Combined anaerobic respiration (CAD) of sewage sludge and other urban solid wastes

Deng, Hong

January 2006

The UK buries about 100 million tonnes of waste a year, of which 25% is municipal solid waste (refuse). The environmental impacts from gas and leachate releases are known and direct risks to health from landfill are reported. Europe has agreed to a Landfill Directive which has set targets for the stepwise reduction in biodegradable municipal waste going to landfill. The anaerobic digestion of municipal solid waste in controlled bioreactors is an area that could play an important role in overall evolution towards sustainability by recovering biogas and organic matter. Separated hydrolysis and subsequent anaerobic codigestion was demonstrated from the literature review to have the best potential for biodegradable municipal waste diverted from landfill. The rate of hydrolysis of solids wastes remains an outstanding problem. In this research, firstly the codigestion of industrial effluent (coffee wastewater), food wastes and garden wastes were investigated for their impact on hydrolysis and digestion. The results show that there were no treatability problems for coffee wastes up to 37.5% of volume feed per day at the HRT of 9 days. The results supported the view that dilute biodegradable streams such as coffee waste may improve digestion by promoting mixing. Fruit and vegetable wastes were highly biodegradable and can have a major improvement in biogas production of the whole codigestion process, whereas garden waste was not as successful as a cosubstrate, probably because of the predominant celluloses and lignocelluloses with a low biodegradability. The literature review also revealed that washing or elutriation can remove organic matter from municipal waste. This is an important hydrolytic process in which a solubilised acidic organic matter is obtained. The codigestion of refuse hydrolysate with sewage sludge was therefore studied. A control digester treating sewage sludge only was compared with an experimental reactor fed mixed refuse hydrolysate with sewage sludge. It was possible to add the solubilised hydrolysate to existing anaerobic digesters designed at a standard sludge solids loading rate without causing overloading. (Continues...).

628

Etude de l'utilisation de la spectroscopie proche infrarouge pour la prédiction du potentiel méthane de déchets solides / Study of the use of the near infrared spectroscopy for predicting the methane potential of solid waste

Lesteur, Mathieu

07 December 2010

La digestion anaérobie est un moyen de traitement des déchets solides produisant de l'énergie sous forme de biogaz (méthane et dioxyde de carbone). L'optimisation de la production de méthane passe par une sélection des déchets à fort potentiel méthane. Actuellement, la mesure du potentiel méthane est réalisée par le test BMP (Biochemical Methane Potential), qui repose sur une fermentation pouvant durer plus de 30 jours, ce qui est trop long pour une installation industrielle. Une méthode rapide de détermination du potentiel méthane est donc nécessaire. Le BMP est lié uniquement à la quantité et à la qualité de la matière organique. Cette méthode doit donc réaliser une analyse globale et rapide de la matière organique. L'objectif de la thèse a été d'identifier et d'étudier une méthode rapide d'analyse de la matière organique de déchets solides permettent de prédire le potentiel méthane. Suite au travail bibliographique, la spectroscopie proche infrarouge s'est révélée la méthode la plus appropriée: analyse globale et rapide, non destructive, préparation d'échantillon réduite, possibilité d'utiliser des fibres optiques pour déporter la mesure. Nous avons ensuite étudié des étalonnages pour prédire le potentiel méthane d'un ensemble homogène de 74 déchets. Un coefficient de corrélation de 0,76 et un écart standard de prédiction (RMSEP) de 28 ml CH4.g-1 MV ont été obtenus. Ensuite, les coefficients du modèle ont été analysés par rapport aux molécules présentes et rapprochés des variables sélectionnées par algorithme génétique afin de valider ce modèle d'un point de vue chimique. Enfin, la robustesse de ce modèle vis à vis de l'origine des échantillons et de l'humidité a été testée. Les résultats montrent clairement le fort potentiel de la spectroscopie proche infrarouge pour la prédiction du potentiel méthane. Pour une utilisation industrielle, il ressort qu'une attention particulière doit être portée sur l'ensemble d'étalonnage, qui doit être le plus exhaustif possible. / Anaerobic digestion is a solution to process solid waste, while producing energy by biogas production (methane and carbon dioxide). Methane production could be optimized by selecting only wastes with high methane potential. Currently, the BMP (Biochemical Methane Potential) test is conducted to predict the methane potential. This test is based on a fermentation process. It is time consuming, sometimes, lasting over 30 days, which is too long from an industrial point of view. A rapid method for determining the methane potential is therefore urgently needed. The BMP value depends only on the quantity and the quality of the organic matter, so a method capable of determining the quality and quantity of organic matter is searched for. The objective of this thesis was to identify and study such a method. First, a bibliographic study led us to chose the near infrared (NIR) spectroscopy method: fast and global analysis of the organic matter, non-destructive method, few or no sample preparation, and remote monitoring by use of fiber optics. Second, a calibration for predicting the BMP of and homogenous sample set has been built based on a 74-waste sample set. A correlation coefficient of R² = 0,76 and a standard error of prediction (RMSEP = 28 ml CH4.g-1 VS). Then, the regression coefficients (called b coefficients) were analysed with regard to the molecules in the waste and were compared to the variables selected from the spectrum, in order to validate the model from a chemical point of view. Finally, the robustness of the model, regarding the waste origins and the moisture was tested with heterogeneous samples set. Results show the potential of the near infrared spectroscopy to predict the methane potential quickly, but attention must be paid on the calibration data set when an industrial implementation is dealt with..

