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Optimization of a biogas plant with macroalgae, GrenadaMyhrum Sletmoen, Ingeborg, Carlsson, Matilda January 2020 (has links)
For several years, blooming of algae around the Caribbean islands, including Grenada, has been an issue. This influenced AlgaeFuel Technology into looking at the possibility of biogas production with macroalgal biomass in Grenada. Grenada is dependent on fossil fuels to meet its energy needs. Using the algae for producing biogas could possibly decrease greenhouse gas emissions. There are different factors affecting the production of biogas and therefore, the purpose of this project is to optimize a biogas plant with the use of macroalgal biomass, with focus in Grenada. A literature review was made to gain more knowledge about biogas production through anaerobic digestion, particularly by using macroalgae as biomass. An experiment was made through building four biogas plants in mini format with guidelines from the Swedish University of Agriculture Science. Each plant was fed with different combination of biomass to be compared in biogas production. The result from the experiment gave no clear differences in biogas production which most likely was due to errors during the experiment. Optimizing of a biogas plant includes several aspects. Pretreatment has shown to be an effective way of increasing the methane yield and the biogas production rate. Temperature regulation is significant in order to achieve a more efficient biogas production. The effect of pretreatment and temperature regulation needs to be compared with their energy consumption for a sustainable biogas production. Continues supply of biomass need to be secured which can be done by storing of algae in seasons with abundance and utilization of alternative types of biomass. A combination of biomass through co-digestion is an effective way of increasing the methane yield and also make the biogas plant more efficient in the longer run. In Grenada it is important to prioritize sustainable solutions that can fulfill Grenada’s vision towards 2030, with 100 percent renewable energy. Utilization of macroalgal biomass for biogas production in Grenada can be a solution to both decrease the negative impact of algae bloom and increase the share of renewable energy. / Under flera år har algblomning runt de Karibiska öarna, däribland Grenada, varit ett problem. Detta influerade AlgaeFuel Technology till att se närmare på möjligheterna för biogasproduktion med makroalger som biomassa i Grenada. Grenada är beroende av fossila bränslen för att möta sitt energibehov. Att använda algerna för produktion av biogas kan möjligtvis minska utsläpp av växthusgaser. Det finns olika faktorer som påverkar biogasproduktion och syftet med detta projekt är därför att optimera en biogasanläggning med användning av makroalger som biomassa, med fokus i Grenada. En litteraturstudie gjordes för att få mer kunskaper om biogasproduktion genom syrefri rötning, särskilt med användning av makroalger som biomassa. Ett experiment gjordes genom att bygga fyra biogasanläggningar i miniformat med riktlinjer från Svenska lantbruksuniversitetet. Varje anläggning var matad med fyra olika kombinationer av biomassa för att bli jämförd i produktion av biogas. Resultatet från experimentet gav inga tydliga skillnader i biogasproduktion vilket troligen berodde på felkällor under experimentet. Vid optimering av en biogasanläggning inkluderas flera aspekter. Förbehandling har visat sig att vara ett effektivt sätt att öka utbytet av metan och hastigheten av biogasproduktionen. Temperaturreglering är viktigt för att uppnå en mer effektiv biogasproduktion. Effekten av förbehandling och temperaturreglering behöver jämföras med deras energikonsumtion för att få en hållbar biogasproduktion. En kontinuerlig tillgänglighet av biomassa behövs, vilket kan uppnås genom lagring av alger under säsonger med överflöd samt användning av alternativ biomassa. En kombination av biomassa genom samrötning är ett effektivt sätt att öka metanutbytet och även göra biogasanläggningen mer effektiv i det långa loppet. I Grenada är det viktigt att prioritera hållbara lösningar som kan uppnå deras vision fram mot 2030 med 100 procent förnyelsebar energi. Att använda makroalger som biomassa för biogasproduktion i Grenada kan vara en lösning för att båda minska dom negativa effekterna från algblomning och öka andelen förnyelsebar energi.
