Treatment of reduced sulphur compounds and SO2 by Gas Phase Advanced Oxidation

Carl Meusinger; Anders Brostrøm Bluhme; Jonas L. Ingemar; Anders Feilberg; Sigurd Christiansen; Christina Andersen; Matthew Stanley Johnson

doi:10.1016/j.cej.2016.08.092

Treatment of reduced sulphur compounds and SO₂ by Gas Phase Advanced Oxidation

Carl Meusinger, Anders Brostrøm Bluhme, Jonas L. Ingemar, Anders Feilberg, Sigurd Christiansen, Christina Andersen, Matthew Stanley Johnson

6 Citations (Scopus)

Abstract

Reduced sulphur compounds (RSCs) emitted from pig farms are a major problem for agriculture, due to their health and environmental impacts and foul odour. This study investigates the removal of RSCs, including H2S, and their oxidation product SO2 using Gas Phase Advanced Oxidation (GPAO). GPAO is a novel air cleaning technique which utilises accelerated atmospheric chemistry to oxidise pollutants before removing their oxidation products as particles. Removal efficiencies of 24.5% and 3.9% were found for 461 ppb of H2S and 714 ppb of SO2 in a laboratory system (volumetric flow Q = 75 m3/h). A numerical model of the reactor system was developed to explore the basic features of the system; its output was in fair agreement with the experiment. The model verified the role of OH radicals in initiating the oxidation chemistry. All sulphur removed from the gas phase was detected as particulate matter, assuming the observed particles were made of sulphuric acid. In a second set of experiments a range of RSCs at mixing ratios typically found in pig farms were treated using a larger industry-scale system (Q = 600–1200 m3/h) that included a wet scrubber. Removal efficiencies >90% were found for all compounds. The study demonstrates the ability of GPAO to control RSC emissions with a low energy input relative to many currently available techniques

Original language	English
Journal	Chemical Engineering Journal
Volume	307
Pages (from-to)	427-434
Number of pages	8
ISSN	1385-8947
DOIs	https://doi.org/10.1016/j.cej.2016.08.092
Publication status	Published - 1 Jan 2017

Keywords

Pollution control
Smell abatement
Reduced sulphur compounds
Advanced oxidation
Gas-phase treatment

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10.1016/j.cej.2016.08.092

Cite this

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title = "Treatment of reduced sulphur compounds and SO2 by Gas Phase Advanced Oxidation",

abstract = "Reduced sulphur compounds (RSCs) emitted from pig farms are a major problem for agriculture, due to their health and environmental impacts and foul odour. This study investigates the removal of RSCs, including H2S, and their oxidation product SO2 using Gas Phase Advanced Oxidation (GPAO). GPAO is a novel air cleaning technique which utilises accelerated atmospheric chemistry to oxidise pollutants before removing their oxidation products as particles. Removal efficiencies of 24.5% and 3.9% were found for 461 ppb of H2S and 714 ppb of SO2 in a laboratory system (volumetric flow Q = 75 m3/h). A numerical model of the reactor system was developed to explore the basic features of the system; its output was in fair agreement with the experiment. The model verified the role of OH radicals in initiating the oxidation chemistry. All sulphur removed from the gas phase was detected as particulate matter, assuming the observed particles were made of sulphuric acid. In a second set of experiments a range of RSCs at mixing ratios typically found in pig farms were treated using a larger industry-scale system (Q = 600–1200 m3/h) that included a wet scrubber. Removal efficiencies >90% were found for all compounds. The study demonstrates the ability of GPAO to control RSC emissions with a low energy input relative to many currently available techniques",

keywords = "Pollution control, Smell abatement, Reduced sulphur compounds, Advanced oxidation, Gas-phase treatment",

author = "Carl Meusinger and Bluhme, {Anders Brostr{\o}m} and Ingemar, {Jonas L.} and Anders Feilberg and Sigurd Christiansen and Christina Andersen and Johnson, {Matthew Stanley}",

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doi = "10.1016/j.cej.2016.08.092",

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AU - Meusinger, Carl

AU - Bluhme, Anders Brostrøm

AU - Ingemar, Jonas L.

AU - Feilberg, Anders

AU - Christiansen, Sigurd

AU - Andersen, Christina

AU - Johnson, Matthew Stanley

PY - 2017/1/1

Y1 - 2017/1/1

N2 - Reduced sulphur compounds (RSCs) emitted from pig farms are a major problem for agriculture, due to their health and environmental impacts and foul odour. This study investigates the removal of RSCs, including H2S, and their oxidation product SO2 using Gas Phase Advanced Oxidation (GPAO). GPAO is a novel air cleaning technique which utilises accelerated atmospheric chemistry to oxidise pollutants before removing their oxidation products as particles. Removal efficiencies of 24.5% and 3.9% were found for 461 ppb of H2S and 714 ppb of SO2 in a laboratory system (volumetric flow Q = 75 m3/h). A numerical model of the reactor system was developed to explore the basic features of the system; its output was in fair agreement with the experiment. The model verified the role of OH radicals in initiating the oxidation chemistry. All sulphur removed from the gas phase was detected as particulate matter, assuming the observed particles were made of sulphuric acid. In a second set of experiments a range of RSCs at mixing ratios typically found in pig farms were treated using a larger industry-scale system (Q = 600–1200 m3/h) that included a wet scrubber. Removal efficiencies >90% were found for all compounds. The study demonstrates the ability of GPAO to control RSC emissions with a low energy input relative to many currently available techniques

AB - Reduced sulphur compounds (RSCs) emitted from pig farms are a major problem for agriculture, due to their health and environmental impacts and foul odour. This study investigates the removal of RSCs, including H2S, and their oxidation product SO2 using Gas Phase Advanced Oxidation (GPAO). GPAO is a novel air cleaning technique which utilises accelerated atmospheric chemistry to oxidise pollutants before removing their oxidation products as particles. Removal efficiencies of 24.5% and 3.9% were found for 461 ppb of H2S and 714 ppb of SO2 in a laboratory system (volumetric flow Q = 75 m3/h). A numerical model of the reactor system was developed to explore the basic features of the system; its output was in fair agreement with the experiment. The model verified the role of OH radicals in initiating the oxidation chemistry. All sulphur removed from the gas phase was detected as particulate matter, assuming the observed particles were made of sulphuric acid. In a second set of experiments a range of RSCs at mixing ratios typically found in pig farms were treated using a larger industry-scale system (Q = 600–1200 m3/h) that included a wet scrubber. Removal efficiencies >90% were found for all compounds. The study demonstrates the ability of GPAO to control RSC emissions with a low energy input relative to many currently available techniques

KW - Pollution control

KW - Smell abatement

KW - Reduced sulphur compounds

KW - Advanced oxidation

KW - Gas-phase treatment

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DO - 10.1016/j.cej.2016.08.092

M3 - Journal article

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JO - Chemical Engineering Journal

JF - Chemical Engineering Journal

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