Bibliographies thématiques / Biogas. biomethane. landfill gas

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Littérature scientifique sur le sujet « Biogas. biomethane. landfill gas »

Auteur : Grafiati
Publié le 12 mai 2023

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Articles de revues sur le sujet "Biogas. biomethane. landfill gas"

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Chagas Bezerra, Francisco Edmar, and Auzuir Ripardo De Alexandria. "Biomethane Generation Produced in Municipal Landfill." International Journal for Innovation Education and Research 8, no. 12 (2020): 01–21. http://dx.doi.org/10.31686/ijier.vol8.iss12.2644.

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Biogas emerged as a renewable technology that converts waste organic matter into energy. Among its components, in terms of energy, methane is the most important chemical composition, particularly for the combustion process in vehicle engines. The use of methane derived from organic matter residues in landfills to replace fossil fuel minimizes the environmental impact, providing a significant reduction in the emission of greenhouse effect gases,as does the use of the amount of urban waste generated by the population in a planned way, with a specific technological focus at the forefront of gener
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Pavičić, Josipa, Karolina Novak Mavar, Vladislav Brkić, and Katarina Simon. "Biogas and Biomethane Production and Usage: Technology Development, Advantages and Challenges in Europe." Energies 15, no. 8 (2022): 2940. http://dx.doi.org/10.3390/en15082940.

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In line with the low-carbon strategy, the EU is expected to be climate-neutral by 2050, which would require a significant increase in renewable energy production. Produced biogas is directly used to produce electricity and heat, or it can be upgraded to reach the “renewable natural gas”, i.e., biomethane. This paper reviews the applied production technology and current state of biogas and biomethane production in Europe. Germany, UK, Italy and France are the leaders in biogas production in Europe. Biogas from AD processes is most represented in total biogas production (84%). Germany is deservi
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Cignini, Fabio, Antonino Genovese, Fernando Ortenzi, Stefano Valentini, and Alberto Caprioli. "Performance and Emissions Comparison between Biomethane and Natural Gas Fuel in Passenger Vehicles." E3S Web of Conferences 197 (2020): 08019. http://dx.doi.org/10.1051/e3sconf/202019708019.

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Bio-methane as fuel in a natural gas engine is a viable solution to reduce greenhouse gas emissions. The present paper illustrates the results of the first set of measurements carried out in the BiomethER project (EULIFE). BiomethER aimed to design and build two innovative bio-methane production plants, located in Emilia Romagna region (Italy), fed by different feedstock: the first one with sewage sludge and the other with landfill waste. Biogas extracted by the anaerobic digester was cleaned and upgraded to biomethane for road vehicles application. To verify the compatibility of biomethane in
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Ersahin, M. Evren, Cigdem Yangin Gomec, R. Kaan Dereli, Osman Arikan, and Izzet Ozturk. "Biomethane Production as an Alternative Bioenergy Source from Codigesters Treating Municipal Sludge and Organic Fraction of Municipal Solid Wastes." Journal of Biomedicine and Biotechnology 2011 (2011): 1–8. http://dx.doi.org/10.1155/2011/953065.

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Energy recovery potential of a mesophilic co-digester treating OFMSW and primary sludge at an integrated biomethanization plant was investigated based on feasibility study results. Since landfilling is still the main solid waste disposal method in Turkey, land scarcity will become one of the most important obstacles. Restrictions for biodegradable waste disposal to sanitary landfills in EU Landfill Directive and uncontrolled long-term contamination with gas emissions and leachate necessitate alternative management strategies due to rapid increase in MSW production. Moreover, since energy contr
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Sánchez Nocete, Eduardo, and Javier Pérez Rodríguez. "A Simple Methodology for Estimating the Potential Biomethane Production in a Region: Application in a Case Study." Sustainability 14, no. 23 (2022): 15978. http://dx.doi.org/10.3390/su142315978.