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Hodnocení ekonomické efektivnosti investice - bioplynová stanice / Evaluation of economic efficiency of investments - biogas plantZemanová, Pavlína January 2010 (has links)
The subject of this thesis is to evaluate investments in biogas plant purchased by company AGRA Deštná, a.s., which is located in Deštná, near Jindřichův Hradec. The thesis is divided into two main parts. The theoretical part is devoted to theoretical assumptions of investment evaluation, grants, theories and legislation related to the biogas plant. The practical part of the thesis describes the current situation of the company, investment, and economic evaluation of investment in the construction of biogas plants.
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Podnikatelský záměr / Entrepreneurial ProjectBombíková, Kamila January 2011 (has links)
This thesis is a proposal for a business plan for the construction of biogas plants. The first part is to find a theoretical basis of the work. The second section analyzes the current situation of the company. After a chapter with a proposal for investment in construction of biogas plants, the economic part and final part of the evaluation indicated the proposed solution.
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Razvoj metode za ocenu efikasnosti rada poljoprivrednih biogas postrojenja primenom fazi logike i ekspertskih sistema / Development of a method for assessing the efficiency of agriculturalbiogas plants using fuzzy logic and expert systemsĐatkov Đorđe 23 September 2013 (has links)
<p>Cilj ovog istraživanja bio je da se razvije metoda čijim korišćenjem može da se doprinese poboljšanju efikasnosti rada poljoprivrednih biogas postrojenja. Da bi se to ostvarilo, izabrani su odgovarajući kriterijumi i parametri. Razvijena je metoda za ocenu efikasnosti, a rezultati dobijeni njenim korišćenjem ukazuju na potrebu za poboljšanjem. Razvijena je i metoda za analizu mogućnosti poboljšanja, kojom se predlažu mere za ostvarenje poboljšanja. U razvoju metoda korišćeni su principi fazi logike i ekspertskih sistema, da se modeluje neodređenost u podacima i koristi ekspertsko znanje za ocenu. Testiranjem metoda, koristeći podatke o radu petnaest postrojenja u Bavarskoj, zaključeno je da su metode primenljive u obliku pomoćnog alata za sprovođenje poboljšanja efikasnosti.</p> / <p>The aim of this investigation was to develop a method that can be used<br />for improving the efficiency of agricultural biogas plants. In order to<br />achieve this, appropriate criteria and parameters were selected. The<br />method for assessing the efficiency was developed, which results<br />indicate the need for improvement. The method for analyzing the<br />possibilities of improvement was developed as well, in order to propose<br />measures for improvement. In development of methods, principles of<br />fuzzy logic and expert systems were used, in order to model uncertainty<br />in the data and to use expert knowledge for assessment. According to<br />test results, using data of fifteen biogas plants in Bavaria, it was<br />concluded that methods can be used for efficiency improvement.</p>
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Pollution minimizing at traditional craft village by micro-credit program - case study from Tan Phu Dong rice flour production village / Giảm thiểu ô nhiễm bằng nguồn quỹ tín dụng nhỏ - Trường hợp cụ thể ở làng nghề làm bột truyền thống Tân Phú ĐôngNguyen, Vo Chau Ngan, Huynh, Thi Ngoc Luu, Le, Hoang Viet, Do, Ngoc Quynh, Nguyen, Ngoc Em 13 November 2012 (has links) (PDF)
This paper introduces the results of a project initiated by Cantho University (CTU) on the introduction of micro-credits for addressing the environmental pollution in Vietnam’s craft villages. At Tan Phu Dong, a traditional rice powder production village in Sa Dec, Dong Thap, all wastes from domestic and production activities and animal husbandry were freely disposed into open water sources. This practice led to a negative impact on the local environment. With the financial support provided by the Bread for the World (BfdW), a micro-credit program was initiated in which farmers could borrow money to construct a biogas plant to treat animal husbandry and domestic wastes. In addition, the staff transferred biogas plant construction technology to the local masons and organized training courses on biogas plant operation and maintenance and biogas usage for the farmers and the local officials. 61 farmers borrowed money from the program to construct their biogas plants, followed by more than 250 farmers that constructed their biogas plants by their own finance after realizing the positive benefits of biogas plants. As result, the environmental pollution issue was solved step-by-step, thereby helping enhance the living conditions of the local community. / Bài báo này trình bày biện pháp sử dụng nguồn quỹ tín dụng nhỏ để các hộ dân cải thiện tình trạng ô nhiễm môi trường ở các làng nghề Việt Nam. Tại làng nghề làm bột Tân Phú Đông - Sa Đéc - Đồng Tháp, các loại chất thải sinh hoạt, chất thải sản xuất và chăn nuôi xả thải bừa bãi đã gây ô nhiễm môi trường nghiêm trọng. Với kinh phí tài trợ từ tổ chức Bánh mỳ cho thế giới (BfdW), các cán bộ trường Đại học Cần Thơ đã tổ chức cho người dân luân phiên vay vốn để xây dựng hầm ủ khí sinh học xử lý chất thải chăn nuôi và chất thải sinh hoạt. Bên cạnh đó còn tổ chức các lớp tập huấn chuyển giao công nghệ xây hầm ủ khí sinh học cho thợ xây địa phương, hướng
dẫn vận hành và bảo dưỡng hầm ủ cho người dân và cán bộ địa phương. Thông qua nguồn vốn vay của dự án, có 61 hộ dân đã xây dựng hầm ủ khí sinh học và trên 250 hộ dân khác đã tự đầu tư xây dựng khi thấy được lợi ích của hầm ủ. Nhờ đó tình trạng ô nhiễm môi trường từng bước được giải quyết góp phần cải thiện điều kiện sống của người dân tại địa phương.
