Global ETD Search

31	Návrh optimálního promíchávání velkokapacitních vyhnívacích nádrží / Design of optimal mixing of large-scale digesters Bradáč, Antonín January 2017 (has links) The aim of this diploma thesis is an optimal method of mixing of the digester with consideration to the uniform mixing of the whole volume, ensuring the quality process conditions for the anaerobic fermentation and the maximum yield and quality of the produced biogas. First chapters describe the basic design parameters, general calculations and the principles for design of individual types of mixers, supplemented by practical examples of mixing large capacity tanks. The work introduces the problem of sludge formation at the sewage treatment plant with an emphasis on sludge treatment and the processes which take place inside the fermenter. Various types of design of anaerobic sludge stabilization digester were introduced. Also ways of their operation, which are necessary for the quality of the fermentation, were presented. In the next chapters, various ways of mixing high-capacity digester tanks and experience from the operation of selected treatment plants were described. According to the theoretical research part of this thesis, several types of mixing equipment was designed for the experimental digestion tank built at the Institute of Process Engineering which is used for research work with mixers. Measurement of the selected pneumatic mixing method was performed on the experimental tank and the findings were evaluated.
32	Análise da potencialidade da casca do amendoim como resíduo gerador de biogás na agricultura familiar / Santos, Cristiano Vieira dos January 2020 (has links) Orientador: Ana Elisa Bressan Smith Lourenzani / Resumo: Diante da constante busca pelo avanço na melhoria da matriz energética global, as energias renováveis assumem papel de suma importância para atender os Objetivos de Desenvolvimento Sustentável (ODS). O município de Herculândia, no oeste do estado de São Paulo, possui como principal atividade econômica a produção e processamento do amendoim. Durante esse processo é gerada uma grande quantidade de cascas, resíduo com potencial gerador de energia. Nesse contexto, o problema de pesquisa consiste na seguinte questão: qual o potencial de produção de biogás a partir da casca de amendoim? Partindo dessa questão, o objetivo principal dessa pesquisa é analisar a potencialidade e sustentabilidade da utilização da casca de amendoim como resíduo para a geração de biogás pela agricultura familiar do município de Herculândia – SP. Para tal, foi construído um protótipo de biodigestor com o intuito de avaliar o volume de biogás produzido por meio do processo de biodigestão da casca de amendoim. A análise dos resultados possibilitou avaliar o potencial da produção de biogás a partir desse resíduo, assim como quantificar o volume de biofertilizante gerado. A avaliação da sustentabilidade desse processo foi feita por meio da aplicação da contabilidade emergética. Os resíduos da casca de amendoim produziram 22,3 m³ de biogás por hectare, o que corresponde a uma energia gerada de 31, 84 kWh/mês. Assim, verificou-se que a biodigestão da casca do amendoim consiste em uma alternativa para o aproveita... (Resumo completo, clicar acesso eletrônico abaixo) / Mestre Energias renováveis Sustentabilidade. Arachis hypogaea Biodigestor. Renewable Energy Sustainability Bio digester
33	Feasibility Analysis of Biogas Based Polygeneration for Rural Development in Bangladesh Khan, MD. Ershad Ullah January 2014 (has links) Around three-quarters of Bangladeshis (total population 164 million) live in rural areas: only 25% of these households have access to grid electricity with non-reliable supply despite the country’s successful rural electrification program, kerosene is the predominant source for lighting, and woody biomass is virtually the only option available for cooking. Aside from this energy service challenges the rural population also struggles with unsafe drinking water in terms of widespread arsenic contamination of well water. Access to electricity, clean cooking gas, and safe drinking water services are genuine needs of the rural poor and are essential to improving welfare. These needs can be addressed individually or using an integrated approach. Anaerobic digesters are now a proven technology and remain economically promising in the rural setting, where connection to the public electric and gas grids are not available/either not cost effective or feasible, and where energy and water scarcity are severe. As the technologies continue to improve, and as energy and safe