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vapor combustion Applications

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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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    Determination of the mercury concentration in naphtha

    Introduction

    The mercury concentration in crude oil and petroleum products can vary in a wide range of less than 0.1 ppb to dozens ppm. Direct mercury determination in crude oil and petroleum products at the range above 5 ppb is covered by ASTM D7622-10(2015) "Standard test method for total mercury in crude oil using combustion and direct cold vapor atomic absorption method with Zeeman background correction". Mercury determination in naphtha and light petroleum products (condensate, gasoline and diesel fuel) at a level below 5 ppb is a vital problem for the oil refining and petrochemical industry. Complex organic matrix impedes conventional quantitative analysis for mercury.

    By Lumex Instruments Group based in Mission, BRITISH COLUMBIA (CANADA).

  • 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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