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Energetické využití biologicky rozložitelného komunálního odpadu Statutárního města České Budějovice / Energy utilization of the biodegradable component of municipal waste in the city of České BudějoviceSÝKOROVÁ, Žaneta January 2013 (has links)
My thesis is aimed at the possiblities of collecting and utilizing the biodegradable component of municipal waste in the specific environment of České Budějovice. The thesis includes a proposal to construct a municipal biogas plant to decrease the volume of mixed municipal waste. The goal of this part of the thesis is to compare expected costs and income of the project and determine the general economic indicators and evaluate the investment, so that the project can be either fully recommended or rejected.
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Approche aux différentes échelles pour la mise au point d’outils intégrés d’aide au développement de projets de méthanisation / Approach at various scales for the biogas plant developmentTolo, Julien 08 April 2014 (has links)
La digestion anaérobie est un processus biologique de transformation de la matière organique permettant la production d’énergie sous forme de biogaz et de fertilisant sous forme de digestat. C’est une filière émergente en France, dont les objectifs de développement sont ambitieux. Le développement d’une filière industrielle sur l’ensemble du territoire Français nécessite la mise en oeuvre d’outils d’aide à la décision.Dans le cadre de cette Thèse nous proposons d’évaluer le potentiel de développement de la méthanisation collective, territoriale et agricole par injection du biogaz dans les réseaux de gaz naturel. Les travaux de recherchent portent sur trois axes : (1)l’évaluation du potentiel de mobilisation de biomasse d’origine agricole ; (2) la conception et l’étude de la viabilité économique de « modèle type » d’usine de méthanisation ; (3) l’évaluation de la performance technico-économique d’une exploitation agricole ayant recours à la méthanisation dans but d’accroitre son autonomie face aux énergies fossiles et aux engrais chimiques.Sur le premier volet, nous avons réalisé une étude cartographique des gisements agricoles mobilisables. Nous avons localisé et quantifié les quantités de coproduits de cultures et d’effluents d’élevage présent sur le territoire Français. Nous avons mis en évidence que le potentiel de mobilisation de biomasse agricole est de l’ordre de 57millions de tonnes de matière sèche. Ceci correspond à une production énergétique maximale de l’ordre de 158 TWh/an.Sur le deuxième volet, nous avons conçu des « modèles types » d’usines de méthanisation de différentes tailles, dont le biogaz est valorisé en biométhane par injection dans le réseau. Pour chacun des « modèles types » nous avons comparé la viabilité technico-économiques des modèles selon différentes « recettes » de biomasse. L’évaluation met en avant que pour chaque « modèle type », il existe un nombre limité de « recettes » permettant à chacun d’entre eux de trouver un équilibre technico-économique.Sur le troisième volet, nous nous sommes intéressés à l’autonomie azote et carburant que pourrait atteindre une exploitation agricole en méthanisant des cultures énergétiques dédiées de légumineuse. L’évaluation a été menée sur des fermes présentant des configurations différentes d’assolement et de rendement. Nous avons mis en évidence les conditions nécessaires pour que chaque configuration de ferme puisse atteindre l’autonomie. Il en ressort que dans certaines conditions, une exploitation « autonome » présente des marges brutes supérieures à celle d’une exploitation conventionnelle. / Anaerobic digestion is a biological process of transformation of organicmatter allowing the production of energy in the form of biogas and fertilizer in the formof digestate. It is an emerging sector in France, whose development objectives are ambitious. The development of an industrial sector throughout the French territory requires the implementation of decision support tools.As part of this thesis, we propose to evaluate the development potential of collective,territorial and agricultural methanation by injecting biogas into natural gas networks.Research work focuses on three axes: (1) the evaluation of the biomass mobilization potential of agricultural origin; (2) the design and study of the economic viability of a"typical model" of methanation plant; (3) the evaluation of the