Spectroscopie proche infrarouge

Potentiel méthane

Déchets solides

Digestion anaérobie

Chimiométrie

Near infrared spectroscopy

Methane Potential

Solid wastes

Anaerobic Digestion

Chemometry

Improving microalgae biofuel production : an engineering management approach

Mathew, Domoyi Castro

January 2014

The use of microalgae culture to convert CO2 from power plant flue gases into biomass that are readily converted into biofuels offers a new frame of opportunities to enhance, compliment or replace fossil-fuel-use. Apart from being renewable, microalgae also have the capacity to utilise materials from a variety of wastewater and the ability to yield both liquid and gaseous biofuels. However, the processes of cultivation, incorporation of a production system for power plant waste flue gas use, algae harvesting, and oil extraction from the biomass have many challenges. Using SimaPro software, Life cycle Assessment (LCA) of the challenges limiting the microalgae (Chlorella vulgaris) biofuel production process was performed to study algae-based pathway for producing biofuels. Attention was paid to material use, energy consumed and the environmental burdens associated with the production processes. The goal was to determine the weak spots within the production system and identify changes in particular data-set that can lead to and lower material use, energy consumption and lower environmental impacts than the baseline microalgae biofuel production system. The analysis considered a hypothetical transesterification and Anaerobic Digestion (AD) transformation of algae-to- biofuel process. Life cycle Inventory (LCI) characterisation results of the baseline biodiesel (BD) transesterification scenario indicates that heating to get the biomass to 90% DWB accounts for 64% of the total input energy, while electrical energy and fertilizer obligations represents 19% and 16% respectively. Also, Life Cycle Impact Assessment (LCIA) results of the baseline BD production scenario show high proportional contribution of electricity and heat energy obligations for most impact categories considered relative to other resources. This is attributed to the concentration/drying requirement of algae biomass in order to ease downstream processes of lipid extraction and subsequent transesterification of extracted lipids into BD. Thus, four prospective alternative production scenarios were successfully characterised to evaluate the extent of their impact scenarios on the production system with regards to lowering material use, lower energy consumption and lower environmental burdens than the standard algae biofuel production system. A 55.3% reduction in mineral use obligation was evaluated as the most significant impact reduction due to the integration of 100% recycling of production harvest water for the AD production system. Recycling also saw water demand reduced from 3726 kg (freshwater).kgBD- 1 to 591kg (freshwater).kgBD- 1 after accounting for evaporative losses/biomass drying for the BD transesterification production process. Also, the use of wastewater/sea water as alternative growth media for the BD production system, indicated potential savings of: 4.2 MJ (11.8%) in electricity/heat obligation, 10.7% reductions for climate change impact, and 87% offset in mineral use requirement relative to the baseline production system. Likewise, LCIA characterisation comparison results comparing the baseline production scenarios with that of a set-up with co-product economic allocation consideration show very interesting outcomes. Indicating -12 MJ surplus (-33%) reductions for fossil fuels resource use impact category, 52.7% impact reductions for mineral use impact and 56.6% reductions for land use impact categories relative to the baseline BD production process model. These results show the importance of allocation consideration to LCA as a decision support tool. Overall, process improvements that are needed to optimise economic viability also improve the life cycle environmental impacts or sustainability of the production systems. Results obtained have been observed to agree reasonably with Monte Carlo sensitivity analysis, with the production scenario proposing the exploitation of wastewater/sea water to culture algae biomass offering the best result outcome. This study may have implications for additional resources such as production facility and its construction process, feedstock processing logistics and transport infrastructure which are excluded. Future LCA study will require extensive consideration of these additional resources such as: facility size and its construction, better engineering data for water transfer, combined heat and power plant efficiency estimates and the fate of long-term emissions such as organic nitrogen in the AD digestate. Conclusions were drawn and suggestions proffered for further study.

