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  • 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.
171

A New Technology for the Anaerobic Digestion of Organic Waste

Guilford, Nigel 19 January 2010 (has links)
The development and patenting of a new technology for the anaerobic digestion of solid waste is described. The design basis is explained and justified by extensive reference to the literature. The technology was specifically designed to be versatile, robust and affordable and is directly derived from other proven processes for organic waste management. The ways in which environmental regulations directly affect the development and commercialization of organic waste processing technologies are described. The great differences in regulations between Europe and North America are analyzed to explain why anaerobic digestion is common in Europe and rare in North America and why this is the result of waste management economics which are driven by these regulations. The new technology is shown to be competitive in the Province of Ontario in particular and North America in general; a detailed financial analysis and comparison with European technologies is provided in support of this conclusion.
172

Enrichment of Methanogenic Microcosms on Recalcitrant Lignocellulosic Biomass

Lacourt, William 14 December 2011 (has links)
To improve biogas production from lignocellulosics, methanogenic microbial enrichments were prepared from moose rumen fluid, beaver droppings, and internal circulation (IC) reactor granules amended with cellulose, pine needles, lignosulphonate, tannic acid, and poplar hydrolysate. Tannic acid delayed methanogenesis compared to cellulose only enrichments, both by reducing initial rates (up to 50% in beaver dropping cultures) and increasing lag times (up to 50 days in moose rumen cultures). Biogas yields from poplar hydrolysate were 56 % by beaver droppings, 51% % by IC granules, and 31 % by moose rumen enrichments. Bacterial community profiles, determined via denaturing gradient gel electrophoresis (DGGE) showed divergent populations between enrichments. Enrichment on pine needles or poplar hydrolysate promoted bioconversion of post extraction wash (PEW), and beaver dropping enrichments fed pine needles equaled the yield (about 23%) from IC granules. Together, the DGGE and PEW results provide evidence of acclimatization to previously recalcitrant feeds.
173

Pretreatment of Pulp Mill Wastewater Treatment Residues to Improve Their Anaerobic Digestion

Wood, Nicholas 26 February 2009 (has links)
Anaerobic digestion of excess biological wastewater treatment sludge (WAS) from pulp mills has the potential to reduce disposal costs and to generate energy through biogas production. The organic matter in WAS is highly structured, which normally hinders biogas production. This study investigated three methods of pretreating WAS from two different pulp mills before anaerobic digestion to improve biogas yield and production rate. The three pretreatment methods tested were: i) thermal pretreatment at 170oC, ii) caustic pretreatment at 140oC and pH 12, and iii) sonication at 20 kHz and 1 W/mL. Thermal pretreatment proved to be the most effective, increasing biogas yield by 280% and 50% and increasing production rates 300-fold and 10-fold for the two samples, respectively. Caustic pretreatment showed similar results, but resulted in the formation of soluble non-biodegradable compounds. Sonication was the least effective pretreatment and did not substantially increase biogas yield, but increased biogas production rate.
174

