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syngas Applications

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    Measurement solution for AD-211 VOC speciation in natural gas, syngas & gasification

    Composition of Natural Gas, Syngas via VOC Speciation

    The composition of fuel gas is important in order to determine calorific value and also to detect any unwanted contaminants in the gas. Online analysis is important in order to give real-time and direct action on issues.

    By Protea Limited based in Middlewich, UNITED KINGDOM.

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    PTR-MS systems for petrochemical industry

    Process monitoring in the petrochemical industry. Monitoring of syngas and other gas processes for safety, quality assurance and process optimization.

    By Ionicon Analytik Ges.m.b.H. based in Innsbruck, AUSTRIA.

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    Waste to Energy

    We can treat the air streams from waste management plants, MBT (Mechanical Biological Treatment) reception and composting areas, Waste Water Treatment Plants (WWTP), Refuse Derived Fuel (RDF) Plants, gasification of waste, syngas, torrefaction, gas engines and biogas upgrading. In waste management plants and WWTP, we remove the odors that may be causing a nuisance to neighbors, with bioreactors using Biomass to degrade odorous components and where odors are particularly intractable or VOC emissions higher, thermal oxidizers to meet prescribed emission limits and odor levels. In RDF Plants, Syngas, Gasification, Gas Engine and Biogas Upgrading applications, we employ thermal oxidizers, particulate removal and DeNOX systems, for the control of VOC, NOx, CO and particulates to prescribed emission limits.

    By Babcock & Wilcox MEGTEC based in De Pere, WISCONSIN (USA).

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    Carbon Monoxide and Carbon Dioxide Sensing for Gasification

    Application: Syngas (short for synthetic gas) can be burnt and used as a fuel source, the main constituents of syngas are Carbon Monoxide and Hydrogen, which amount for around 85% of Syngas, and it is produced by a process called Gasification.

    By Edinburgh Instruments Ltd based in Livingston, UNITED KINGDOM.

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    Applications and Air Pollutants Removed in the Biomass Industry

    Flue gas particulate and acid gases from biomass and bagasse boilers. Removal of ethanol, CO2 scrubbers and yeast cells from fermenters.  Removal of ash particulate, tars, acid gases and ammonia from steam reformers, gasifiers, pyrolosis units and cooling of syngas streams to acceptable limits to enable use as a fuel source for power generation or as a feedstock for chemical products. For tar removal, combination technologies can be used including oil based scrubbing solutions to reduce waste water generation. Ethanol and yeast cell removal from fermenter off-gases. Methanol from processing operations. Hydrogen sulfide removal on landfill, digester and producer gases with regenerable chemistries. Odor control for biomass storage facilities including carbon monoxide removal in wood chip storage areas. 

    By Bionomic Industries Inc. based in Mahwah, NEW JERSEY (USA).

  • Alternative Fuel Production

    Superior Boiler Works, Inc. led the way in Ethanol production in the USA with more installed firetube boilers in Ethanol plants than any other manufacturer. Ethanol requires the distillation of sugars into an alcohol fuel. Superior’s products are used to generate heat needed for the ethanol distillation processes, heating storage tanks as well as batch reactors. Additionally, Superior Boilers can be fitted with packaged burners which fire a variety of fuels from tallow to syngas to Hydrogen and most anything in between.

    By Superior Boiler Works, Inc. based in Hutchinson, KANSAS (USA).

  • Energy and Fuels from Municipal Solid Waste (MSW)

    Municipal Solid Waste (MSW), which includes household waste, is the residual waste put into a black bin bag or wheelie bin. MSW contains a mixture of recyclable, organic, inorganic and biodegradable materials. We recover as many recyclable materials as possible before drying and shredding the remainder to make a Refuse Derived Fuel (RDF) for the process. Our energy from waste process, Gasplasma®, transforms the RDF into a clean hydrogen-rich synthesis gas (syngas).

    By Advanced Plasma Power (APP) based in Swindon, UNITED KINGDOM.

  • Hazardous and Special Wastes

    Gasplasma® uses a DC Plasma Converter to crack impurities from the raw syngas. The intense heat and strong UV light produced by the Plasma Arc neutralises hazardous wastes, such as sludge and oils, creosote and other preservatives and chemicals. Gasplasma® transforms the organic parts of the waste into a hydrogen-rich syngas that is used to generate clean, renewable power and renewable heat. The second stage Plasma Converter makes hazardous elements inert and all the inorganic materials are vitrified into an environmentally benign product called Plasmarok®.

    By Advanced Plasma Power (APP) based in Swindon, UNITED KINGDOM.

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    Gas Sensing for Gasification

    Syngas (short for synthetic gas) can be burnt and used as a fuel source, the main constituents of syngas are Carbon Monoxide (CO) and Hydrogen (H), which amount for around 85% of Syngas, and it is produced by a process called Gasification. Gasification starts with a base material which can originate from a wide variety of materials for example wood chips and pellets, plastics, municipal solid waste, sewage, waste crops, and fossil fuels such as coal. During Gasification the base material is reacted at high temperature without combustion with controlled amounts of oxygen (O) or steam. The composition of the base material combined with the amount of oxygen and heat used in the process affects the composition of the resultant SynGas, in which the CO can vary between around 20 and 60%. In addition, large amounts of H and CO are also formed. The measurement of CO is therefore an important feature in the production of SynGas.

    By Edinburgh Instruments Ltd based in Livingston, UNITED KINGDOM.

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