662.6

Produção biotecnológica de metano a partir da codigestão de dejeto líquido suíno com resíduos de hortifruti /

January 2019

Resumo: A suinocultura atingiu índices elevados de produtividade por meio do emprego de avançadas tecnologias de produção, resultando em maior geração de dejeto líquido suíno (DLS) com grande potencial de contaminação de águas mananciais. O resíduo de hortifruti (RH) é produzido em grandes quantidades nos mercados atacadistas, sendo caracterizado pelo elevado teor de umidade e de compostos orgânicos voláteis, o que causa efeitos negativos nos sistemas tradicionais de destinação dos resíduos sólidos urbanos. A codigestão de dejetos suínos e resíduos orgânicos vem sendo amplamente estudada, com melhorias na degradação dos substratos em digestão e, consequentemente, dos rendimentos de biogás. Assim, neste trabalho, avaliou-se o desempenho da codigestão de dejetos de suínos e crescentes níveis de resíduos de hortifrúti, utilizando-se um delineamento fatorial de experimentos 2³ (3 fatores, 2 níveis) seguido de modelagem matemática para descrever o volume de metano acumulado durante o bioprocesso. Para a realização dos ensaios, foram preparadas misturas de substratos compostas por dejeto líquido suíno e resíduo de hortifruti nas relações 4:1, 2,5:1 e 1:1, as quais foram inoculadas e digeridas em frascos batelada por tempos de retenção hidráulica de 20 a 30 dias e temperaturas de 35 a 45°C. Os maiores rendimentos foram de 455,47 e 442,37 NmL CH4/g SVT e ocorreram nos ensaios com relação DLS:RH de 2,5:1 e 1:1, respectivamente. A relação DLS:RH foi significante para o acúmulo de metano durant... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Swine production reached high levels of productivity through the use of technology, resulting in higher generation of swine manure (SM) with great potential for ground water contamination. Fruit and vegetable waste (FVW) are produced in large quantities in wholesale markets, characterized by high moisture content and volatile organic compounds, causing negative effects in the traditional systems of municipal solid waste disposal. The codigestion of swine manure and organic wastes has been widely explored, with improvements in the degradation of the substrates in digestion and, consequently, of the biogas yields. Thus, in this work, the performance of the codigestion of SM and increasing levels of FVW were evaluated using a factorial design of experiments 2³ (3 factors; 2 levels) followed by mathematical modelling to describe the volume of methane accumulated during the bioprocess. In order to carry out the assays, mixtures of substrates composed of SM and FVW were prepared in the ratios 4:1, 2,5:1 e 1:1, which were inoculated and digested in batches with hydraulic retention times of 20 to 30 days and temperatures of 35 to 45 °C. The maximum yields were 455.47 and 442.37 NmL CH4 / g VS and occurred in assays with 2.5:1 and 1:1 SM:FVW ratios, respectively. The SM:FVW ratio was significant for the accumulation of methane during the process, while the hydraulic retention time was not significant at a 95% confidence level. The temperature was marginally significant, with a higher ... (Complete abstract click electronic access below) / Mestre

Metano.

Biodigestão anaeróbia

Codigestão

Dejeto suíno

Resíduo de hortifrúti

Methane

Anaerobic digestion

Codigestion

Swine manure

Fruit and vegetable waste

Aplicação de processos oxidativos e digestão anaeróbia na estabilização de efluente da liquefação hidrotermal de Spirulina / Application of oxidative processes and anaerobic digestion in the stabilization of hydrothermal liquefaction of Spirulina wastewater