Anaerobic digestion of slaughterhouse waste. Impact of the LCFA inhibition

Palatsi Civit, Jordi 29 January 2010 (has links)
Els residus carnis, o subproductes animals, són interessants per al procés de digestióanaeròbia i producció de biogàs, donat el seu elevat potencial energètic i l'actual marc legislatiu que prima la producció d'energia renovable. Tot i així, l'elevat contingut en lípids i proteïnes d'aquests residus pot limitar el seu tractament en introduir fenòmens d'inhibició, dels quals el més important és el produït pels àcids grassos de cadena llarga (AGCL), resultants de la hidròlisi dels lípids. L'objectiu de la present tesis és aprofundir en el coneixement d'aquest procés d'inhibició, en la capacitat d'adaptació dels microorganismes i en la recuperació o prevenció dels fenòmens d'inhibició. En una primera aproximació a la problemàtica, es caracteritzen residus orgànics d'escorxador, s'estudia la seva biodegradabilitat anaeròbia amb diferents relacions lípids/proteïnes i es realitzen assaigs discontinus seqüencials incrementant la concentració de substrat mitjançant pulsos consecutius. Es comprova que la hidròlisi i acidogènesi de proteïnes és molt ràpida i que la degradació dels lípids i AGCL limita la velocitat global del procés. Malgrat aquesta limitació, el sistema es recupera després dels pulsos aplicats, tot augmentant la taxa màxima de producció de metà. Per tal d'estudiar el fenòmen de recuperació, s'estudien i desenvolupen diferents estratègies en reactors sotmesos a processos d'inhibició per AGCL. L'increment dels ratis biomassa/AGCL o l'adició d'additius com la bentonita, per tal de reduir la biodisponibilitat o l'adsorció dels AGCL sobre la biomassa activa, es mostren com estratègies funcionals d'utilitat en l'operació de plantes industrials. Els resultats obtinguts reforcen la hipòtesi de que la inhibició és deguda a adsorció d'AGCL sobre la membrana cel·lular i que la recuperació es pot mesurar mitjançant un augment de l'activitat dels microorganismes. Per tal de dilucidar sobre la natura del augment de l'activitat en els processos de recuperació es caracteritza la inhibició-recuperació mitjançant tres tècniques: 1) estudi de les activitats dels microorganismes a diferents substrats 2) utilització de tècniques de biologia molecular per caracteritzar les poblacions, i 3) desenvolupant expressions cinètiques del procés d'inhibició, basades en l'adsorció, en el marc del model matemàtic ADM1 de la International Water Association. Mitjançant aquestes metodologies es comprova que els fenòmens d'inhibició i adaptació es poden explicar mitjançant un creixement poblacional específic i la inclusió dels fenòmens físic d'adsorció en el procés d'inhibició metabòlica. Finalment, s'avalua de forma més detallada el procés d'adsorció-inhibició mitjançant la determinació de les isotermes d'adsorció i monitoritzant mitjançant assaigs amb biomassa granular i tècniques de microscòpia de fluorescència. Aquesta caracterització ha permès obtenir estratègies de prevenció de la inhibició per AGCL, mitjançant competència amb adsorbents sintètics, i concloure que l'àcid palmític és el limitant en el procés de -oxidaciódels AGCL. Els resultats obtinguts constitueixen una base per al millor coneixement de les possibilitats de tractament anaerobi del residus carnis i dels processos d'inhibició per AGCL i adaptació de la biomassa. El procés físic d'adsorció ha estat directament relacionat amb el fenòmen d'inhibició metabòlica, obtenint-se una descripció matemàtica del mateix. Els resultats han permès plantejar estratègies operacionals, sent una eina a disposició d'operadors de plantes de biogàs per optimitzar la producció d'energia d'aquests residus >mitjançant la seva digestió anaeròbia. / Los residuos cárnicos, o subproductos animales, son interesantes para el proceso de digestión anaerobia y producción de biogás, dado su elevado potencial energético y el actual marco legal que prima la producción de energía renovable. A pesar de esto, el elevado contenido en lípidos y proteínas puede limitar su tratamiento, al introducir fenómenos de inhibición, de los cuales el más importante es el producido por ácidos grasos de cadena larga (AGCL), resultado de la hidrólisis de los lípidos. El objetivo de la presente tesis es profundizar en el conocimiento de este proceso de inhibición, en la capacidad de adaptación de los microorganismos t en la recuperación de sistemas inhibidos. En una primera aproximación a la problemática, se caracterizan los residuos orgánicos de matadero, se estudia su biodegradabilidad anaerobia con diferentes relaciones lípido/proteína y se realizan ensayos discontinuos secuenciales incrementando la concentración de substrato mediante pulsos consecutivos. Se comprueba que la hidrólisis y acidogénesis de las proteínas es muy rápido y que la degradación de lípidos y AGCL limita la velocidad global del proceso. A pesar de esta limitación, el sistema se recupera después de los pulsos aplicados aumentando la tasa máxima de producción de metano. A fin de estudiar el fenómeno de recuperación, se estudian y desarrollan diferentes estrategias en reactores inhibidos por AGCL. El incremento de los ratios biomasa/AGCL o la adición de aditivos como la bentonita, a fin de reducir la biodisponibilidad o la adsorción de los AGCL sobre la biomasa activa, se muestran