• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 248
  • 143
  • 45
  • 25
  • 12
  • 8
  • 8
  • 6
  • 5
  • 3
  • 2
  • 1
  • 1
  • 1
  • 1
  • Tagged with
  • 590
  • 590
  • 177
  • 143
  • 116
  • 115
  • 113
  • 92
  • 89
  • 82
  • 77
  • 70
  • 68
  • 60
  • 48
  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
141

Modificação da fração lignocelulósica durante o processo de compostagem do bagaço de cana-de-açúcar /

Bernabé, Giseli Aparecida. January 2012 (has links)
Orientador: Ribeiro, Clóvis Augusto / Banca: Salvador Claro Neto / Banca: Eder Tadeu Gomes Cavalheiro / Banca: Luciana Camargo de Oliveira / Banca: Evaneide Nascimento Lima / Resumo: O crescimento na produção brasileira de cana-de-açúcar devido, principalmente, à obtenção de açúcar e álcool é motivado pelo aumento na exportação deste subproduto e produção de veículos bicombustíveis, respectivamente. Desta maneira, há maior geração de bagaço, embora possuindo inúmeras utilidades, muitas vezes existe um excesso remanescente do total gerado. Assim, são necessários estudos que viabilizem o uso deste resíduo. Neste trabalho foi estudada a modificação da fração lignocelulósica durante o processo de compostagem e biodigestão anaeróbia do bagaço de cana-de-açúcar. Amostras foram coletadas em diferentes períodos para ambos os processos (0 (cru), 7; 45; 60; 90; 120; 272 dias; 1 ano e 1 ano e 2 meses) e acompanhadas por meio de parâmetros como: pH, umidade, temperatura, presença de metais e demanda química de oxigênio. A caracterização foi feita com o auxílio de técnicas termoanalíticas (TG/DTG/DTA e DSC) e espectroscopia na região do infravermelho. As amostras provenientes dos processos aeróbios e anaeróbios foram submetidas às extrações de lignina, utilizando-se dioxano/HCl (9:1) e, de celulose e hemicelulose, as quais foram obtidas do resíduo sólido resultante da extração de lignina. O comportamento térmico e espectros de infravermelho dessas substâncias foram avaliados e, comparadas suas degradações e modificações na ausência e presença de oxigênio. Os resultados obtidos mostraram que a digestão anaeróbia é mais lenta que a compostagem na decomposição de seus constituintes, principalmente, lignina e celulose/hemicelulose, fato comprovado por suas respectivas curvas de Calorimetria Exploratória Diferencial (DSC); além da constatação de modificações nas estruturas de lignina e celulose ao longo dos dois processos, bem como, fortes evidências... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The growth in the Brazilian sugarcane production, mainly, due to obtain sugar and alcohol is motivated by the increase in export of this subproduct and production of flex-fuel vehicles, respectively. This way, there is a larger bagasse generation, although having many uses, often there is an excess remaining of the total generated. Thus, studies are needed that allow the use of this waste. The modification lignocellulosic fraction during composting and anaerobic biodigestion process of sugarcane bagasse was studied in this work. Samples were collected in different periods for both process (0 (raw); 7; 45; 60; 90; 120; 272 days and 1 year and 1 year and 2 months) and monitored by parameters, such as: pH, humidity, temperature, presence of metals and chemical oxygen demand. The characterization was made with help of thermoanalytical techniques (TG/DTG/DTA e DSC) and infrared spectroscopy. The samples from aerobic and anaerobic process were submitted to lignin extraction, using dioxane/ HCl (9:1), and hemicelluloses/cellulose extraction which were obtained from solid residue resulting of lignin extraction. The thermal behavior and infrared spectra from these substances were evaluated and then compared their degradation and changes in the oxygen presence and absence. The obtained results have showed that anaerobic digestion is slower than composting in its constituents decomposition, mainly, lignin and cellulose/hemicellulose, as demonstrated by their respective curves of Differential Scanning Calorimetry (DSC); besides verifying changes in the cellulose and lignin structures through the two process, as well as, strong evidences of lignin in the cellulose extract and, rare assignments of cellulose to lignin extracted. Concerning to humification, a greater tendency for composting samples was observed, mainly... (Complete abstract click electronic access below) / Doutor
142

Avaliação exergética da geração e uso de biogás no setor sucroenergético. / Exergy assessment of biogas generation and usage in the sugarcane industry.