Quispe-Arpasi, Diana Elizabeth

19 October 2016

O processo de liquefação hidrotermal (HTL) pode converter diversos tipos de biomassa em óleo bruto. Além do produto principal, é gerado um efluente (PHWW) com elevada carga orgânica, quantidades altas de nutrientes e compostos tóxicos. Para lidar com este tipo efluente tem-se sugerido a combinação de tratamentos físico-químicos e biológicos. O objetivo deste estudo foi avaliar a aplicação de processos oxidativos (por H2O2 e fotocatálise com TiO2) e digestão anaeróbia no tratamento do efluente da liquefação hidrotermal de Spirulina. Inicialmente caracterizou-se o efluente em termos de carga orgânica, nutrientes e compostos nitrogenados cíclicos (CNC). Posteriormente, avaliou-se a concentração de oxidante e o tempo de reação no processo de oxidação com H2O2. O tratamento fotocatalítico foi então avaliada no tratamento do efluente em questão, isoladamente, em sequência e combinada ao processo de oxidação por ação de H2O2. Finalmente combinaram-se os processos de oxidação por ação de H2O2 e digestão anaeróbia no tratamento de efluente de PHWW. O efluente da liquefação hidrotermal de Spirulina apresentou elevada carga orgânica, pH alcalino e concentrações altas de nutrientes (nitrogênio e fósforo). Verificou-se também a presença de CNC como pirazinas, δ-valerolactama, caprolactama e butirolactama. A aplicação do processo oxidativo por H2O2 no tratamento de PHWW apresentou efeitos positivos, principalmente para a descoloração que atingiu 93,8 %. A eficiência máxima de remoção de DQO foi de 15,3%. Foi percebida também redução nas concentrações dos CNC. A eficiência do processo de oxidação avançada por fotocatálise e H2O2 foi maior do que obtida quando estes processos foram aplicados separadamente. A aplicação dos processos combinados apresentou eficiência de remoção de cor e DQO semelhante às obtidas quando os processos foram aplicados em sequência, propiciando economia de tempo de reação. Por fim, verificou-se que a digestão anaeróbia do efluente pré-tratado com H2O2 apresentou maior produção de CH4 e remoção de matéria orgânica quando comparada com a digestão anaeróbia que o efluente in natura. Assim, conclui-se a utlização de processos oxidativos avançados ou a combinação da oxidação por H2O2 com a digestão anaeróbia são alternativas promissoras para o tratamento da PHWW. / The hydrothermal liquefaction process (HTL) can convert various types of biomass into bio-crude oil. In addition to the main product, wastewater (PHWW) is generated with high organic content, high amounts of nutrients and toxic compounds. To cope with this type of wastewater the combination of physicochemical and biological treatments has been suggested. The aim of this study was to evaluate the application of oxidative processes (using H2O2 and photocatalysis with TiO2) and anaerobic digestion in the treatment of hydrothermal liquefaction of Spirulina wastewater. Firstly, PHWW was characterized in terms of organic matter, nutrients and nitrogen heterocyclic compounds (CNC) concentrations. Secondly, the oxidant concentration and the reaction time in the oxidation process using H2O2 was evaluated. Photocatalytic treatment was then tested isolated, in sequence and combinated with the oxidation processo using H2O2. Finally, oxidation with H2O2 and anaerobic digestion were combinated and evaluated. The PHWW showed high organic load, alkaline pH and high concentrations of nutrients (nitrogen and phosphorus). The presence of CNC as pyrazines, δ-valerolactam, caprolactam and butyrolactam was also verified. The application of the oxidative process using H2O2 showed positive effects mainly for color removal, which reached 93.8%. The maximum efficiency of COD removal was 15.3%. Reduction in CNC concentrations was also observed . The efficiency of the advanced oxidation process (by combining photocatalysis and H2O2) was greater than that obtained when these processes were applied separately. The application of the combined process presented color and COD removal efficiencies similar to those obtained when the processes were applied in sequence, allowing reaction time savings. Finally, the anaerobic digestion of pre-treated (with H2O2) PHWW showed a greater CH4 production and higher organic matter removal, compared to anaerobic digestion of in natura PHWW. Thus it is possible to conclude that the utlization of advanced oxidation processes or the combination of oxidation with H2O2 and anaerobic digestion are promising alternatives for the treatment of PHWW.

Advanced oxidation

Anaerobic digestion

Digestão anaeróbia

Fotocatálise

Hydrothermal liquefaction

Liquefação hidrotermal

Oxidação avançada

Oxidative processes

Photocalysis

Processos oxidativos

Processamento do glicerol bruto em reatores anaeróbios de leito fluidificado, acidogênico e metanogênico, em temperatura mesofílica / Processing of crude glycerol in anaerobic fluidized bed reactors, acidogenic and methanogenic, at mesophilic temperature