estrategias funcionales de utilidad en la operación de plantas industriales. Los resultados obtenidos refuerzan la hipótesis de que la inhibición es debida a adsorción de AGCL sobre la membrana celular y que la recuperación se puede medir mediante un aumento de la actividad de los microorganismos. A fin de dilucidar sobre la naturaleza del aumento de la actividad en los procesos de recuperación se caracteriza la inhibición mediante tres técnicas: 1) estudio de las actividades de los microorganismos a diferentes substratos, 2) utilización de técnicas de biología molecular para caracterizar las poblaciones, y 3) desarrollando expresiones cinéticas del proceso de inhibición, basado en la adsorbió, en el marco del modelo ADM1 de la International Water Association. Mediante estas metodologías se comprueba que los fenómenos de inhibición y adaptación se pueden explicar mediante un crecimiento poblacional específico y la inclusión de la adsorción en el proceso de inhibición metabólica. Finalmente, se evalúa de forma detallada el proceso de adsorción-inhibición mediante la determinación de las isotermas de adsorción y monitorizando estos procesos mediante ensayos discontinuos con biomasa granular y técnicas de microscopia de fluorescencia. Esta caracterización ha permitido obtener estrategias de prevención de la inhibición por AGCL, mediante competencia con adsorbentes sintéticos, y concluir que el ácido palmítico es el limitante en el proceso de mutante -oxidación de los AGCL. Los resultados obtenidos constituyen una base para el mejor conocimiento de las posibilidades de tratamiento anaerobio de residuos cárnicos y de los procesos de inhibición por AGCL y adaptación de la biomasa. El proceso físico de adsorción se ha relacionado directamente con el fenómeno de inhibición metabólica, obteniéndose una descripción matemática del mismo. Los resultados han permitido plantear estrategias operacionales, siendo una herramienta a disposición de operadores de plantas de biogás para optimizar la producción de energía de estos residuos mediante su digestión anaerobia. / Slaughterhouse wastes are interesting for the anaerobic digestion process regarding its high biogas production potential and because the current legal scenario promotes renewable energy production. The high lipid and protein content of those residues limit its treatment due to inhibitory processes, in particular the inhibition caused by long chain fatty acids (LCFA). The objective of the present disertation is to obtain a deeper insight on the LCFA inhibition process, the microorganism adaptation ability and the prevention/recovery of inhibitory phenomena. In a preliminary approach, organic wastes generated in slaughterhouses are characterized, by studying the anaerobic biodegradability of waste mixtures containing diferents lipid/proteins concentrations. Anaerobic batch tests are performed at increasing substrate concentrations by sequential pulse feeding. From those experiments, the fast hydrolysis-acidogenesis of proteins is verified, being the lipids and LCFA degradation the main limiting step of the overall anaerobic process. Despite this limitation, the system is able to recover up to a higher methane production rate after each applied pulse. In order to elucidate on the mechanisms of the recovery process, several strategies to recover LCFA inhibited reactors are tested. The increase of the biomass/LCFA ratio and the adition of bentonite to reduce the biodisponibility or the adsorption of LCFA over microbial cell walls, are found to be effective approaches in the operation of fullscale biogas plants. The obtained results reinforce the hypothesis of the adsorptive nature of the LCFA inhibition, and that the recovery process can be followed as an increase in the microbial activity. The nature of the reported microbial activity improvement after subsequent sytem inhibition is characterized by three different techniques: 1) the study of specific microbial activities on different model substrates, 2) the application of molecular biology tools to monitor the microbial population structure and, 3) the development of kinetic expressions of the LCFA inhibition phenomena, based on the adsorption process, within the framework of ADM1 model of the International Water Association. The combined analysis of those confirmed that inhibition and adaptation phenomena are explained by a specific microbial growth, including adsorption in the metabolic LCFA inhibition process. The adsorption-inhibition process is evaluated in detail by determining LCFA adsorption isotherms on granular sludge, LCFA toxicity test, and fluorescence microscopy techniques. This multidisciplinary approach results in the definition of an inhibition preventing strategy based on the introduction of competitive adsorbents, and on stating the importance ofpalmitate during ß-oxidation of LCFA. This study contributes to the understanding of slaughterhouse wastes anaerobic treatment, the LCFA inhibition process, and the biomass adaptation phenomena. The physical adsorption process has been directly related with the LCFA metabolic inhibition, and a new mathematical kinetic expression is proposed. New strategies guiding the operation of anaerobic reactors are suggested in order to obtain high renewable energy yields from slaughterhouse wastes digestion.
175

