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Examining Two Green Payment Options To Support Dairy Farm Viability In Northern New England: Anaerobic Digestion And Organic ProductionKrug, Deborah Ann 01 January 2015 (has links)
This thesis explores the details and profitability of two distinct operational strategies utilized by dairy operations as alternatives to expanding milk production. It features farms that have either transitioned to organic production or installed a farm-scale anaerobic digester, motivated in part by the opportunity for market specialization or income diversification to increase the viability of their dairy farm businesses.
The first analysis examines the demographics and production characteristics impacting the profitability of organic dairy farmers in Vermont and Maine. This provides policymakers, educators, lenders, and suppliers with a profile of this sector that accounts for 23% of dairy farms in Vermont and 20% of dairy farms in Maine, annually shipping, on average, 787,600 lbs. milk per farm. The study was conducted through a longitudinal survey of 83 organic farmers in Vermont and Maine from 2004 to 2012. A multiple linear regression analysis of the sample demonstrated six significant variables that affect farm profitability measured by return on assets (ROA). Having at least 80% Holstein herd composition, increasing the daily pounds of grain fed to cows during the winter months, a primary farm operator having grown-up on dairy farm, and the use of feed mixing machinery all positively impacted ROA. Farm profitability was negatively affected on farms with a high rate of annual cow morbidity and also tended to decrease over the course of the survey as organic prices leveled. While the model developed here has some explanatory power (R2 = 0.387), variability in farm profitability is affected by complex economic pressures.
The second analysis reports the predicted and actual annual maintenance figures collected from anaerobic digester systems in Vermont. Within Vermont, 16 farms operate methane-generating ADS. All of these farms have received some form of public funds and/or a voluntary consumer premium. The analysis compares costs by creating a ratio of actual maintenance, repair, oil, and labor costs over these same predicted costs. This ratio is used to assess whether the suggested industry operating cost estimator tends to over or under predict annual maintenance costs. The ratio was evaluated with a one-way Student's t-test (p = 0.046) finding that maintenance costs tend to be under-predicted compared to the actual costs. One-way ANOVA was used to determine a statistically significant effect of herd size (F = 6.453, p = 0.052), showing that the maintenance ratio varies significantly between groups, This analysis indicates that predicting annual maintenance, repairs, and labor costs as a function of 3.5% of total kWh production is an acceptable method for digesters on farms with more than 500 cows, but under predicts maintenance costs for smaller farms. For smaller farms, the actual costs were on average 2.5 times higher.
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Review on the most popular anaerobic digester models in the Mekong Delta / Các kiểu hầm ủ khí sinh học phổ biến ở ĐBSCLNguyen, Vo Chau Ngan, Phan, Trung Hieu, Vo, Hoang Nam 09 November 2012 (has links) (PDF)
In Vietnam, the research and application of biogas technology were given a considerable attention in past 30 years. There is several biogas plant models apply in the suburban and rural areas where most people’s life is based on animal husbandry. Each biogas plant model own strong points or weakness that adapt to detail circumstances. The biogas plants play a key role within the VACB farming system especially in the Mekong Delta where produce more than 50% of yearly national
agriculture production. This paper gives a comprehensive overview on the popular biogas models in the Mekong Delta through its development history. Knowing on the presented biogas technology
in the Mekong Delta will lead the biogas-related organizations or private on biogas development at this region. / Ở Việt Nam việc nghiên cứu và ứng dụng công nghệ khí sinh học đã được chú ý trong 30 năm gần đây. Một số mô hình khí sinh học đã và đang được lắp đặt tại các vùng ngoại ô và nông thôn là những nơi tập trung nhiều hộ dân chăn nuôi heo. Có nhiều mô hình khí sinh học đã được triển khai, trong đó mỗi mô hình đều có những điểm mạnh và điểm yếu đáp ứng theo từng yêu cầu cụ thể. Ở ĐBSCL nơi sản xuất trên 50% sản lượng nông nghiệp của cả nước, hầm ủ khí sinh học đóng một vai trò quan trọng trong mô hình canh tác VACB. Bài báo này trình bày chi tiết các kiểu hầm ủ khí sinh học phổ biến tại ĐBSCL tương ứng với từng thời điểm phát triển của công nghệ này. Sự hiểu biết về các kiểu hầm ủ khí sinh học hiện tại ở ĐBSCL sẽ giúp các tổ chức hoặc cá nhân có liên quan trong việc định hướng phát triển công nghệ khí sinh học cho toàn vùng.