Simões, Andreza Nataline

24 March 2017

A utilização de combustíveis renováveis tem se destacado nos últimos anos, principalmente devido aos impactos ambientais gerados pelo uso de combustíveis fósseis e escassez dos mesmos. Dentre os combustíveis renováveis destaca-se o biodiesel, cujo processo produtivo apresenta como principal subproduto o glicerol bruto, que tem instigado nos últimos anos intensas discussões sobre a problemática de sua destinação e disposição final. Apesar de ser utilizado na indústria química, o seu teor de impurezas limita o seu processamento industrial. Buscando agregar valor a esse resíduo bruto e contribuir para a produção de bioenergia, este trabalho teve por intuito avaliar a produção dos biocombustíveis hidrogênio e metano, assim como de intermediários químicos a partir de glicerol bruto como substrato em reatores anaeróbios de leito fluidificado (RALF), mesofílicos (30°C), utilizando inóculo de cultura mista. O RALF-H2, com o objetivo de produzir hidrogênio e metabólitos solúveis, foi submetido à concentração de 10 g.L-1 de glicerol e variação do tempo de detenção hidráulica (TDH) de 8, 6, 4, 2, 1 e 0,5 h. Já o RALF-CH4, com intuito de produzir metano, operou sob TDH fixo de 24 h, submetido à variação da concentração de glicerol de 1, 2, 3, 4, 5 e 7 g.L-1, e portanto, da taxa de carregamento orgânico (TCO) de 1, 2, 3, 4, 5 e 7 kgDQO.m-3.d-1, respectivamente. No RALF-H2, os valores máximos de conteúdo de hidrogênio no biogás (69,2 %), produtividade volumétrica de hidrogênio (1,90 L.h-1.L-1) e rendimento de hidrogênio (0,28 molH2.mol-1glicerolconsumido) foram verificados no TDH de 0,5 h. O 1,3-propanodiol se destacou entre os metabólitos produzidos, com rendimento máximo de 0,57 mol1,3-PDO.mol-1glicerolconsumido, alcançado no TDH de 8 h. No RALF-CH4, o máximo conteúdo de metano no biogás (83,0%) foi verificado na TCO de 1 kgDQO.m-3.d-1, a maior produtividade volumétrica de metano (2,26 L.d-1.L-1) na TCO de 5 kgDQO.m-3.d-1 e o máximo rendimento (0,19 m3H4.kg-1DQOaplicada ou 0,77 molCH4.mol-1glicerolconsumido) na TCO de 4 kgDQO.m-3.d-1. Portanto, os resultados evidenciaram a possibilidade de produção de biocombustíveis e metabólitos de valor agregado utilizando glicerol bruto como substrato no processo da digestão anaeróbia. / The use of renewable fuels has been highlighted in recent years, mainly due to the environmental impacts generated by the use of fossil fuels and their scarcity. Among the renewable fuels highlights the biodiesel, whose production process displays as the main byproduct crude glycerol, which has instigated in recent years, intense debates about a problem of its destination and final disposal. Although it is used in the chemical industry, its impurities content limits its industrial processing. In order to add value to this crude residue and to contribute to the production of bioenergy, this work aimed to evaluate the production of biofuels hydrogen and methane, as well as chemical intermediates from crude glycerol as substrate in anaerobic fluidized bed reactors (AFBR), mesophilic (30°C), using mixed culture inoculum. The AFBR-H2, with the objective of producing hydrogen and soluble metabolites, was submitted to a concentration of 10 g.L-1 of glycerol and a variation of the hydraulic retention time (HRT) of 8, 6, 4, 2, 1 and 0.5 h. The AFBR-CH4, with the intention of producing methane, operated under fixed HRT of 24 h, subjected to the variation of the glycerol concentration of 1, 2, 3, 4, 5 and 7 g.L-1 and, therefore, of the organic loading rate (OLR) of 1, 2, 3, 4, 5 and 7 kgCOD.m-3d-1, respectively. In the AFBR-H2, the maximum values of hydrogen content in the biogas (69.2%), hydrogen volumetric productivity (1.90 L.h-1.L-1) and hydrogen yield (0.28 molH2.mol-1glycerolconsumed) were verified in the HRT of 0.5 h. The 1,3-propanediol was highlighted among the metabolites produced, with a maximum yield of 0.57 mol1,3-PDO.mol-1glycerolconsumed, reached in the TDH of 8 h. In the AFBR-CH4, the higher methane content in the biogas (83.0%) was detected in the OLR of 1 kgCOD.m-3.d-1, a higher volumetric productivity of methane (2.26 L.d-1.L-1) in the OLR of 5 kgCOD.m-3.d-1 and the maximum yield (0.19 m3CH4.kg-1CODapplied or 0.77 molCH4.mol-1glycerolconsumed) in the OLR of 4 kgCOD.m-3d-1. Therefore, the results evidenced the possibility of producing biofuels and value-added metabolites using crude glycerol as a substrate at the anaerobic digestion process.

1,3-propanediol

1,3-propanodiol

AFBR

Anaerobic digestion

Crude glycerol

Digestão anaeróbia

Glicerol bruto

Hidrogênio

Hydrogen

Metano

Methane

RALF

Caractérisation cinétique de la biodégradation de substrats solides et application à l’optimisation et à la modélisation de la co-digestion / Kinetic characterization of solid waste biodegradation : application for optimizing and modeling anaerobic co-digestion