Rafael Nogueira Nakashima 11 May 2018 (has links)
O resíduo da primeira destilação do vinho, a vinhaça, destaca-se dentre os demais gerados na produção de etanol de cana-de-açúcar pelo seu grande volume e alta concentração de substâncias orgânicas. O tratamento anaeróbio desse efluente pode melhorar suas características físico-química (e.g. pH e DQO) além de produzir um combustível alternativo ao gás natural, o biogás. No entanto, apesar dos possíveis ganhos energéticos e ambientais, essa tecnologia apresenta dificuldades em se tornar viável no setor sucroenergético. Tendo em vista esse cenário, este trabalho propõe uma nova análise termodinâmica, baseada no método exergético, do potencial da vinhaça e do biogás provindo de seu tratamento. Para isso, modelou-se a digestão anaeróbia da vinhaça por meio do ADM1 (Anaerobic Digestion Model Nº1) e atualizou-se o cálculo da exergia química deste efluente. Assim, os resultados obtidos indicam que o tratamento anaeróbio pode recuperar uma significativa parcela da exergia descartada com a vinhaça (44-52% de 189-1529 kJ/l), dependendo da degradabilidade e concentração do material orgânico, bem como o regime de operação do reator anaeróbio. Nota-se também, que apesar de a digestão anaeróbia ser mais eficiente com maiores tempos de retenção hidráulica, é preferível maximizar o volume de vinhaça tratada em detrimento da qualidade de conversão. Além disso, o desempenho anual da geração de biogás também é afetado pelo seu processo de partida e pela sazonalidade da produção de etanol. Por outro lado, a planta de biogás promove maiores reduções de exergia destruída em comparação com a fertirrigação e a concentração de vinhaça. Possíveis integrações térmicas entre a planta de biogás e a unidade de concentração de vinhaça foram propostas e analisadas, atingindo melhores eficiências exergéticas e reduzidas demandas térmicas. De forma geral, esse estudo demonstra a aplicação do método exergético na valorização de resíduos orgânicos por meio da produção de biogás. / The residue of the first distillation of wine, vinasse, stands outs in the sugarcane ethanol production due to its huge volume and high concentration of organic substances. The anaerobic treatment of this effluent can enhance its physical-chemical characteristics (e. g. pH and COD) in addition to produce an alternative fuel to natural gas, the biogas. However, although there are possible gains in the energy and environmental aspects, this technology presents difficulties to become viable in Brazilian market. Therefore, this work proposes a new thermodynamic analysis, based on the exergy method, of the potential of vinasse and biogas produced in its anaerobic treatment. In order to accomplish this, the anaerobic digestion of vinasse was modeled with ADM1 (Anaerobic Digestion Model Nº1) and the chemical exergy calculation of this effluent was updated. Thus, the results obtained indicate that the anaerobic treatment can recover a significant part of vinasse exergy (44-52% of 189- 1529 kJ/l), depending on the digestible material concentration, as well as the anaerobic reactor operation. It also can be notice that, although anaerobic digestion be more efficient at higher retention times, it is desirable to maximize treated vinasse volume to the detriment of conversion quality. Furthermore, the biogas production yearly performance is also affected by the reactor start-up process and the ethanol production seasonality. On the other hand, the biogas plant promotes higher reductions of exergy destruction in comparison with fertirrigation and vinasse concentration. Possible thermal integrations between the biogas plant and the vinasse concentration plant were proposed and analyzed, reaching better exergy efficiencies and reduced thermal demand. In general, this study demonstrates the exergy method application in organic residues upgrade by biogas production.
143

Biodigestão da fração orgânica de resíduos sólidos em um reator de duas fases operado em bateladas sequenciais com imobilização da biomassa. / Biodigestion of the organic fraction of solid wates in a two-phase reactor, operated in sequential batch with biomass immobilized.