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Review on the most popular anaerobic digester models in the Mekong Delta: Review paperNguyen, Vo Chau Ngan, Phan, Trung Hieu, Vo, Hoang Nam 09 November 2012 (has links)
In Vietnam, the research and application of biogas technology were given a considerable attention in past 30 years. There is several biogas plant models apply in the suburban and rural areas where most people’s life is based on animal husbandry. Each biogas plant model own strong points or weakness that adapt to detail circumstances. The biogas plants play a key role within the VACB farming system especially in the Mekong Delta where produce more than 50% of yearly national
agriculture production. This paper gives a comprehensive overview on the popular biogas models in the Mekong Delta through its development history. Knowing on the presented biogas technology
in the Mekong Delta will lead the biogas-related organizations or private on biogas development at this region. / Ở Việt Nam việc nghiên cứu và ứng dụng công nghệ khí sinh học đã được chú ý trong 30 năm gần đây. Một số mô hình khí sinh học đã và đang được lắp đặt tại các vùng ngoại ô và nông thôn là những nơi tập trung nhiều hộ dân chăn nuôi heo. Có nhiều mô hình khí sinh học đã được triển khai, trong đó mỗi mô hình đều có những điểm mạnh và điểm yếu đáp ứng theo từng yêu cầu cụ thể. Ở ĐBSCL nơi sản xuất trên 50% sản lượng nông nghiệp của cả nước, hầm ủ khí sinh học đóng một vai trò quan trọng trong mô hình canh tác VACB. Bài báo này trình bày chi tiết các kiểu hầm ủ khí sinh học phổ biến tại ĐBSCL tương ứng với từng thời điểm phát triển của công nghệ này. Sự hiểu biết về các kiểu hầm ủ khí sinh học hiện tại ở ĐBSCL sẽ giúp các tổ chức hoặc cá nhân có liên quan trong việc định hướng phát triển công nghệ khí sinh học cho toàn vùng.
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Fractionnements isotopiques (13C/12C) engendrés par la méthanogenèse : apports pour la compréhension des processus de biodégradation lors de la digestion anaérobie : application aux procédés anaérobies de traitements des déchets non dangereux / Isotopic fractionation (13C/12C) generated by methanogenesis : contribution of the understanding of biodegradation processes occurring during anaerobic digestion : application to municipal solid waste anaerobic treatment processesGrossin-Debattista, Julien 24 February 2011 (has links)
Les procédés anaérobies de traitement de déchets apparaissent clairement pouvoir répondre à l'enjeu socio-économique actuel que représente la valorisation énergétique de la fraction organique contenue dans les déchets ménagers. En effet, les processus de dégradation anaérobies font intervenir en cascade, différentes réactions et populations de micro-organismes permettant de transformer la matière organique en biogaz riche en méthane. Une bonne connaissance des effets des paramètres opérationnels sur l'orientation des métabolismes s'avère ainsi nécessaire à l'émergence de solutions permettant d'optimiser ces procédés. Ceci est notamment le cas pour la dernière étape, appelée méthanogenèse. Dans ce contexte, l'approche isotopique reposant sur la mesure de la composition isotopique (13C/12C) du méthane et du dioxyde de carbone, devrait pouvoir répondre à cet objectif en permettant l'identification des métabolismes à l'origine de la production du méthane. La transposabilité à l'étude de la digestion anaérobie des déchets de cette approche isotopique déjà utilisée dans les écosystèmes naturels, a tout d'abord été vérifiée expérimentalement. Les effets de certains paramètres opérationnels connus pour avoir un impact fort sur le processus de digestion anaérobie, tels que la température et la concentration en azote ammoniacal, ont ensuite été étudiés. Il a été mis en évidence qu'en condition thermophile, la méthanogenèse acétoclaste observée en condition mésophile, était remplacée par une oxydation syntrophique de l'acétate lors de la digestion anaérobie des déchets ménagers. Des expériences sur acétate ont montré que cet effet sur les voies métaboliques n'était toutefois pas systématique et pourrait ne pas être dû à un effet direct d'une augmentation de la température, mais plutôt à l'accroissement de la concentration en ammoniaque qui en résulte. D'autres expériences ont clairement établi qu'une augmentation de la concentration en azote ammoniacal conduisait également à la mise en place de l'oxydation syntrophique de l'acétate. Le couplage de l'approche isotopique avec des analyses microbiologiques a révélé que cette réaction d'oxydation syntrophique de l'acétate, à haute concentration en azote ammoniacal, pouvait s'établir telle que déjà décrite, par la mise en place d'une relation symbiotique bactéries/archées hydrogénotrophes strictes, mais également de manière différente en impliquant des membres de la famille Methanosarcinaceae qui pourraient réaliser seuls les deux étapes de la réaction (oxydation et méthanogenèse hydrogénotrophe). L'application de l'approche isotopique a également permis de mettre en évidence, lors d'une expérience visant à simuler la recirculation de différents effluents au sein d'une installation de stockage de déchets bioactive, l'influence de la nature de l'effluent sur l'orientation des métabolismes méthanogènes. Enfin, l'influence de la proportion de déchets verts, lors de la co-digestion biodéchets / déchets verts, sur la concentration en ions ammonium libérés ainsi que sur l'orientation du métabolisme en résultant, a été étudiée. Les