Kouas, Mokhles

21 June 2018

La digestion anaérobie représente un des acteurs majeurs du développement durable et de l'économie circulaire dans le concept « des déchets à l'énergie ». Compte-tenu de la grande diversité des déchets organiques, son développement passe par l'optimisation de la co-digestion. D’où la nécessité de développer des outils simples pour caractériser les substrats et pour prédire les performances des digesteurs afin d'optimiser leur fonctionnement. Cette thèse porte sur la caractérisation de la biodégradation des substrats solides par digestion anaérobie et l'optimisation de leur co-digestion à l'aide d'une approche de modélisation simple. En premier lieu, un nouveau protocole pour la quantification du potentiel méthane en mode batch a été mis en œuvre, intégrant une phase d'acclimatation entre l’inoculum et le substrat. Ensuite, un modèle simple a été développé sur la base du fractionnement de la matière organique en trois sous-fractions. Cette approche a permis de développer une base de données incluant les cinétiques et les potentiels en méthane (BMP) de 50 substrats. En second lieu, des expériences de co-digestion de deux substrats solides ont été menées en mode semi-continu à une charge appliquée (cva) constante puis à des charges appliquées croissantes. Les rendements expérimentaux en méthane ont toujours été supérieurs aux valeurs des BMP des mélanges calculées à partir des BMP de chaque substrat, soulignant l'importance de la respiration endogène. Quatre modèles incluant la respiration endogène avec des hypothèses différentes ont été proposés et évaluées pour prédire la production de méthane brute de digesteurs semi-continus en utilisant les données des substrats (BMP et cinétiques) acquises en mode batch. Deux modèles pour lesquels la production expérimentale de méthane à des cva croissantes correspondait bien aux données modélisées ont été validés. L'approche de modélisation retenue a été ensuite appliquée à des mélanges plus complexes de 3 et 5 substrats ainsi qu’à des biodéchets. Enfin, la réponse d’un digesteur fonctionnant en mode de production flexible, c’est-à-dire recevant des surcharges organiques ponctuelles régulièrement a été également modélisée avec succès. L'approche de modélisation proposée fournit un outil simple, pouvant être utilisé par les bureaux d'études, les constructeurs et les exploitants d’unités de méthanisation pour l'optimisation des mélanges de co-digestion et de la cva à utiliser en mode continu. Cela doit permettre de réduire le risque de défaillance et d’optimiser la rentabilité des unités de co-digestion. / Anaerobic digestion represents one of the major actors of sustainable development and the circular economy in the concept of "Waste to Energy". Given the great diversity of organic waste, its development requires the optimisation of co-digestion. Hence, it is needed to develop simple tools to characterize substrates and predict digester performance in order to optimize their operation. This thesis focuses on the characterization of biodegradation of solid substrates by anaerobic digestion and optimization of co-digestion using a simple modelling approach. First, a new batch protocol was implemented to quantify the Biochemical Methane Potential (BMP), integrating an acclimatization phase between the inoculum and the substrate. Then, a simple model was developed based on the fractionation of organic matter into three sub-fractions. This approach has allowed to develop a database including kinetics and BMPs of 50 substrates. Second, co-digestion experiments of two solid substrates were conducted in semi-continuous mode at a constant organic loading rate (OLR) and then at increasing applied loads. The experimental methane yields were always higher than the BMP values of the mixtures calculated from the BMPs of each substrate, underlining the importance of endogenous respiration. Four models including endogenous respiration with different assumptions were proposed and evaluated to predict raw methane production from semi-continuous digesters using substrate data (BMP and kinetics) acquired in batch mode. Two models for which the experimental methane production at increasing OLR corresponded well to the modelled data were validated. The chosen modelling approach was then applied to more complex mixtures of 3 and 5 substrates and to bio-waste. Finally, the response of a digester operated in flexible production mode, i.e. receiving regular punctual organic overloads, was also successfully modelled. The proposed modelling approach provides a simple tool that can be useful to design offices, manufacturers and operators of co-digestion units for the optimisation of feed mixtures and OLR to be used in continuous mode. This should reduce the risk of failure and optimise the profitability of co-digestion units.

Digestion anaérobie

Déchets solides

Modélisation

Co-digestion

Fractionnement

Cinétique

Anaerobic digestion

Solid wastes

Modelling

Co-Digestion

Fractionation

Kinetic

Tratamento do efluente do processamento de subprodutos da indústria de produtos cárneos em filtro anaeróbio