water becomes scarce and fossil fuel energy prices rise, renewable energy based services and technological integration becomes more viable techno-economically. In these circumstances, the integration of biogas digester with power generation and water purification unit is an innovative concept that could be applied in remote areas of Bangladesh. This work presents a new concept for integrated polygeneration and analyzes the techno-economic performance of the scheme for meeting the demand of electricity, cooking energy and safe drinking water of 30 households in a rural village of Bangladesh. This study considers a holistic approach towards tackling both of these issues via integrated renewable energy-based polygeneration employed at the community level. The polygeneration unit under consideration provides electricity via cow dung-fed digester, which in turn is coupled to a gas engine. Excess digester gas is employed for cooking, while waste heat from the process drives a membrane distillation unit for water purification. The specific technologies chosen for the key energy conversion steps are as follows: plug-flow digester; internal combustion engine; and air-gap membrane distillation. The technical features, energy consumption, and potential of renewable energy use in driving the main integrated processes are reviewed and analyzed in this thesis. This study also examines one approach by investigating the application of suitable membrane technologies, specifically air gap membrane distillation (AGMD), as a promising method for small-scale, low cost deployment. Experimental results show that the tested AGMD prototype is capable of achieving high separation efficiency, as all product water samples showed arsenic levels below accepted limits. Mass flows and energy balance, life cycle cost (levelized cost) of producing electricity, cooking gas and safe drinking water as well as the payback period of such a polygeneration system were studied. The results indicate that this polygeneration system is much more competitive and promising than other available technologies when attempting to solve the energy and arsenic-related problems in Bangladesh. One of the main encouraging issues of this integrated system is the levelized cost of the three major services: cooking gas (0.015 USD/kWh), electricity (0.042 USD/kWh–an orders of magnitude lower than comparable photovoltaic or wind systems) and safe drinking water (0.003 USD/liter). Additionally, the payback period is between 2.6 to 4 years. / <p>QC 20150516</p> Energy Engineering Energiteknik
34	Building a Small Scale Anaerobic Digester in Quelimane Lehtinen, Silja January 2017 (has links) Anaerobic digestion is a process where biogas is generated from organic substance in the absence of oxygen. The most common application of the anaerobic digestion technology in developing countries is small-scale household digesters producing biogas for cooking purposes. These systems are usually fed with cattle dung or organic household waste. The typical small-scale digester models are fixed-dome digester, floating-drum digester and rubber-balloon digester. Biogas systems contribute to self-sustainability of energy production, improve waste management and mitigate deforestation and health problems caused by poor waste management and usage of traditional cooking fuels such as firewood and charcoal. Anaerobic digestion technology is still quite unknown in Mozambique. An initiative to implement this technology in the municipality of Quelimane located in Zambézia province in the central part of the country, was taken in 2015 and background studies were performed during spring 2015 and 2016. As a part of the study resulting in this report, performed in spring 2017, a small-scale biogas digester was installed in Quelimane city. The digester was fed with the initial input of cow manure in order to create population of anaerobic bacteria and in the future it’s planned to be fed with food waste. The purpose of the first installed digester is to serve for educational purposes and to produce cooking fuel for the few people working in the municipal location where the digester is installed. It’s estimated that the digester has a potential to produce daily 0.3 m3 of biogas from 2 kg of food waste which can be used for preparing lunch for the employees or for heating water. In the future, possible applications of anaerobic digestion technology in Quelimane are a municipal biogas plant, cooling systems for the fish industry and biogas based latrines in the less developed areas located outside of the city center. Anaerobic digestion small-scale fixed-dome digester continuously-fed developing countries Energy Systems Energisystem