technical and economic performance of a farm using methanation in order to increase its autonomy in the face of fossil fuels and chemical fertilizers.We first carried out a cartographic study of mobilizable agricultural deposits. The quantities of co-products of crops and livestock effluents present on the French territor ywere located and quantified. Thus, we have shown that the potential for mobilization of agricultural biomass is of the order of 57 million tons of dry matter. This corresponds to a maximum energy production of about 158 TWh / year.And second, we have designed "model models" of biogas plants of different sizes,whose biogas is valorized in biomethane by injection into the network. For each of the"standard models" we compared the techno-economic viability of the models according to different "recipes" of biomass. The evaluation points out that for each "standard model" there is a limited number of "recipes" allowing each of them to find a technoeconomic balance.Finally, we focused on the nitrogen and fuel autonomy that an agricultural operationcould achieve by methanising dedicated energy crops of legumes. The assessment was conducted on farms with different rotational and yield configurations. We have highlighted the conditions necessary for each farm configuration to achieve autonomy.It shows that under certain conditions, an "autonomous" farm has gross margins higher than that of a conventional farm.
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Zpracování fermentačních zbytků z bioplynových stanic / Fermentation remainder treatment in a biogas plantBudín, Oto January 2017 (has links)
This diploma thesis deals with dewatering technologies of fermentation residues from biogas plants and aims to design an integration of selected technology into the biogas plant. Fermentation residues (or digestate), which are a by-product of anaerobic biomass fermentation in biogas plants, contain a certain amount of nutrients and are usually used as agricultural fertilizers. However, the high-water content in digestate and the associated low nutrient concentration increase the cost of its storage and transport. Dewatering of fermented material could help reduce these costs. The main part of this work included the design of an integration of the selected dewatering technology into the biogas plant – its placement in a process, an addition of necessary appliances, the influence on material and energy flows. In this case, the fermentation residues are processed in two phases. First, a separation of the solid and the liquid fraction by a screw press. The second step is to thicken the liquid digestate by evaporation in a multistage evaporator. Evaluation of the design of a dewatering technology, including its impact on the economy of the biogas plant, is also part of the diploma thesis.
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Návrh bioplynové stanice / Biogas plant designKocián, Oldřich January 2009 (has links)
The diploma thesis is focused on possibility of usage biologically decompostable wastes in the biogas plant. The first part of this thesis describes principal production of the manure gas and as well concrete biogas plants, where are shown different approaches and technologies. The main target of the thesis is based on biogas plant design for manipulation with biologically communal wastes from VUT v Brno and chosen parts of Brno. To the proper design of the biogas plant precede evaluation of accesible wastes from choosen localities. Since we consider wastes from households, the way of collection of those wastes is designed. The thesis also consider economic balance and assesment of the biogas plant. Investment costs are predicted, process costs are evaluated and as well profit from selling of the electric energy is consider, profits from charges for manipulation with wastes and profits from selling of compost.
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Vliv mebránové separace bioplynu na stávající provoz bioplynové stanice / Impact of Membrane Separation of Biogas on Biogas Station Operating ConditionsSvoboda, Jan January 2016 (has links)
The thesis deals with the issue of removing carbon dioxide from biogas using membrane separation. Addresses the impact of the implementation of a small research facility at the existing operation of the biogas plant. Assessment of the impact on traffic is solved in terms of technical and economic.
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