Karaktärisering av avfallsbränslen / Characterization of waste fuels

Olofsson, Anna January 2006 (has links)
All products will eventually end up as waste, which in a sustainable society has to be handled in an efficient and environment friendly way. This report focuses on waste fractions meant for combustion, often difficult to characterize. However, more homogeneous fractions that are treated biologically are also discussed. The study concerns the region of Borås, Sweden, where the waste plant Sobacken has provided a good starting point. On this site, fuel to the Energy-from-Waste plant of Borås Energi is prepared and the biological waste is treated through anaerobic digestion. One important part of the study has been to collect experience-based knowledge from the technical staff at Sobacken and Borås Energi. This information was compiled into an overview of wanted and unwanted fractions to the preparation plant and the boilers respectively. The purpose of this overview is to complement existing delivery terms and thereby facilitate an increased quality of the fuel from the suppliers. A significant element of the analysis has been to characterize the content of the industrial waste sent to Sobacken for combustion. Chemical analyses of the prepared fuel as well as the conducted waste component analysis indicate a heterogeneous composition of the waste. A heterogeneous fuel often results in an uneven combustion, leading to higher emissions and an unwanted variation in the energy production. Through the waste component analysis, a comprehensive picture of the waste composition was attained. Materials non-valid for delivery mostly consisted of wet domestic waste (biodegradable materials), but some hazardous waste was also found. The results of the waste component analysis were communicated to the involved suppliers and this has already resulted in a considerable reduction of the amount of biodegradable waste in the deliveries of industrial waste. / Förr eller senare blir alla produkter avfall, som i ett uthålligt samhälle måste hanteras på ett resurssnålt och miljövänligt sätt. Det här arbetet är främst inriktat mot de svåridentifierade fraktionerna som är ämnade för förbränning, men berör även de mer homogena fraktionerna som behandlas biologiskt genom rötning. Arbetet har utförts i Boråsregionen där Sobackens avfallsanläggning, med beredning av avfallsbränsle till Borås Energis två FB-pannor och rötkammare, har utgjort en naturlig utgångspunkt. Ett stort inslag i arbetet var sammanställning av erfarenhetsbaserade kunskaper hos driftteknikerna på beredningsanläggningen, liksom hos Anders Johnsson på Borås Energi. På detta sätt erhölls viktig information om både bra och dåliga fraktioner, för såväl avfallskross som för pannor. Dessa fakta har bland annat använts för att sätta samman en översikt över önskade respektive oönskade fraktioner. Översikten är tänkt som komplement till befintliga leveransregler, i syfte att förenkla för avfallsleverantörerna. Stor vikt har lagts vid att försöka kartlägga sammansättningen av det verksamhetsavfall som kommer in till Sobackens beredningsanläggning. Både kemiska analyser av bränsleprov och utförd plockanalys visar på en heterogen sammansättning i avfallet. Ett heterogent bränsle brinner i många fall ojämt, vilket resulterar i högre emissionsnivåer samt en icke-önskvärd variation i energiproduktion. I och med plockanalysen erhölls en övergripande bild av förbränningsavfallets sammansättning. Det icke leveransgilla materialet som påträffades utgjordes främst av blött hushållsavfall (biologiskt nedbrytbart material), men även av en del elektronik påträffades. Efter avslutad analys kommunicerades erhållna resultat med aktuella leverantörer, vilket hittills har resulterat i en betydande minskning av biologiskt nedbrytbart material i verksamhetsavfallet.
176

Energy recovery at Chişinȃu wastewater treatment plant

Graan, Daniel, Bäckman, Rasmus January 2010 (has links)
Possibilities for energy recovery from sludge at Chişinȃu wastewater treatment plant have been investigated and evaluated. One way of recovering energy from sludge is to produce biogas through anaerobic digestion. Which method of biogas usage that is to prefer in Chişinȃu has been evaluated from a cost-efficiency point of view. There is a possibility that a new waste incineration plant will be built next to the wastewater treatment plant, and therefore solutions that benefit from a co-operation have been discussed. The results show that biogas production would be suitable and profitable in a long time perspective if the gas is used for combined heat and power production. Though, the rather high, economical interest rates in Moldova are an obstacle for profitability.
177

Evaluation of emergent macrophytes as a source forbiogas production after mechanical, alkaline and fungalpretreatments.

Alvinge, Simon January 2010 (has links)
Two species of emergent macrophytes, Typha latifolia (common cattail) and Phalaris arundinacea (reed canary grass) were evaluated as substrates for biogas production. The specific methane yield for each plant was obtained by batch wise anaerobic digestion in 300-mL bottles. Three different pretreatments were evaluated for increased biogas production; mechanical milling, alkaline treatment with lime and fungal degradation with Pleurotus ostreatus (oyseter mushroom).The methane yield for Typha latifolia and Phalaris arundinacea was determined to 300 and 323mL methane per g VS, respectively. There was no statistical difference in methane yield between the two species. Milling pretreatment increased the biogas yield with 16 % by average compared to untreated plant. Alkaline pretreatment with lime increased the biogas yield with 27 % at roomtemp. and 22 % at 55 °C. The fungal pretreatment decreased the biogas production by 20 % and is probably not suitable for this kind of substrate.The results showed that emergent macrophytes have a biogas yield similar to other plants already tested (grasses) and commonly used (pasture crops) in large scale reactors. However, emergent macrophytes and grasses cause mechanical problems in a reactor due to their structure. Probably some kind of milling must be done to decrease the fiber length of the emergent macrophytes. The costs for harvest, transport, handling and possible pretreatment of the emergent macrophytes have to be estimated and included in the overall cost calculations. This can tell if emergent macrophytes should be used as a substrate for biogas production.
178