35	Method Development for the Synthesis of Anaerobic Digester Biogas with the Laboratory Environment Freitas, Andrew Daniel Sanchez 12 February 2015 (has links) Biogas, a gaseous mixture produced during decomposition of organic matter, is a renewable, easily generated and common byproduct of anaerobic digestion at wastewater treatment plants (WWTP), landfills and agricultural operations. There is growing interest in researching and utilizing the energy potential associated with its combustion. Siloxanes, a family of volatile organic silicon compounds, pose large impediments to biogas usage due to the formation and precipitation of silicon dioxide within combustion devices. Removal of siloxanes prior to combustion is therefore a growing endeavor. Research was performed to synthesize a representative gas stream produced from anaerobic digesters within WWTP. Methane, carbon dioxide and hydrogen sulfide were combined with humidity and gaseous siloxane in levels characteristically seen exiting anaerobic digesters. A methanol impinger train was utilized to sample the biogas composite. Gas chromatography-mass spectrometry (GC-MS) was used to determine gas-phase siloxane concentrations in the gas stream effluent for the purposes of confirming the generation of a consistent and reproducible biogas stream. / Master of Science biogas synthesis siloxane anaerobic digester wastewater treatment plants gas chromatography-mass spectrometry
36	EVALUATION OF A BATCH SYSTEM, SMALL-SCALE BIO DIGESTER AS A SUBSTITUTE FOR FUEL WOOD IN ADDRESSING DEFORESTATION IN THE RURAL NIGERIA Ugboh, Ephraim Nduka January 2008 (has links) Fuel wood cutting, collection and distribution in recent years have been one of the booming industries in Nigeria. Plagued with the problem of energy for domestic use, more than two third of Nigerians residing in the rural areas wholly depend on fuel wood energy for their household activities; cooking, heating and generation of warmth. A consumption put at 43 million metric tons, (43 x 109 kg) per annum giving a per capita consumption of about 511.2 kg / person per anum for rural dwellers and 360 kg / person for urban settlers. An enormous use of fuel wood at this large scale poses a grave and devastating environmental side effect, notably being deforestation and desertification now eating deep into the heart of Nigerian Forest cover at a very alarming rate. (Bugaje 2004). Akinbami et al 2001’s assessment has identified feed stock substitute for an economically feasible biogas programme, a substitute for wood fuel, and Nigeria produces 227,500 tons (2.275 x 108 kg ) of fresh animal wastes daily. According to the study, 1 kilogram (kg) of fresh animal waste produces about 0.03 m3 gas, hence, Nigeria can produce about 6.8 million m3 of biogas everyday, enough to meet the cooking need of an average family size, an annual equivalent put at 4.81 million barrels crude oil, or 6.9 x 106 tons of fuel wood (Adeoti et al, 2001). This work is aimed at Evaluating Using Quantitative and Comparative Data analysis, a Batch System, Small Scale family size bio digester; The possible volume of gas that could be produced as against the same quantity of wood consumed, the estimated amount of fuel wood in kg that could be avoided, and the forested land that could be conserved by the substitution. From the result obtained, the conservable fuel wood for a family size of say 7 could range from 11.524 kg/day when substituted with the equivalent quantity of gas (2.3048 m3), while CO2 avoidable from tree felling in the chosen region could range close to 1,540,000kg (1,540 metric tons per annum). / <p>2008-10-09</p> Environmental Sciences Miljövetenskap
37	Small-scale anaerobic digesters in Vietnam - development and challenges: Review Paper Nguyen, Vo Chau Ngan 06 August 2012 (has links) Small-scale anaerobic digesters, known as biogas plants, were applied as an optimal livestock waste treatment as well as biogas supply for cooking and lighting demand for small-scale farmers in Vietnam. Although the biogas technology was introduced for nearly 30 years, the number of the constructed biogas plants is still limited. The current development of biogas plants is far below the real demand on livestock waste treatment that has increased significantly. This paper gives a comprehensive overview on the biogas plant development in Vietnam and attempts to address the challenges and discuss appropriate solutions for the further biogas development. / Mô hình lên men yếm khí quy mô nhỏ (được biết với tên hầm ủ khí sinh học) đã được ứng dụng hiệu quả trong xử lý chất thải chăn nuôi cũng như cung cấp nguồn nhiên liệu phục vụ nhu cầu nấu ăn và thắp sáng cho các hộ chăn nuôi nhỏ ở Việt Nam. Mặc dù đã hiện diện gần 30 năm, nhưng số lượng hầm ủ khí sinh học vẫn còn hạn chế. Sự gia tăng số lượng hầm ủ khí sinh học chưa theo kịp với nhu cầu về xử lý chất thải chăn nuôi đang ngày càng gia tăng. Bài báo trình bày các chặng đường phát triển của hầm ủ khí sinh học tại Việt Nam, ghi nhận các thách thức trong việc nhân rộng hầm ủ khí sinh học trong thực tế và thảo luận một số giải pháp để phát triển công nghệ khí sinh học. info:eu-repo/classification/ddc/363 ddc:363
