Showing results for: membrane biogas upgrade Articles
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Biogas upgrading: Membrane separation takes over
Abstract Due to governmental incentives and growing environmental awareness, it becomes increasingly attractive to upgrade biogas to natural gas quality and inject it into the natural gas grid or to use it as transport fuel. In this way, the biomethane can be utilized with the highest energy efficiency. Progressively, effort is being put into the utilization of organic waste streams in anaerobic ...
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Biogas upgrading: Reduce risk to attract investment
Investing in renewable energy Keywords: investment, renewable energy, biogas upgrading, biomethane, green gas How good of an investment is Renewable energy? The market for renewable energy is young when compared to the established fossil fuel market. Conventional wisdom therefor may convince to invest in fossil fuels, but this wisdom is obsolete. A sustainable investment A low carbon, ...
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Cow’s fueling cars
Biogas upgrading at the Hagelsrum farm Farmers who make biogas from manure are not uncommon, but the Birgersson family on Hagelsrum’s farm goes further than that. With four biogas fueling stations and a fifth one coming up, they are contributing to the circular economy and closing the circle from cow to fuel tank. At the Hagelsrum’s farm just outside the town of Målilla, 650 ...
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The gas upgrading plant in Sachsendorf (Germany) - Case Study
Location: Sachsendorf (Germany) Capacity: 350 Nm³/h biomethane Self-consumption: 0,24 kWel/Nm³ crude biogas, incl. auxiliary drives Features: Fully integrated biogas upgrading plant using membrane technology in a three-stage process. Overview of the gas upgrading plant in Sachsendorf The EnviThan demonstration plant in the Salzland district of Saxony-Anhalt, Germany is the first ...
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Biogas desulfurization and biogas upgrading using a hybrid membrane system – modeling study
Membrane gas permeation using glassy membranes proved to be a suitable method for biogas upgrading and natural gas substitute production on account of low energy consumption and high compactness. Glassy membranes are very effective in the separation of bulk carbon dioxide and water from a methane-containing stream. However, the content of hydrogen sulfide can be lowered only partially. This ...
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The gas upgrading plant in Kockte (Germany) - Case Study
Location: Köckte (Germany) Capacity: 350 Nm³/h biomethane Self-consumption: 0,23 kWel/Nm³ crude gas Features: First fully integrated biogas upgrading plant using membrane technology in a three-stage process. Overview of the gas upgrading plant in Köckte The EnviThan gas upgrading plant in the district Altmarkkreis Salzwedel in Saxony-Anhalt is the first fully integrated ...
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