potentialités d'une utilisation de l'approche isotopique sur site ont également été investiguées au travers d'une campagne de mesures sur une installation de stockage de déchets non dangereux. / Anaerobic waste treatment processes are clearly part of the answer to a current important socio-economic issue in waste management: energy production from the organic fraction of municipal solid waste. The anaerobic digestion of municipal solid waste is a complex process involving numerous reactions and microorganism communities. At the end of the degradation process, some biogas with a particularly high methane content is produced. A detailed knowledge on how operational parameters affect metabolism orientations is required to optimize these treatment processes. This is in particular the case for the last degradation reaction called methanogenesis. In this context, an isotopic approach based on isotopic composition measurements (13C/12C) for methane and carbon dioxide can provide some clues with regard to this objective. Indeed, this methodology enables the determination of the methanogenic pathways by which methane is produced.Transferability of the isotopic approach used for natural ecosystems to the field of anaerobic digestion of municipal solid waste was first experimentally verified. In a second time, the effects of some operational parameters known to strongly impact the anaerobic digestion process, such as temperature and ammonia concentration, were studied. During anaerobic digestion of reconstituted municipal solid waste in thermophilic conditions, it was shown that aceticlastic methanogenesis (occurring in mesophilic conditions) was replaced by a syntrophic acetate oxidation reaction. Additional experiments using acetate as sole substrate were performed and showed that this effect on the metabolic pathways was not systematic. Consequently, it cannot be due to a direct effect of the temperature increase. It could rather be explained by the induced and indirect increase in ammonia concentration. Additional experiments clearly demonstrated that an increase in ammonia concentration led to the establishment of a syntrophic acetate oxidation reaction. The isotopic approach was combined with microbiological analyses and showed that the syntrophic acetate oxidation reaction occurring at high ammonia concentration during acetate incubations could have been performed through a syntrophic relationship between bacteria and strict hydrogenotrophic archaea, as previously described in the literature. Interestingly, the syntrophic acetate oxidation could also have occurred using a different pathway relying on members of the Methanosarcinaceae family putatively able to perform the two steps of the reaction (oxidation and hydrogenotrophic methanogenesis). In addition, the implementation of the isotopic approach during an experiment designed to simulate a landfill bioreactor evidenced the influence of the effluent's nature on the methanogenesis metabolism orientation. The influence of green waste proportion during the co-digestion of biowaste / green waste mixtures on resulting ammonia concentrations and methanogenesis pathways was also studied through dedicated experiments. Finally, the potential of the isotopic approach for landfill-scale application was investigated through a measurement campaign on a landfill site.
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Návrh vybraných strojně technologických zařízení ČOV se zaměřením na zlepšení hydraulických účinností / Design of Selected Parts of Machinery in WWTP focused on Improving Hydraulic EfficiencyZejda, Vojtěch January 2020 (has links)
The wastewater treatment process is one of the most important processes which contributes to the protection of the environment. This process can also potentially recover necessary and scarce raw materials, such as phosphorus. Research of the wastewater treatment technology is an increasingly relevant topic and more innovative knowledge should be gradually implemented into existing plants. However, the implementation of such technology involves increased investment and often operating costs. This is, why there is a growing interest in improving the energy intensity and hydraulic efficiency of the installed wastewater plant machinery. The optimization of operating parameters in such machinery can also bring significant savings, which can be potentially re-invested into other technologies. This work deals with the issue of proper evaluation of installed machinery for the selection of operating parameters and assessment of their significance. As the challenge, wastewater treatment technology is very sensitive towards the combination of technological equipment and incorrect operational parameters can lead to erroneous evaluation of the efficiency of individual equipment or inappropriate engineering proposals. To eliminate these risks, an analytical procedure for the selection and evaluation of parameters is proposed in this work. This procedure is demonstrated on six types of equipment. To verify the conclusions of the proposed procedure, a model design of the equipment was performed, in which the influence of individual parameters was concisely assessed. By using the data, the proposed procedure could be validated more specifically. In this work, the necessary data for the design was obtained by experimental research and extensive testing. The results confirm the practical applicability of the proposed procedure.
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