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combustion technology Applications

  • Combustion measurement for engines

    Combustion processes occur in many modern technologies such as power production, heating, automotive and aircraft engines and even explosion research.

    The application areas range from fuel injection and mixing and flow velocity information to measurements of combustion species and soot concentration.

    Because of the impact on the global climate and the limited resources of fossil fuels, the importance of these applications is increasing, especially with respect to performance, fuel economy and CO2 emissions.

    By Dantec Dynamics based in Skovlunde, DENMARK.

  • Integrated real-time gas analysis solution for combustion efficiency sector

    CIC Photonics has made its mark with several R&D institutes where research is underway to determine the optimum thermodynamic performance of new turbine engine designs combined with new diesel fuel formulations. This sophisticated IRGAS technology has included not only a basic FTIR gas analyzer but also analyzers for H2, O2, THC, and a powder meter all integrated into a comprehensive IRGAS Solution.

    By CIC Photonics, Inc. based in Albuquerque, NEW MEXICO (USA).

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    Reliable Shredding Technology for Refuse Derived Fuels (RDF)

    Our shredding solutions enable you to optimally recycle waste into substitute fuels / alternative fuels and ensure high quality by producing a homogeneous granulate free of foreign objects. The goal of recycling is to use the valuable energy contained in the waste and to substitute the use of fossil fuels. During the recycling process the portions with a high calorific value are separated from the commercial and industrial waste and turned into a marketable product. Depending on the calorific value and the granular size, these fuels are used in fluidised bed combustion, cement plants and substitute fuel power plants.

    By UNTHA Shredding Technology based in Kuchl, AUSTRIA.

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    Reliable Shredding Technology for Rubber and Tyres

    Our shredding systems generate granulate from the hardest rubber and old tyre applications for your recycling plant. Regardless of whether you want to use the granulate for pyrolysis, hydrolysis or combustion, we will customize it to exactly fit your needs. Regardless of whether rubber accumulates in the form of tyres, conveyor belts, rubberised chains or as production waste, recycling is economically efficient and makes sense from an environmental perspective. Very powerful shredders are required to recover recyclable materials from rubber waste and old tyres. Our proven and reliable 4-shaft technology is particularly suited in this regard. This system economically performs the pre- and re-shredding in just one step.

    By UNTHA Shredding Technology based in Kuchl, AUSTRIA.

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    VOC and HAP Abatement

    As is the case for many industrial manufacturing processes, emissions are best destroyed through the use of thermal and catalytic oxidation technologies. Volatile Organic Compounds (VOCs) and Hazardous Air Pollutants (HAPs) are destroyed through the use of high temperature combustion with direct heat recovery. The harmful air pollutants are converted to heat, water vapor and carbon dioxide, creating a destruction efficiency greater than 99%.

    By Anguil Environmental Systems, Inc. based in Milwaukee, WISCONSIN (USA).

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    Recycling Systems for the engineered fuel, biomass / RDF

    Engineered Fuel and waste fuels are an increasingly important resource Waste-derived materials as an alternative to oil, gas and coal, selected and treated with the most up-to-date technologies, can be transferred into energy thanks to their combustible properties, these efforts assist us to obtain zero waste.

    By Macpresse Europa S.R.L based in Vernate, ITALY.

  • Biogas Treatment & Utilization

    ADI Systems offers treatment of biogas for H2S removal using both biological and chemical-based scrubber technologies. ADI Systems can provide biogas utilization packages in the following applications: Internal Combustion Engines Gen-sets Microturbines Fuel Cells Boiler and Steam Generating Systems Sludge Dryers Contact ADI Systems to learn how we can help your facility reclaim energy from waste.

    By ADI Systems based in Fredericton, NEW BRUNSWICK (CANADA).

  • Waste shredding for the waste-to-energy industry

    With worldwide focus on recovering the maximum waste-to-energy possible, waste processing is an important growth market for stationary shredder technology. Numerous technologies now exist to produce fuels and energy from waste. Incineration is the most common waste-to-energy conversion but to maintain a consistent flow, increase combustion efficiency and reduce costs, it is essential that the waste is pre-shredded.

    By Metso Recycling Equipment based in Duesseldorf, GERMANY.

  • Automotive Shredder Residue Drying

    Getting economic value from landfill waste like automotive shredder residue (ASR) is a big challenge that can have a big payoff. Vulcan® Systems Drying Technology is the key component of material preparation when separating ASR waste to reclaim energy and metals. Vulcan® ASR Dryer Systems are manufactured to suit each client’s individual project needs and custom-designed specifically to dry ASR, making the material easy to transport, separate, and handle. This drying system consists of a drum with a burner that is mounted to a combustion chamber. Shredder residue is fed into the rotary dryer. After passing through the system, the dried material is discharged to a transfer conveyor for further sorting and separation. The vapor from the process is pulled through a cyclone that is specifically designed to deal with the fine ASR dust, as well as a high-temperature baghouse that removes additional fine particulates from the vapor stream.

    By Vulcan Systems based in Moberly, MISSOURI (USA).

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