Culi, Mario Jose Lucero 28 November 2018 (has links)
O presente trabalho avaliou a geração de biogás em um reator de duas fases, operado em bateladas sequencias, com resíduos coletados no CEAGESP de São Paulo-SP. O reator com volume efetivo de 10,7 L, era composto por um biofiltro anaeróbio em sua parte inferior, seguido por um separador de gases e posteriormente por um depósito de resíduos a digerir na parte superior. O inóculo era proveniente do fundo de uma lagoa de lixiviados do aterro de São Carlos-SP. O experimento foi conduzido em temperatura controlada em 30 ± 2 ºC nas Etapas 1, 2 e 3. A Etapa 1 consistiu na ativação e adaptação da biomassa, utilizando-se etanol e posteriormente resíduo orgânico do CEAGESP. A Etapa 2 consistiu na operação anaeróbia do sistema com resíduo do CEAGESP com lodo já adaptado. Na Etapa 3, verificou-se o efeito da aeração no compartimento de resíduos. Na Etapa 4, avaliou-se a influência da temperatura na digestão anaeróbia e com isto foi possível a obtenção do coeficiente de Arrhenius. Na Etapa 5, comparou-se o sistema de duas fases com um segundo reator anaeróbio, com configuração parecida com a convencional. Os resultados obtidos de todas as etapas na geração de biogás no reator de duas fases foram de 0,44; 0,44; 0,47 m3 /Kg SV e as eficiências de remoção de Sólidos Voláteis foram de 82,1%; 84,5% e 84,8% nas Etapa 1, 2 e 3, respetivamente, com um tempo de ração de 14 d nas três etapas. As concentrações de metano foram de 68,4; 67,1 e 66,6%, respectivamente. Na Etapa 4, os resultados da geração de biogás foram de 0,36; 0,38; 0,41; 0,41 m3 biogás/Kg SV nas temperaturas 25,6 ºC; 28,9 ºC; 34,0 ºC e 38,1 ºC, respetivamente. Denotando que a temperatura é um fator importante na geração de biogás em digestão anaeróbia. No reator convencional, a geração de biogás foi de 0,32 m3 biogás/Kg SV. / The present work evaluated the biogas generation in a two-phase reactor, operated in batch sequences, with residues collected at CEAGESP in São Paulo-SP. The reactor with an effective volume of 10.7 L was composed of an anaerobic biofilter in its lower part, followed by a gas separator and later by a deposit of waste to digest in the upper part. The inoculum was from the bottom of a leachate pond in the São Carlos-SP landfill. The experiment was conducted at a temperature of 30 ± 2 º C in Steps 1, 2 and 3. Step 1, consisted of the activation and adaptation of the biomass using ethanol and then organic waste from CEAGESP. Step 2, consisted of the anaerobic operation of the system with residue of the CEAGESP with already adapted sludge. In Step 3, the effect of aeration on the waste compartment was verified. In Step 4, the influence of temperature on the anaerobic digestion was evaluated and with this it was possible to obtain the Arrhenius coefficient. In Step 5, the two-phase system was compared with a second anaerobic reactor, with the same configuration as conventional. The results of all stages in the biogas generation in the two-phase reactor were 0.44; 0.44; 0.47 m3 / Kg SV and the removal efficiencies of Volatile Solids were 82.1%; 84.5% and 84.8% in Step 1, 2 and 3 respectively; and a feed time were of 14 d in the three steps. Consequently, the percentage of methane was 68.4; 67.1 and 66.6%. In stage 4 the results in the biogas generation were 0.36; 0.38; 0.41; 0.41 m3 biogas / Kg SV at temperatures 25.6 ° C; 28.9 ° C; 34.0 ° C and 38.1 ° C respectively. In the conventional reactor the biogas generation was 0.32 m3 biogas / Kg SV.
144

Microscale biomass generation for continuous power supply to remote customers

Loeser, Mathias January 2010 (has links)
Remotely located and sparsely populated areas often do not have access to an efficient grid connection for electricity supply. However, plenty of biomass is normally available in such areas. Instead of employing island solutions such as small diesel generators or large battery stacks for power provision, a flexibly operating microscale biomass power plant using locally available and renewable feedstock is not only an efficient way of providing those areas with competitive and reliable electricity, but also a step towards energy self sufficiency for a large share of areas worldwide, and towards mitigating the looming high costs of grid infrastructure upgrading and extension. A novel power plant design combining thermo chemical and biochemical biomass treatment was developed in this research. This system consists of a small scale gasifier and an anaerobic digester unit, both coupled to a gas storage system and a micro turbine as the generation unit. This design is suitable to continuously provide reliable electricity and accommodate fluctuating residential power demand, and it can be scaled to a level of around 100kWe, which is a fitting size for a group of residential customers, such as in a remote village. The project covers a review of available technology; the choice of suitable technology for such a plant and the design of the system; the set up of a detailed plant model in chemical engineering software; extensive simulation studies on the basis of load profiles to evaluate and optimise operation; and feedstock sourcing, efficiency and economic analyses. It will be shown that such a system is a feasible and economic solution for remote power supply, and that it can overcome many of the current obstacles of electrifying rural regions.
145

