under highly turbulent conditions (e.g., drop structures, hydraulic jumps). In this study, experimental work was carried out to analyze the influence of characteristics of drops on reaeration. Physical models were built, mimicking typical sewer drop structures and allowing different types of drops, drop heights, tailwater depths and flow rates. In total, 125 tests were performed. Based on their results, empirical expressions translating the relationship between the mass transfer of oxygen and physical parameters of drop structures were established. Then, by applying the two-film theory with two-reference substances, the relation to hydrogen sulfide release was defined. The experiments confirmed that the choice of the type of drop structure is critical to determine the uptake/emission rates. By quantifying the air-water mass transfer rates between freefall and backdrop types of drop, the latter resulted in considerably lower oxygen uptake rates.

Original languageEnglish
JournalWater Science and Technology
Volume76
Issue number6
Pages (from-to)1584-1594
Number of pages11
ISSN0273-1223
DOIs
Publication statusPublished - 1 Sept 2017

Keywords

  • Air-water mass transfer
  • Dissolved oxygen
  • Sewer drop structures
  • Turbulence
  • Uptake/emission rates

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