DESIGN BIOGAS PLANT PDF VIEWER UPGRADE
In this study, a novel technology to upgrade Biogas and reduce H 2S content of biogas has been studied. Almost all of the Biogas produced in Ethiopia has been used for cooking. However, it is hard to find innovative biogas upgrading technologies for electricity generation in Ethiopia. The cleaned biogas is used in high efficient power generation systems. To better use the biogas and increase the calorific value and remove unwanted components from the raw biogas, it is crucial to clean raw biogas and upgrade it. Personnel training and maintenance of a biogas plant.Biogas production is a consolidated approach for converting organic waste into renewable energy.Launching and entering the technological mode of operation of a biogas plant.Construction and installation of the installation.Purchase of equipment and components needed to create a biogas plant.
Supervision of non-standard equipment manufacturing. Detailed design of a biogas plant, including an automation system. Experimental confirmation of biogas formation in a laboratory biogas plant, laboratory studies of the quality of organic fertilizers obtained. Preparation of a feasibility study (feasibility study) of the feasibility of creating and operating a biogas plant, which includes: the selection of technological modes of operation of a biogas plant Development of a process flow diagram of a biogas plant Selection of the necessary equipment and components to create the installation Suggestions for biogas utilization and comparison of different options Calculation of estimates of construction and installation works Calculation of economic indicators and the payback period of the installation. Preparation of a commercial proposal for the creation of a biogas plant. MADEK, together with its partners, can undertake the implementation of the entire project on autonomous energy supply based on biogas technologies, which includes: Creating additional economic support: making money - producing environmentally friendly energy. By increasing at least twice the amount of newest energies by 2010 and developing and spreading environmentally friendly technologies on the basis of biogas plants, the use of biogas also serves to support the goal of protecting the climate. Biogas sludge is more effective as a fertilizer than unfermented sludge. Making extra profit by generating “green” energy and reducing the level of harmful emissions into the atmosphere. Improving the ecology of the enterprise where the project is being implemented. Instead of the usual disposal of organic waste, energy is generated and nutrients are used. Saving money by switching to your biogas. Independence from the state in the field of energy and energy supply. The average operating time of one well is 15 years, the estimated payback period of the project is 4-5 years. Schematic diagram of a comprehensive energy supply solution using biogas Technological scheme for the production and use of biogas The chemical composition of biogas Substanceīiogas, as a rule, is used in cogeneration plants based on a gas piston engine to generate heat and electricity. If organic material is stored without air, then, when exposed to methane-binding bacteria, the biological process begins, in which gas is formed. In fermenters and putrefactive towers as a result of anaerobic fermentation (anaerobic - without oxygen) biogas is formed. It occurs in nature everywhere where there is no access to oxygen. Biogas is used as fuel for cogeneration plants.īiogas occurs during the fermentation of organic substances such as slurry, manure, liquid manure fertilizer, plants, food waste. This technology is gaining priority positions throughout Europe. Modern cogeneration biogas plants generate electricity and heat through the utilization of waste from agricultural enterprises and urban sewage systems, landfills. 
Model range of cogeneration biogas plants ModelĬogeneration biogas plants for autonomous power supply
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