Biodigestão da fração orgânica de resíduos sólidos em um reator de duas fases operado em bateladas sequenciais com imobilização da biomassa. / Biodigestion of the organic fraction of solid wates in a two-phase reactor, operated in sequential batch with biomass immobilized.

Mario Jose Lucero Culi 28 November 2018 (has links)
O presente trabalho avaliou a geração de biogás em um reator de duas fases, operado em bateladas sequencias, com resíduos coletados no CEAGESP de São Paulo-SP. O reator com volume efetivo de 10,7 L, era composto por um biofiltro anaeróbio em sua parte inferior, seguido por um separador de gases e posteriormente por um depósito de resíduos a digerir na parte superior. O inóculo era proveniente do fundo de uma lagoa de lixiviados do aterro de São Carlos-SP. O experimento foi conduzido em temperatura controlada em 30 ± 2 ºC nas Etapas 1, 2 e 3. A Etapa 1 consistiu na ativação e adaptação da biomassa, utilizando-se etanol e posteriormente resíduo orgânico do CEAGESP. A Etapa 2 consistiu na operação anaeróbia do sistema com resíduo do CEAGESP com lodo já adaptado. Na Etapa 3, verificou-se o efeito da aeração no compartimento de resíduos. Na Etapa 4, avaliou-se a influência da temperatura na digestão anaeróbia e com isto foi possível a obtenção do coeficiente de Arrhenius. Na Etapa 5, comparou-se o sistema de duas fases com um segundo reator anaeróbio, com configuração parecida com a convencional. Os resultados obtidos de todas as etapas na geração de biogás no reator de duas fases foram de 0,44; 0,44; 0,47 m3 /Kg SV e as eficiências de remoção de Sólidos Voláteis foram de 82,1%; 84,5% e 84,8% nas Etapa 1, 2 e 3, respetivamente, com um tempo de ração de 14 d nas três etapas. As concentrações de metano foram de 68,4; 67,1 e 66,6%, respectivamente. Na Etapa 4, os resultados da geração de biogás foram de 0,36; 0,38; 0,41; 0,41 m3 biogás/Kg SV nas temperaturas 25,6 ºC; 28,9 ºC; 34,0 ºC e 38,1 ºC, respetivamente. Denotando que a temperatura é um fator importante na geração de biogás em digestão anaeróbia. No reator convencional, a geração de biogás foi de 0,32 m3 biogás/Kg SV. / The present work evaluated the biogas generation in a two-phase reactor, operated in batch sequences, with residues collected at CEAGESP in São Paulo-SP. The reactor with an effective volume of 10.7 L was composed of an anaerobic biofilter in its lower part, followed by a gas separator and later by a deposit of waste to digest in the upper part. The inoculum was from the bottom of a leachate pond in the São Carlos-SP landfill. The experiment was conducted at a temperature of 30 ± 2 º C in Steps 1, 2 and 3. Step 1, consisted of the activation and adaptation of the biomass using ethanol and then organic waste from CEAGESP. Step 2, consisted of the anaerobic operation of the system with residue of the CEAGESP with already adapted sludge. In Step 3, the effect of aeration on the waste compartment was verified. In Step 4, the influence of temperature on the anaerobic digestion was evaluated and with this it was possible to obtain the Arrhenius coefficient. In Step 5, the two-phase system was compared with a second anaerobic reactor, with the same configuration as conventional. The results of all stages in the biogas generation in the two-phase reactor were 0.44; 0.44; 0.47 m3 / Kg SV and the removal efficiencies of Volatile Solids were 82.1%; 84.5% and 84.8% in Step 1, 2 and 3 respectively; and a feed time were of 14 d in the three steps. Consequently, the percentage of methane was 68.4; 67.1 and 66.6%. In stage 4 the results in the biogas generation were 0.36; 0.38; 0.41; 0.41 m3 biogas / Kg SV at temperatures 25.6 ° C; 28.9 ° C; 34.0 ° C and 38.1 ° C respectively. In the conventional reactor the biogas generation was 0.32 m3 biogas / Kg SV.
146