38	Mathematical Model for Predicting Trace Organic Compounds in Anaerobic Digesters Sun, Wei 22 October 2013 (has links) No description available. Environmental Engineering Trace Organic Compounds Anaerobic Digester Mathematical model ASTREAT Sensitivity Uncertainty
39	The Effects of Biochar and Anaerobic Digester Effluent on Soil Quality and Crop Growth in Karnataka, India Sekar, Samantha 29 August 2012 (has links) No description available. Environmental Science Soil Sciences biochar anaerobic digester effluent biogas slurry soil quality karnataka radish nutrient retention
40	An investigation of potential relationships between septic tank microbial communities and system design and performance Chan, Wing Yip Alexander January 2019 (has links) Septic tanks are utilized by many households across North America for wastewater treatment. Despite the economic and environmental importance of septic tanks, there has been limited innovation in septic tank design and research on the microbial communities responsible for wastewater treatment within these systems. InnerTube systems are septic tanks that employ a novel design to reduce solid accumulation in comparison to conventional septic tanks. For this project, 16S metabarcoding was employed to characterize conventional and InnerTube septic tank microbial communities and evaluate relationships between community composition, system design, and treatment efficacy. Wastewater was sampled along the length of InnerTubes to determine patterns of microbial succession and how they may impact InnerTube function. Wastewater was separated into liquid and solid fractions to identify differentially abundant taxa in each fraction. Populations of methylotrophic methanogens increased with distance from the InnerTube inlet. Solid communities were differentially more abundant in methanogens than liquid communities. Higher rates of solid degradation in InnerTubes may be due to longitudinal stratification of substrates and functionally distinct communities and the activity of methanogenic biomass. Septic tanks throughout Ontario were also surveyed to evaluate the effect of system design (conventional vs. InnerTube) and operational flow (single-pass vs. recirculation) on microbial community composition and to identify taxa correlated with chemical oxygen demand (COD) reduction. Single-pass InnerTube communities were more abundant in Pseudomonas which was attributed increased availability of long-chain fatty acid substrates. Recirculating conventional communities were more abundant in Arcobacter and Desulfomicrobium which was attributed to greater resistance to oxidative stress. Desulfovibrio and Brevundimonas were positively correlated with COD reduction. These putative hydrogen producers may facilitate greater COD reduction by forming syntrophic relationships with hydrogenotrophic methanogens. The findings of this project may be used to develop bioaugmentation inoculum, system designs, or operational strategies to optimize septic tank performance. / Thesis / Master of Science (MSc) / Septic systems (anaerobic digesters) are extensively used for on-site wastewater treatment. We evaluated the use of next-generation DNA sequencing to (1) assess the variability of septic system microbial communities and (2) to investigate relationships between communities and septic system type/performance. Microbial communities within septic systems were determined to be heterogeneous. Analyses also indicated that communities were highly variable between septic systems. Despite this variability, specific system types exhibited distinct microbial profiles. System performance was positively correlated with the abundance of hydrogen-producing bacteria. These results demonstrate the potential of next-generation DNA sequencing as a new tool to augment traditional wastewater analyses. Septic tank Anaerobic digester Microbial ecology Second-generation sequencing 16S sequencing Wastewater treatment

Search results