Determination of thermal properties of composting bulking materials

Ahn, Heekwon; Sauer, Thomas J.; Richard, Tom L.; Glanville, Thomas D.

doi:10.1016/j.biortech.2008.11.056

Cited by 102 publications

(57 citation statements)

References 28 publications

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“…3). Cette élévation de la température est la conséquence directe de l'oxydation de la matière organique des substrats (Hassen et al, 2001 ;Ahn, 2009). Cette oxydation permet ainsi la libération de l'énergie contenue dans les liaisons chimiques des molécules constitutives (Ryckeboer, 2003).…”

Section: Résultats Et Discussion Evolution De La Températureunclassified

Valorisation Agricole D’un Compost Produit À Partir Du Compostage En Cuve Des Déchets Municipaux

Chennaoui¹,

Salama

Makan

et al. 2016

ESJ

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This work is in the context of the management and recycling of solid urban waste. The evolution of the physicochemical and microbiological parameters during composting pilot scale household waste was studied. The maturity of the processes and the agronomic value of the finished product were examined. The results showed that the organic fraction of solid waste could be composted successfully in 60 days and revealing a vigorous microbial activity. The final compost has been satisfactory for its agricultural application. Phytotoxicity tests conducted on wheat and tomato crops, show that the incorporation of 25% culture support the compost allows a germination rate of up to 85% against 70% for the control for the variety of corn. In the case of tomatoes, we recorded a germination rate of about 67% against 58% for the control. Keywords:Waste, compost, recycling, maturity test European Scientific Journal December 2016 edition vol.12, No.35 ISSN: 1857 -7881 (Print) e -ISSN 1857-7431 248 RésuméLe présent travail s'inscrit dans le contexte de la gestion et la valorisation des déchets solides urbains. L'évolution des paramètres physicochimiques et microbiologiques au cours du compostage à l'échelle pilote des déchets ménagers a été étudiée. La maturité du process et la valeur agronomique du produit fini ont été examinées. Les résultats obtenus ont montré que la fraction organique des déchets solides pourrait être composté avec succès dans un délais de 60 jours et révélant une activité microbienne vigoureuse. Le compost final a été satisfaisant pour son application agricole. Les essais de phytotoxicité menés sur des cultures de blé et de la tomate, révèlent que l'incorporation de 25% du compost au supports de culture permet un taux de germination allant jusqu'à 85 % contre 70 % pour le témoin pour la variété du blé. Dans le cas de la tomate, nous avons enregistré un taux de germination de l'ordre de 67 % contre 58 % pour le témoin.

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Section: Résultats Et Discussion Evolution De La Températureunclassified

Valorisation Agricole D’un Compost Produit À Partir Du Compostage En Cuve Des Déchets Municipaux

Chennaoui¹,

Salama

Makan

et al. 2016

ESJ

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“…Water holding capacity was measured using a modified Hilgard method [20,21]. Bulk density and free air space (FAS) were measured using a method reported by Ahn et al [22]. Total carbon (TC) and total nitrogen (TN) contents were analyzed using an elemental analyzer (2400 CHNS/O series II system, Perkin Elmer, Waltham, MA, USA).…”

Section: Methodsmentioning

confidence: 99%

Solid-State Anaerobic Digestion of Dairy Manure from a Sawdust-Bedded Pack Barn: Moisture Responses

Kim

Lee

et al. 2018

Energies

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Abstract:Bedded pack manure has long been considered an unsuitable feedstock for conventional anaerobic digestion systems due to its high solids content. However, solid-state anaerobic digestion (SS-AD) provides an opportunity to generate methane from such high-solids feedstocks. This study was conducted to determine the influence of moisture content on the digestion of bedded pack dairy manure using SS-AD. Mixtures of sawdust bedding and dairy manure were prepared with moisture contents (MCs) of 70%, 76% and 83% and digested at 37 • C for 85 days. The performance of digesters containing manure at 83% MC was 1.3 to 1.4-fold higher than that of digesters containing 70% MC manure in terms of volatile solids (VS) reduction and biogas production. VS reduction rates were 55 to 75% and cumulative methane yield ranged from 64 to 90 NmL g VS −1 . These values are lower than those from SS-AD of fresh manure and this is likely due to the partial decomposition of biodegradable materials during the two to three-month period before the manure was removed from the barn. However, in terms of efficient management of farm odors and providing a renewable energy source for heating, SS-AD of bedded pack manure offers a potential alternative to the conventional composting systems currently in use.

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“…In BM, compaction and higher than optimal (60%) moisture content (Table 1) resulted in anaerobic areas, which resulted in reduced pile temperatures and/or microbial activity. Ahn et al (2009) reported a greater thermal conductivity (W m −1 K) and thermal diffusivity (mm 2 s −1 ) of WS compared with BM, whereas the volumetric heat capacity (MJ m −3 K) was greater. This suggests that heat retention in BM could be expected to be greater than WS, meaning that the pile temperatures observed over the duration of the study were a result of microbial activity and not the insulation properties of the compost materials.…”

Section: Composting Processmentioning

confidence: 91%

Composting for Biocontained Cattle Mortality Disposal and Associated Greenhouse Gas and Leachate Emissions

et al. 2016

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Composting can be an effective means of biodegrading livestock mortalities in emergency disposal situations, such as disease outbreaks. Within the past decade, our knowledge detailing composting has increased substantially. However, research data linking the environmental impact of composting to atmospheric and terrestrial systems are limited. We investigated composting efficacy, greenhouse gas emissions, and leachate properties from two static compost piles, each containing 16 cattle mortalities, built with either beef manure (BM) or wood shavings (WS) as envelope material. Wood shavings achieved a greater maximum temperature than BM (60 vs. 50°C) and maintained higher temperatures over 200 d ( < 0.001). Greenhouse gas emissions were evaluated using a static chamber and gas chromatography. Emissions of NO ( < 0.001), CH ( < 0.01), and CO ( < 0.05) were lower from WS than BM, resulting in 3-fold lower total CO equivalent emissions. After 250 d of composting, piles were relocated, and soil cores were taken (i) from beneath the piles, (ii) adjacent to the piles where leachate had accumulated, and (iii) in a control zone without compost exposure. Elevated concentrations of ammonium ( < 0.05) and chloride ( < 0.05) were found in soil beneath both BM and WS. Microbial DNA profiles suggested that leachate from BM compost increased bacterial diversity in soil, maintaining a biological soil impact after pile removal. Degradation of bovine mitochondrial DNA fragments was monitored by polymerase chain reaction. Limited migration of genetic bovine material from compost into soil was observed. Based on the mortalities decomposition and leachate contents, both BM and WS are suitable envelope materials for composting.

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Determination of thermal properties of composting bulking materials

Cited by 102 publications

References 28 publications

Valorisation Agricole D’un Compost Produit À Partir Du Compostage En Cuve Des Déchets Municipaux

Valorisation Agricole D’un Compost Produit À Partir Du Compostage En Cuve Des Déchets Municipaux

Solid-State Anaerobic Digestion of Dairy Manure from a Sawdust-Bedded Pack Barn: Moisture Responses

Composting for Biocontained Cattle Mortality Disposal and Associated Greenhouse Gas and Leachate Emissions

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