High rate biogas production from waste textiles

Rajendran, Karthik, Balasubramanian, Gopinath January 2011 (has links)
Textile is a global product used by all people in the world. These textiles after the use are thrown into the trash for incineration or land filling. However an efficient way that can be used to produce more energy, in an environmentally friendly process is anaerobic digestion. Waste textiles which contain cellulosic fibers (e.g. Cotton and viscose) can be converted to biogas. In this study, the performance of a two-stage anaerobic digestion process for biogas production from four different materials, including untreated jeans, treated jeans, cotton, and starch was studied. Starch was used as an easy-to-digest material to compare its digestion with that of cellulosic materials.The two-stage processes were composed of a CSTR (for hydrolysis) and a UASB (for methanogenisis) which were investigated in two different configurations, namely (closed and open systems). In the closed system, the outlet of UASB was completely returned back to the CSTR, while in the open system the UASB outlet was sent to sewage. In a stepwise progress, the OLR was aimed to increase from 2 to 20 g Vs per L per day along with reduction in hydraulic retention time from 10 days to 1 day.The results showed that the closed system was more stable when compared to the open system. The pre-treatment of jeans by NMMO helped to produce methane as that of cotton. The hydraulic retention time was decreased to less than 9 days for treated jeans and less than 5 days for starch. The overall methane yield at OLR of 4 gVS per L per day for starch and treated jeans was 98.5% and 97.4% in the closed system, whereas in the open system the yield was 77.0% and 35.5%, respectively.Another experiment was conducted to compare the performance of two-stage process with that of a single stage process of anaerobic digestion of textiles containing polyester and cotton or viscose. Viscose textiles produced more gas compared to the cotton textile; it may be due to the higher crystalline of cotton which makes it hard to be degraded by the microorganisms. Furthermore, two-stage process could able to produce more methane than the single stage process.The parameters like total solids, volatile solids, pH, gas production, gas composition, concentration of nutrients, and COD were also analyzed for both of the experiments.
147

Modélisation des processus de transformation de l'azote en digestion anaérobie : application à l'optimisation de la valorisation des digestats / Modelling nitrogen transformation processes in anaerobic digestion : application to the optimization of digestate valorization.

Bareha, Younès 20 December 2018 (has links)
La valorisation des déchets par digestion anaérobie conduit à la production d’un résidu, appelé digestat, qui est composé de la matière organique non biodégradée et présente une forte teneur en azote ammoniacal et organique. De par cette richesse en azote, les digestats présentent un intérêt grandissant pour la substitution aux engrais minéraux. L’objectif de cette thèse est de comprendre les transformations de l’azote en digestion anaérobie afin de prédire la qualité azotée des digestats. Cette compréhension des processus de transformation de l’azote ouvrira la possibilité de dimensionner et piloter le procédé de digestion anaérobie pour une substitution optimisée des engrais minéraux par les digestats. Pour cela, deux approches ont été développées: (i) une approche compréhensive centrée sur la compréhension de la bioaccessibilité de l’azote organique en lien avec sa biodégradabilité, et la compréhension des transformations de l’azote en digestion anaérobie en conditions de laboratoire et pilote; et ; (ii) une approche numérique où les processus identifiés ont été intégrés à des outils de modélisation à bases statistiques et biocinétiques permettant de prédire les propriétés azotées des digestats en fonction des cocktails de substrats et du temps de séjour dans le digesteur. / Energetic recovery of waste by anaerobic digestion leads to the production of a residue called digestate, which is composed of non-biodegraded organic matter and has a high content of ammoniacal and organic nitrogen. Due to this high nitrogen content, digestates are growing interest for the substitution of mineral fertilizers. The objective of this thesis is to understand the transformations of nitrogen that occur during anaerobic digestion in order to predict the nitrogen quality of digestates. This understanding of nitrogen transformation processes will allows the design and management of anaerobic digestion plants aiming at the optimization of the substitution of mineral fertilizers by digestates. To this end, two approaches were used in this work: (i) an experiment approach focused on the understanding of the bioaccessibility of organic nitrogen in relation to its biodegradability, and the understanding of the transformations of nitrogen in anaerobic digestion under laboratory and pilot conditions; and; (ii) a numerical approach where previously developed knowledge has been integrated in statistical and biokinetic modeling tools to predict the nitrogen properties of digestates according to substrate cocktails and residence time in the digester.
148