Pukasiewicz, Sílvia Regina Machado

18 June 2010

Made available in DSpace on 2017-07-21T18:53:15Z (GMT). No. of bitstreams: 1 Silvia Pukasiewicz.pdf: 807504 bytes, checksum: 46c5fee11c6e26495932d6b13679bc20 (MD5) Previous issue date: 2010-06-18 / Fundação Araucária de Apoio ao Desenvolvimento Científico e Tecnológico do Paraná / The process of anaerobic digestion is presented as an alternative for treatment of effluents from various industrial activities. In this case there is the conversion of organic matter to more stable compounds such as methane, which can be used to replace fossil fuels. This study evaluated the treatment of effluent generated by a processing company for animal feed flavors, which uses as raw material waste generated in the slaughter and processing of pigs, chickens and turkeys. It was used a biological upflow anaerobic filter, constructed of polyvinyl chloride with a volume of 980 mL and support material for biomass consisting of rings of polypropylene, with the goal of removing organic matter and produce biogas. The influent had average values with the following characteristics: 899.79 mg L-1 of COD, pH of 8.12, 377.31 mg L-1 of total nitrogen, 206.09 mg L-1 of ammoniacal nitrogen, 2.90 mg L-1 of oils and greases, 768.67 mg CaCO3 L-1 of alkalinity, 521.26 mg L-1 CH3COOH of volatile acidity and 15.11 mg L-1 content of phosphorous. The system was operated continuously at room temperature, organic loading of 0.077, 0.102, 0.154, 0.356, 0.536, 0.854, 1.083 kg DQO m-3 d-1, and HRT 240, 168, 120, 72, 48, 24 and 21 hours. The effluent had COD values between 14.43 and 849.43 mg L-1, pH between 6.32 and 8.34, total nitrogen between 95.23 and 742.14 mg L-1, ammoniacal nitrogen between 127,78 and 230.29 mg L-1, alkalinity between 268.83 and 2401.5 mg CaCO3 L-1 and volatile acidity between 27.66 and 415.30 mg L-1 CH3COOH and phosphorus content between 0 and 29, 26 mg L-1. The best results of COD removal were obtained with HRT of 24 hours, averaging 83% removal and, consequently, larger generation of biogas, 48.39 kg of methane per day. Concludes that, within the conditions employed, the anaerobic digestion process was efficient in removing COD. If the company uses the methane produced in power generation, can enter in the market of carbon credits and get an extra income. / O processo de digestão anaeróbia apresenta-se como uma alternativa para tratamento de efluentes de várias atividades industriais. Nesse processo há conversão da matéria orgânica a compostos mais estáveis como o gás metano, que pode ser utilizado em substituição aos combustíveis fósseis. Neste trabalho foi avaliado o tratamento anaeróbio dos efluentes gerados por uma empresa processadora de palatabilizantes para ração animal, que utiliza como matéria prima os subprodutos gerados no abate e processamento de suínos, frangos e perus. Foi utilizado um filtro biológico anaeróbio de fluxo ascendente, construído de policloreto de vinila com volume útil de 980 mL e material suporte para a biomassa constituído por anéis de polipropileno, com o objetivo de remover a matéria orgânica e produzir biogás. O substrato possuía valores médios com as seguintes características: DQO de 899,79 mg L-1, pH de 8,12, nitrogênio total de 377,31 mg L-1, nitrogênio amoniacal de 206,09 mg L-1, teor de óleos e graxas de 2,90 mg L-1, alcalinidade de 768,67 mg CaCO3 L-1, acidez volátil de 521,26 mg CH3COOH L-1 e teor de fósforo de 15,11 mg L-1. O filtro foi operado por 196 dias, à temperatura ambiente, com cargas orgânicas de 0,077; 0,102; 0,154; 0,356; 0,536; 0,854; 1,083 kg DQO m-3 d-1, e TRH de 240, 168, 120, 72, 48, 24 e 21 horas. O efluente tratado apresentou valores de DQO entre 14,43 e 849,43 mg L-1, pH entre 6,32 e 8,34, nitrogênio total entre 95,23 e 742,14 mg L-1, nitrogênio amoniacal igual entre 127,78 e 230,29 mg L-1, alcalinidade entre 268,83 e 2401,5 mg CaCO3 L-1 e acidez volátil entre 27,66 e 415,30 mg CH3COOH L- 1 e teor de fósforo entre 0 e 29,26 mg L-1. Os melhores resultados de remoção de DQO foram obtidos com TDH de 24 horas, com média de 83% de remoção e, conseqüentemente, maior geração de biogás, 48,39 kg de metano por dia. Concluise que, dentro das condições empregadas, o processo de digestão anaeróbia foi eficiente na remoção de DQO. Se a empresa utilizar o metano produzido na geração de energia, poderá entrar no mercado de créditos de carbono e obter uma renda extra.

Biodigestão anaeróbia da fração orgânica de resíduos sólidos urbanos / Anaerobic biodigestion of the organic fraction of municipal solid waste

