gas grid Articles
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WAGABOX® unit of Saint-Palais - Project
Saint-Palais lanfill (France) Commissioning: 6th november 2018 90 000 tons of waste per year Biogas :40-50% CH4 | 0-3% O2 | 1 000 ppmv H2S | 5-20 % N2 Distance of the gas grid: 1.6 kilometer Existing gas recovery solution: Combine Heat and Power Capacity: 20 GWh/year (68,200 mmBtu) ...
By Waga Energy
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WAGABOX® unit of Gueltas - Project
Gueltas landfill (France) Commissioning: 13th november 2018 200 000 tons of waste per year Biogas :45-50 % CH4 | 0-5 % O2 | 1 000 ppmv H2S | 5-20 % N2 Distance of the gas grid: 6 kilometers Existing gas recovery solution: Combine Heat and Power Capacity: 25 GWh/year (85,300 mmBtu) ...
By Waga Energy
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WAGABOX® unit of Saint-Maximin - Project
Saint-Maximin landfill (France) Commissioning: 26th June, 2017 200 000 tons of waste per year Biogas: 45-50% CH4 | 0-3% O2 | 7 000 ppmv H2S | 5-20 % N2 Distance of the gas grid: 1.2 kilometer Existing gas recovery solution: leachate evaporation Capacity: 25 GWh/an (85,300 mmBtu) ...
By Waga Energy
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WAGABOX® unit of Saint-Florentin - Project
Saint-Florentin landfill (France) Commissioning: 14th February 2017 70 000 tons of waste per year Biogas: 40-50 % CH4 | 0-3 % O2 | 1 500 ppmv H2S | 5-25 % N2 Distance of the gas grid: 3 kilometers Existing gas recovery solution: leachate evaporation Capacity: 25 GWh/year (85,300 mmBtu) ...
By Waga Energy
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WAGABOX® unit of Pavie - Project
Pavie landfill (France) Commissioning: 30th May, 2018 40 000 tons of waste per year Biogas: 40-50% CH4 | 0-3% O2 | 500 ppmv H2S | 5-25 % N2 Distance of the gas grid: 3 kilometers Existing gas recovery solution: leachate evaporation Capacity: 15 GWh/year (51,180 mmBtu) ...
By Waga Energy
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Compact, modular design offers customers maximum flexibility: EnviThan gas feed-in France - Case Study
Location:Senlis (France) Capacity:250 Nm³/h biomethane Input materials:Silage, sugar beet pulp, agricultural waste Special features:This is EnviTec’s first gas upgrading plant in France. Our Senlis-based customer enjoys multiple benefits from the compact, modular design used by EnviThan plant. Thanks to the quick and easy installation of the technical systems, the operator started ...
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From the biogas to vehicle fuel
The biogas consists mainly of methane and carbon dioxide. Other components can be water and sulphur, mainlyhydrogen sulphide. To be able to use the biogas as vehicle fuel or to distribute it in natural gas grids the gas has to becleaned and upgraded. The biogas is upgraded by removing carbon dioxide to raise the calorific value and create a gaswith constant quality. One of the techniques to ...
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Biogas upgrading using the DMT Carborex® PWS Technology.
Abstract Gas is an excellent fuel for a large number of applications and can also be used as raw material for the pro- duction of chemicals. Biogas can be used in more or less all the applications that are developed for natural gas. For some of the applications biogas may have to be upgraded. Injection of biogas into the natural gas grid will result in an improved security of supply. This is ...
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Power plant independent power producer - Pioneers Power Limited - Case Study
OWNER Pioneers Power Limited LOCATION Yemen PRODUCT Six Taurus 60 (5.5 MWe) Gas Turbines CUSTOMER VALUE Flared Gas for Grid Power The Government of Yemen together with Pioneers Power Limited elected to take steps to comply with worldwide flare reduction policies. They found the right solution was to generate electricity using associated gas containing heavy hydrocarbons. A new power plant was ...