Produção de biogás a partir de glicerol oriundo de biodiesel / Biogas production from glycerol generated on biodiesel industry

Viana, Michael Barbosa 29 April 2011 (has links)
Com o aumento da produção de biodiesel para atender à legislação brasileira, está ocorrendo um aumento considerável na geração de glicerol, um resíduo líquido contendo cerca de 46 g\'CL POT.-\'/L e com elevada concentração de matéria orgânica (DQO média de 1.260 g/L). Apesar de ser bastante utilizado na indústria química, o teor de impurezas do glicerol oriundo de biodiesel limita o seu processamento industrial. Buscando agregar valor à este resíduo, utilizou-se um reator anaeróbio de manta de lodo e fluxo ascendente (UASB Upflow Anaerobic Sludge Blanket), em escala de laboratório (14,85 L de volume útil), para produzir metano visando geração de energia, tendo o glicerol residual como única fonte de substrato. Este glicerol residual foi obtido a partir da transesterificação de uma mistura de óleos de algodão e soja (2:3, v/v) em uma usina de biodiesel pertencente à Petrobrás S.A. Durante a operação, a COV foi aumentada gradualmente de 2,0 a 10,0 kgDQO/\'M POT.3\'.d e a diluição de glicerol residual no afluente foi reduzida de 1:1.500 até 1:5. O reator UASB foi capaz de remover, em média, 97,5% de matéria orgânica, apresentando 59% de \'CH IND.4\' no biogás, e relação AGV/Alc\'H\'CO IND.3\'POT.-\' abaixo de 0,3, mesmo com 14 g\'CL POT.-\'/L no interior do sistema. No entanto, foi necessário adicionar nutrientes em concentrações adequadas para evitar que o sistema entrasse em colapso. Os ensaios de toxicidade mostraram que o glicerol residual não é tóxico ao lodo anaeróbio, mas apresenta uma limitação inicial da metanogênese. O teste de biodegradabilidade anaeróbia indicou que o glicerol residual foi 65,9% biodegradável e o potencial de produção de metano alcançou 0,220 \'M POT.3\'CH IND.4\'/kg Glicerol. / The Brazilian legislation demands the use of biodiesel mixed with diesel in an increasing rate. This raise on biodiesel production implies also on an increase on generation of glycerol, which is a liquid or semi-solid waste with high concentration of salts (approximately 46.1 g\'CL POT.-\'/L) and organic matter (1260 gCOD/L in average). Despite being widely used in chemical industry, the residual glycerol contains impurities that limit its industrial processing. In order to add value to this residue, an upflow anaerobic sludge blanket reactor (UASB) at laboratory scale (14.85 L of working volume), fed with glycerol generated on biodiesel industry, was used to produce biogas, which can be used for power generation via methane. This wasted glycerin was produced by the transesterification process of a mixture of the cottonseed oil and soybean oil (2:3, v:v) in a Petrobras S/A biodiesel plant. During operation, the organic loading rate (OLR) was gradually increased from 2.0 to 10.0 kgCOD/\'M POT.3\'.d., and the dilution of residual glycerol in the influent was reduced from 1:1500 to 1:5. The UASB reactor was able to remove 97.5% of the organic matter, producing biogas with 59% of \'CH IND.4\', and VFA/Alk\'H\'CO IND.3\'POT.-\' ratio below 0.3, even with a very high concentration of chloride in the bulk liquid (14 g\'CL POT.-\'/L). However, it was necessary to add nutrients in adequate concentrations to prevent the system from collapsing. The toxicity tests showed that the residual glycerol used in the research was not toxic to the anaerobic sludge. The anaerobic biodegradability test indicated that the residual glycerol was 65.9% biodegradable and the biochemical methane production potential was 0.220 \'M POT.3\'CH IND.4\'/kg Glycerol.
149

Evaluation of sewage digested sludge conditioning and dewatering through qualitative and quantitative laboratory methodologies towards process monitoring