Biogas in the United Kingdom & Sweden - A Technological Innovation System Based Analysis

Gordon, Niall January 2011 (has links)
The production of biogas via anaerobic digestion is an effective technology for converting organic waste into renewable fuel. Using the Technological Innovation System (TIS) theory for assessing emerging technologies a comparison between the British and Swedish biogas sectors is carried out. There are seven components to a TIS allowing the sector to be broken down, a potential scheme for the connection of the functions is illustrated. The Swedish biogas sector is at a more advanced stage of development due to long-term governmental support both financially and through stringent environmental laws. Overall the Swedish government has been an effective system builder allowing the Swedish biogas sector to expand. The British biogas sector is conversely less advanced due to lack of this long-term support, although the scene is beginning to change as the government positions itself as a more effective system builder. Several lessons can be learnt from the Swedish biogas sector; longterm financial support for renewable energy is required and stringent organic waste disposal laws both encourage the development of biogas.
179

Ultrasonic treatment of sewage sludge in order to increase biogas yields

Ek, Anders January 2005 (has links)
Biogas, a mixture of methane and carbon dioxide, is produced in the anaerobic digestion of sewage sludge. After anaerobic digestion, the digested sludge is often allowed to degas for one or two days. This gas is seldom utilised, but if the degassing could be accelerated, utilisation would be easier. Ultrasound can be used as a pretreatment method for waste activated sludge. It has a disintegrating effect on the sludge and causes lysis of bacteria in the sludge. It also speeds up the hydrolysis; the limiting step of anaerobic digestion of waste activated sludge. Ultrasound can be used to degas waterbased liquids. Ultrasonic degassing of sewage sludge has not been examined previously. The present study aims to investigate the effect of ultrasound on waste activated sludge as well as the potential of ultrasound to speed up the degassing of digested sludge. A semi-continuous, lab-scale digestion experiment was performed with four reactors: two receiving untreated sludge and two receiving treated sludge. The effect of the sonicator was 420 W and the treatment time was 6 min, which corresponds to an energy input of 8.4 kWh/m3. Total solids (TS) of the waste activated sludge was ~3.5 %. The ultrasonic treatment caused an increase in gas production of 13 %. There was no difference in methane content. The concentration of filterable chemical oxygen demand (fCOD) increased 375 %, or from 2.8 % to 11 % of total COD. In terms of energy loss/gain the increase in gas production resulted in a loss of 2.7 kWh/m3, i.e. more energy is needed to treat the sludge than the potential energy of the increased gas production. However, if the sludge is thickened to a TS >5 %, a net energy gain should be reached. The effect of ultrasound on the degassing of digested sludge was examined in three barrels. The degassing was measured with and without circulation as well as with ultrasonic treatment. The digested sludge had a gas emission rate of 115 L/(m3 day). No direct burst of gas occurred due to ultrasonic treatment. Over two days more gas was emitted from the barrel equipped with ultrasound, probably due to an induced post-digestion. Thus, ultrasonic pretreatment of waste activated sludge increases the biogas yield. It is inconclusive, whether ultrasonic treatment of digested sludge effects the degassing or not.
180

Wetland biomass - Chemical benefits and problems with biogas usage

Lin, Shaojie January 2012 (has links)
Constructed wetlands are largely used for water treatment both in agricultural land and for treating water from municipal and industrial waste. These wetlands need to be managed in order to work properly. How to deal with the large amount of vegetation harvested in the wetlands has withdrawn a great concern. The application of using wetland biomass as the co-substrates in anaerobic digestion was studied in this project. Plant materials, mostly Phragmites australis (common reed) from three different wetlands were used as raw material to produce biogas. The methane production using reed material harvested from municipal wastewater, industrial wastewater and an agricultural wetland are 66, 106, 144 ml/g VS respectively, which were lower than the suggested number 180ml/g VS. The gas potential remains a lot to be improved such as harvesting at summer to reduce the lignin content and changing the co-digestion mixing level to adjust to the optimal C/N ratio. Chemical analyses were performed concerning the gas yield and the residue quality. The digested residues showed a low concentration of cadmium, providing a non-toxic possibility to be spread on farm land as fertilizers, and closing the nutrient circle from land into water and back to land again. Pretreatments in the biogas process are usually focusing on the reduction of the lignocellulosic content in the raw material. Assessment of costs and benefits is needed for using wetland reed in the biogas production and applying any pretreatment methods.

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