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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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Making pressurized water scrubbing the ultimate biogas upgrading technology with the DMT Carborex® PWS system.
Abstract Biogas is one of the most promising energy sources for the future. Biogas is a “waste” product from e.g. landfill sites or digesters that can be applied as a green and renewable energy source with no global emissions on CO2 and hardly no local emissions on other pollutants. Currently most biogas is used at a CHP at which a large part of the energy is converted into heat ...
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Biomethane enters the gas grid article for energy world
The Carbon Plan, published in 2011, aims to reduce UK carbon emissions by a quarter from 1990 levels. With the current policies in place, the UK is on target to reduce emissions by over a third by 2020 and with the introduction of new technologies this should increase to an 80% reduction by 2050. However, currently around half the UK’s carbon emissions result from heat related processes and ...
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Next generation biogas upgrading using highly selective gas separation membranes
More and more effort is being put into the utilization of organic waste streams in anaerobic digesters, producing useful products such as fertilizers and biogas. DMT has been developing biogas treatment plants for over 25 years, closely following market developments. It is becoming increasingly attractive to upgrade biogas to natural gas quality and inject it into the natural gas grid or use it ...
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Biogas-to-biomethane upgrading plant
Chesterfield BioGas (CBG) supplied the UK’s first biogas upgrading plant to produce clean biomethane for direct injection into the national gas grid for use by all consumers. The project was successfully completed and gas injected into the national grid at the wastewater treatment site of Thames Water site at Didcot, Oxfordshire in October 2010. This achievement was a benchmark moment for ...
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No Pipeline for Renewable Natural Gas Projects? No problem. Use Virtual Pipeline Technology
On site biogas production Biogas can be produced from various organic resources of which the most common are agricultural waste, municipal waste, landfills, and wastewater treatment facilities. But biogas upgrading is also very much applicable in the (food & beverage) industry. Through biogas upgrading, trace impurities and carbon dioxide (CO2) in raw biogas are separated from methane (CH4) ...
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Fluidized bed drying system at Ara Region Bern AG, Berne, Switzerland - Case Study
Fluidized bed drying system at ARA REGION BERN AG, Berne, Switzerland Already a leader in environmental sustainability, ara region bern ag (arabern) in Switzerland had an ambitious plan to produce renewable energy. Their plant has used digestion gas for heating processes in the wastewater treatment plant. But a new concept would take the plant’s energy efficiency and environmental ...
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No pipeline, no problem
Colony Farm - First virtual pipeline of this scale Upgraded biogas makes a very efficient source of renewable energy, biomethane. Biogas can be produced from various organic resources of which the most common are agricultural waste, municipal waste, landfills, and wastewater treatment facilities. Some of these sites are in very remote areas that do not have access to a national grid to inject ...
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The DMT Carborex® MS Small scale biogas upgrading plant
Introduction As we are all aware, fossil fuels are depleting rapidly and the energy consumption is growing. Due to increasing fossil fuel prices other types of fuels become more interesting. Nowadays technology enables us to use renewable fuels in an economically profitable way. An easy technique to produce fuel is the digestion of green waste; sewage sludge, manure and agricultural waste from ...
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The Landscape of Biogas Plants
China has the highest number of biogas plants among the IEA Bioenergy Task 37 member countries,with more than 100,000 biogas plants,followed by Germany with over 10,000 plants.In addition to the 100,000 biogas plants,China also has a large number of household biogas units. In countries like Australia and the UK,landfills are the largest source for biogas production,while they are only a minor ...
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Knowing power grids and understanding complexity science
Complex networks theory has been well established as a useful framework for studying and analysing structure, dynamics and evolution of many complex systems. Infrastructural and man–made systems like power grids, gas and water networks and the internet, have been also included in this network framework, albeit sometimes ignoring the huge historical body of knowledge surrounding them. Although ...
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