Oliveira, Ivo Miguel Delgado Bandeira January 2017 (has links)
This thesis reports on investigations that have contributed to an advancement in the applied and fundamental understanding on how the nature, related storage and processing of digested sewage sludge can influence polymer conditioning and dewatering. The work concentrated more specifically on evaluating the impact of thermal hydrolysis as a pre-treatment to anaerobic digestion (AD) of mainly secondary sewage sludges (Advanced AD, AAD plants) in comparison with conventional mesophilic AD (CMAD) on conditioning and dewatering of the digestate, as this knowledge seemed to be lacking for an AAD technology that is increasingly being implemented. An additional contribution to knowledge from this study relates to the evaluation of how polymer conditioning and dewatering of digested sludges could be monitored using rheometric measurements. It was concluded that digested sludge biofloc characteristics (size, shear viscosity and organic matter composition) affected the most the conditioning and dewatering results but these varied depending on the process conditions i.e. AAD versus CMAD and digestate handling conditions. The reduction in particle size and shear viscosity (η[0.1 s-1]) per g Total Solids as well as the increased solubilization of protein, organically bound nitrogen and chemical oxygen demand of the digestates which contributed to the increased conditioning requirements affected also the dewatering rate and the strength of the flocs produced after conditioning. The changes in the digested sludge biofloc characteristics were detected by rheometric measurements which were well correlated with changes in organic matter composition and polymer conditioning requirements (r of 0.9 and 0.8). It was proposed that the variations in η[0.1 s-1] and organic matter content such as soluble protein could be used to predict polymer dose requirements to achieve good filterability (R2 of 0.7; significance F and p < 0.05). Future work is however required in order to consolidate these findings by monitoring conditioning, dewatering and η[0.1 s-1] of the digestate at full scale.
150

Anaerobic co-digestion of food and algal waste resources

Cogan, Miriam Lucy January 2018 (has links)
Anaerobic digestion is a key energy and resource recovery technology. This work investigated potential organic waste resources to co-digest with household food waste (HFW) to stabilise the process and future-proof feedstock availability. This included novel feedstock macroalgae (seaweed) waste (SW). Hydrothermal (autoclave) pretreatment was also investigated to optimise energy recovery from HFW and SW. Preliminary experiments investigated the behaviour of HFW co-digested with either a green waste (GW) or paper waste (PW), using a batch-test laboratory scale and systematic approach with a revised waste mixture preparation method. Following preliminary trials, the co-digestion of HFW/SW was investigated using an air-dried SW mixture. Batch experiments to determine the biomethane potential (BMP) at different ratios of HFW to SW were set up. Co-digesting HFW and SW at ratio 90:10 (d.w.) achieved a BMP similar to HFW alone (252±13 and 251±1 cm3 g-1 VS, respectively), and a peak methane yield for HFW:SW (90:10) at day 12 of 69±3% compared to a peak methane yield for HFW at day 19 of 70±3%. Addition of SW optimised the C/N ratio, increased concentrations of essential micronutrients and produced an overall increase in reaction kinetics. Concentrations of SW ≥25%, associated with high sulphur levels, reduced final methane productivity. Analysis of the macroalgae strains L. digitata, U. lactuca and F. serratus from the SW mixture was carried out to compare mono-digestion and co-digestion with HFW at a 90:10 ratio and the effect of autoclave pretreatment at 136°C. Co-digestion had a positive impact on methane yields for U. lactuca and F. serratus, whilst autoclave pretreatment had no significant impact on the SW strains When results were modelled for a 320 m3 anaerobic digester treating 8m3 feed per day the theoretical energy balance showed that optimal energy production from pretreated HFW at 8.09 GJ/day respectively could be achieved. To verify the suitability of using macroalgae, known to readily uptake polycyclic aromatic hydrocarbons (PAH), toxicity tests were used to determine the impact of phenanthrene sorbed by U. lactuca on the AD process. Despite U. lactuca’s ability to biosorb phenanthrene in under 2 hours, no impact on the AD process was observed. Overall, results of this study demonstrated that co-digestion of HFW and SW, at batch laboratory scale, provide a viable and sustainable waste revalorisation solution. In addition, low temperature autoclave pretreatment increased methane production (p=0.002) from the AD of HFW.

Page generated in 0.0937 seconds