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Biomethane is an example of a biofuel that is currently gaining interest due to its possible use as a substitute for natural gas and due to its generation in a “power to gas” production scheme. It can be injected into the gas network under certain purity requirements. It can also act as a source for the production of “green hydrogen”. This paper proposes a simple methodology to estimate the potential to obtain biomethane through the anaerobic digestion of biowaste in a delimited region. The mentioned methodology consists of the following main steps: (i) estimation of the potential biowaste fro
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Calise, Francesco, Francesco Liberato Cappiello, Luca Cimmino, Marialuisa Napolitano, and Maria Vicidomini. "Dynamic Simulation and Thermoeconomic Analysis of a Novel Hybrid Solar System for Biomethane Production by the Organic Fraction of Municipal Wastes." Energies 16, no. 6 (2023): 2716. http://dx.doi.org/10.3390/en16062716.

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The anaerobic digestion of the organic fraction of municipal solid waste and the biogas production obtained from its stabilization are becoming an increasingly attractive solution, due to their beneficial effects on the environment. In this way, the waste is considered a resource allowing a reduction in the quantity of it going to landfills and the derived greenhouse gas emissions. Simultaneously, the upgrading process of biogas into biomethane can address the issues dealing with decarbonization of the transport. In this work, the production of biogas obtained from the organic fraction of muni
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Piechota, Grzegorz, and Bartłomiej Igliński. "Biomethane in Poland—Current Status, Potential, Perspective and Development." Energies 14, no. 6 (2021): 1517. http://dx.doi.org/10.3390/en14061517.

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Every year the interest in biofuels, including biomethane, grows in Poland. Biomethane, obtained from biogas, is widely used in the Polish economy; the most important two applications are as gas injected into the gas grid and as automotive fuel. The aim of this work is to determine the potential for the development of the biomethane sector in Poland. The following article presents the technological stages of biomethane extraction and purification. The investment process for biogas/biomethane installation is presented in the form of a Gannt chart; this process is extremely long in Poland, with
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Dada, Opeoluwa, and Charles Mbohwa. "Biogas Upgrade to Biomethane from Landfill Wastes: A Review." Procedia Manufacturing 7 (2017): 333–38. http://dx.doi.org/10.1016/j.promfg.2016.12.082.

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Veiga, Ana Paula Beber, Ramatys Stramieri Silva, and Gilberto Martins. "Geographic Information Systems based approach for assessing the locational feasibility for biomethane production from landfill gas and injection in pipelines in Brazil." Engenharia Sanitaria e Ambiental 27, no. 1 (2022): 41–46. http://dx.doi.org/10.1590/s1413-415220210075.

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ABSTRACT Biomethane can readily replace fossil fuels including natural gas, which has similar physical and chemical properties. In Brazil, municipal solid waste is predominantly disposed of in landfills. Landfill gas is mostly employed for electricity generation, but still at low levels when compared to the existing potential. Production of biomethane from landfill gas may be an alternative to exploit the existing potential, but Brazil’s pipeline network is rather limited and concentrated along the country’s coast. In this context, the research sought to identify the locational viability of us
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Trypolska, Galyna. "PROSPECTS FOR STATE SUPPORT OF THE DEVELOPMENT OF THE BIOMETHANE INDUSTRY IN UKRAINE UNTIL 2040." Ekonomìka ì prognozuvannâ 2021, no. 2 (2021): 128–42. http://dx.doi.org/10.15407/eip2021.02.128.

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The paper considers the prospects for the state support for the development of biomethane industry in Ukraine from 2025 to 2040. The main financial incentives for the use of biomass-derived energy are a special tariff for heat from sources other than natural gas, and a feed-in tariff (the auction price in the future). In the EU, biomethane production is gaining ground due to available financial incentives (premiums to the cost of natural gas, and premiums to feed-in tariff). The main obstacle to the large-scale spread of biogas (and, accordingly, biomethane) is the high cost of equipment. The
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