Characterization of the Gaseous and Odour Emissions from the Composting of Conventional Sewage Sludge

González, Daniel; Guerra, Nagore; Colón, Joan; Gabriel, David; Ponsá, Sergio; Sánchez, Antoni

doi:10.3390/atmos11020211

Cited by 25 publications

(7 citation statements)

References 44 publications

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“…Similarly, elevated temperatures result in increasing CH 4 emissions. This could be explained by the high rate of microbial activities that result in increasing the temperatures, and these conditions are associated with high oxygen consumption, which ultimately leads to forming anaerobic conditions and the formation of CH 4 [45,[72][73][74]. The same trend was also observed regarding CO 2 and N 2 O emissions that exhibit an increase with increasing temperature [63,75].…”

Section: Average Composting Temperaturementioning

confidence: 58%

“…For instance, GHGs' emission factor, in terms of kg CO 2eq .Mg −1 dry matter of sewage sludge (DM-SS), was found to be 2.30 × 10 2 . On the other hand, the sewage sludge composting odor emission factor (OEF) was 2.68 × 10 7 ou.Mg −1 DM-SS [45]. Different emission factors could be found in the literature, depending on the characteristics of the feedstock or the composting technology [46][47][48][49].…”

Section: Gas Emissions From Composting Processmentioning

confidence: 99%

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Gaseous Emissions from the Composting Process: Controlling Parameters and Strategies of Mitigation

Sayara

Sánchez

2021

Processes

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Organic waste generation, collection, and management have become a crucial problem in modern and developing societies. Among the technologies proposed in a circular economy and sustainability framework, composting has reached a strong relevance in terms of clean technology that permits reintroducing organic matter to the systems. However, composting has also negative environmental impacts, some of them of social concern. This is the case of composting atmospheric emissions, especially in the case of greenhouse gases (GHG) and certain families of volatile organic compounds (VOC). They should be taken into account in any environmental assessment of composting as organic waste management technology. This review presents the relationship between composting operation and composting gaseous emissions, in addition to typical emission values for the main organic wastes that are being composted. Some novel mitigation technologies to reduce gaseous emissions from composting are also presented (use of biochar), although it is evident that a unique solution does not exist, given the variability of exhaust gases from composting.

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Section: Average Composting Temperaturementioning

confidence: 58%

Section: Gas Emissions From Composting Processmentioning

confidence: 99%

Gaseous Emissions from the Composting Process: Controlling Parameters and Strategies of Mitigation

Sayara

Sánchez

2021

Processes

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“…The S_S treatment produced the lowest total GHG emission equivalent (94.08 kg CO 2 -eq ton −1 DM) owing to the lowest N 2 O emissions (49.89 kg CO 2 -eq ton −1 DM). González et al (2020) controlled the aeration flow rate by the oxygen uptake rate (OUR) during sewage sludge composting and this mode could effectively reduce CH 4 emission but emitted much more N 2 O compared with the present study [ 34 ].…”

Section: Resultsmentioning

confidence: 78%

“…Among these variables, the type of organic solid waste played an important role in the dynamics and cumulative emissions of GHGs. A series of studies have been conducted and focused on GHG emissions during dairy manure composting [ 19 , 24 , 25 , 26 ], chicken manure composting [ 27 , 28 , 29 , 30 , 31 ], biosolids composting [ 32 , 33 , 34 , 35 ], green waste composting [ 36 , 37 , 38 ] and food waste composting [ 10 , 38 , 39 , 40 ]. However, these studies adopted different aeration methods (continuous and intermittent aeration), aeration rates (high, moderate and low aeration rate), bulking agent types (crop straw, rice hull, sawdust, etc.)…”

Section: Introductionmentioning

confidence: 99%

Comparison and Evaluation of GHG Emissions during Simulated Thermophilic Composting of Different Municipal and Agricultural Feedstocks

Zeng

Michel

Huang

2023

IJERPH

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Composting is widely used to recycle a variety of different organic wastes. In this study, dairy manure, chicken litter, biosolids, yard trimmings and food waste were selected as representative municipal and agricultural feedstocks and composted in simulated thermophilic composting reactors to compare and evaluate the GHG emissions. The results showed that the highest cumulative emissions of CO2, CH4 and N2O were observed during yard trimmings composting (659.14 g CO2 kg−1 DM), food waste composting (3308.85 mg CH4 kg−1 DM) and chicken litter composting (1203.92 mg N2O kg−1 DM), respectively. The majority of the carbon was lost in the form of CO2. The highest carbon loss by CO2 and CH4 emissions and the highest nitrogen loss by N2O emission occurred in dairy manure (41.41%), food waste (0.55%) and chicken litter composting (3.13%), respectively. The total GHG emission equivalent was highest during food waste composting (365.28 kg CO2-eq ton−1 DM) which generated the highest CH4 emission and second highest N2O emissions, followed by chicken litter composting (341.27 kg CO2-eq ton−1 DM), which had the highest N2O emissions. The results indicated that accounting for GHG emissions from composting processes when it is being considered as a sustainable waste management practice was of great importance.

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“…The authors also systematically studied the main VOCs detected in odors, which were isovaleraldehyde, indole, skatole, butyric acid, dimethyl sulfide, and dimethyl disulfide. In another study by the same authors, the odor emission factors, when composting sewage sludge at a pilot scale, were in the range of 10 7 odor units per kg of composted dry mass, whereas the major odor contributors identified were dimethyl disulfide, eucalyptol, and α-pinene [54].…”

Section: Sewage Sludgementioning

confidence: 96%

Odors Emitted from Biological Waste and Wastewater Treatment Plants: A Mini-Review

2022

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In recent decades, a new generation of waste treatment plants based on biological treatments (mainly anaerobic digestion and/or composting) has arisen all over the world. These plants have been progressively substituted for incineration facilities and landfills. Although these plants have evident benefits in terms of their environmental impact and higher recovery of material and energy, the release into atmosphere of malodorous compounds and its mitigation is one of the main challenges that these plants face. In this review, the methodology to determine odors, the main causes of having undesirable gaseous emissions, and the characterization of odors are reviewed. Finally, another important topic of odor abatement technologies is treated, especially those related to biological low-impact processes. In conclusion, odor control is the main challenge for a sustainable implementation of modern waste treatment plants.

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Characterization of the Gaseous and Odour Emissions from the Composting of Conventional Sewage Sludge

Cited by 25 publications

References 44 publications

Gaseous Emissions from the Composting Process: Controlling Parameters and Strategies of Mitigation

Gaseous Emissions from the Composting Process: Controlling Parameters and Strategies of Mitigation

Comparison and Evaluation of GHG Emissions during Simulated Thermophilic Composting of Different Municipal and Agricultural Feedstocks

Odors Emitted from Biological Waste and Wastewater Treatment Plants: A Mini-Review

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