Schulz, Francine

30 March 2015

Submitted by Maicon Juliano Schmidt (maicons) on 2015-06-09T13:13:41Z No. of bitstreams: 1 Francine Schulz.pdf: 962288 bytes, checksum: 8db430d0b4154ff34f344ee492cf6bad (MD5) / Made available in DSpace on 2015-06-09T13:13:41Z (GMT). No. of bitstreams: 1 Francine Schulz.pdf: 962288 bytes, checksum: 8db430d0b4154ff34f344ee492cf6bad (MD5) Previous issue date: 2015-03-30 / CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / PROSUP - Programa de Suporte à Pós-Gradução de Instituições de Ensino Particulares / O aproveitamento energético da fração orgânica dos Resíduos Sólidos Urbanos (RSU) para geração de biogás é uma alternativa viável para minimizar os impactos sociais e ambientais causados pelo acúmulo e disposição destes resíduos nos aterros sanitários. A digestão anaeróbia, sob condições controladas, tem por objetivo maximizar o rendimento e a qualidade do biogás produzido. Dentre os parâmetros controlados o pH, a alcalinidade, a concentração dos ácidos graxos voláteis e a temperatura de operação são fundamentais para a otimização do processo. O objetivo do presente estudo foi determinar as condições operacionais adequadas para a obtenção do melhor rendimento na produção de biogás, utilizando como substrato a fração orgânica rejeitada pela operação da central de triagem do aterro sanitário do município de São Leopoldo - RS. O experimento foi executado em um reator anaeróbio de aço inox com volume de 50L, operado em batelada com mistura intermitente. Antes de cada batelada a fração orgânica de RSU foi triturada em um triturador mecânico. Foram realizadas 05 bateladas, utilizando diferentes taxas de carga orgânica e diferentes volumes de inóculo, buscando estabilizar o pH do sistema dentro da faixa ótima de processo e, também aumentar o volume de produção de biogás. Como resultado tem-se que a fração orgânica de RSU demonstrou possuir potencial de degradação e produção de biogás (mínimo de 6,71 e máximo de 22,45 m3 / ton RSU). Os teores de metano ficaram entre 70% e 80% ao final das bateladas, mesmo com pH ácidos (5,5-5,6). A dificuldade de homogeneizar adequadamente as amostras coletadas pode ter influenciado os resultados encontrados para os teores de COT. Os valores desta variável aumentaram ao longo do tempo, não coincidindo com os valores encontrados para os teores de SV, que diminuíram ao longo do tempo. Em todas as bateladas experimentais houveram dificuldades para manter o pH e a temperatura estáveis e dentro da faixa ótima de processo, o que levou a produção de biogás mais baixa do que a encontrada em outros estudos. As taxas de cargas orgânicas aplicadas, quando consideradas isoladamente como variável, não pareceram influenciar substancialmente no volume final de biogás produzido nas bateladas, mas sim na dificuldade de manutenção do pH na faixa ótima para digestão anaeróbia. / The energy use of the organic fraction of municipal solid waste (MSW) for biogas generation is a viable alternative to minimize the social and environmental impacts caused by the accumulation and disposal of these wastes in the landfills. Anaerobic digestion, under controlled conditions, aims to maximize the yield and quality of the biogas produced. Among all the parameters monitored, pH, alkalinity, the concentration of volatile fatty acids and temperature are critical for the process optimization. The aim of this study was to determine the appropriate operational conditions for obtaining the best performance in the production of biogas, using as substrate the organic fraction rejected by the central operation of sorting from the landfill in São Leopoldo - RS. The experiment was performed in an anaerobic reactor of stainless steel with a volume of 50L, operated in batch with intermittent mixing. Before each batch the organic fraction of MSW was ground in a mechanical mill. Five batches were performed using diferent organic loading rates and different volumes of inoculum, in order to stabilize the pH of the system within the optimum range of the process and also increase the amount of biogas. As a result we have that the organic fraction of MSW demonstrated potential for degradation and biogas production (minimum of 6.71 and maximum of 22.45 m3 / ton MSW). The methane concentrations were between 70% and 80% at the end of the batches, even at acid pH (5.5-5.6). The difficulty of properly mix the samples collected may have influenced the results for TOC (Total Organic Carbon). The values of this variable increased over time, not coinciding with that found for the VS (Volatile Solids) levels that decreased over time. In all experimental batches was difficult to maintain the pH and the temperature within the optimum range process, this fact can explain the low production of biogas when compare to other studies. The organic loading rates, when considered alone as a variable, did not seemed to influence the final volume of biogas produced in the batches tested, but it did influence to balance and maintain the pH in the adequate range for the anaerobic digestion.

ACCNPQ::Engenharias::Engenharia Civil

Biogás

Digestão anaeróbia

Resíduos sólidos urbanos

Biorreator

Biogas

Anaerobic digestion

Municipal solid waste

Biodigester

Pre-treatment of straw and forest residue for biogas production; Recycling and Reuse of NMMO

Zareibezini, Shahram, Yaparla, Ravi Sankar Reddy

January 2014

N-methylmorpholine-N-oxide has shown a positive effect for the pretreatmentof lignocelluloses. Pretreatment by NMMO was developed to enhance thedigestibility of lignocellulosic biomass.Barely straw and forest residue were pretreated by N-methylmorpholine-Noxide(NMMO) prior to anaerobic digestion. The effectiveness of NMMOtreatmenton straw and forest residue was examined as well as the recycling andreuse of NMMO for the next pretreatment process. During the first experimentalseries pretreatments were performed at 90 °C for 3h and 30h, followed bydigestion of the pretreated material for 41 days. Low methane yield was found inthese experiments due to high organic loading rate. In the second series therecycling and reuse of NMMO was investigated on straw. The pretreatmentswere carried out at 90 °C for 30 hr and the recycling and reuse were performedin three times. After treatments with fresh, as well as 1, 2, 3 times recycledNMMO methane yield of 0.45, 0.42, 0.38 and 0.4 Nm3/kg VS were obtained. / Program: Masterutbildning i energi- och materialåtervinning - industriell bioteknik

NMMO pretreatment

biogas production

anaerobic digestion

barley straw

forest residues

NMMO recycling and reuse

Engineering and Technology

Teknik och teknologier