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waste combustion Applications

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    Waste air combustion for municipalities

    By AEREON based in Austin, TEXAS (USA).

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    Measurement solution for Biomass combustion research

    The use of alternative combustion fuels that provide a renewable source of energy is a major area of research and investment. Sources of biomass fuels include virgin wood, energy crops, agricultural residues, food waste and industrial waste. Controlling the combustion process of any new fuel and keeping track of the biomass fuel emissions of combustion by-products is important to users of these new fuels.

    By Protea Limited based in Middlewich, UNITED KINGDOM.

  • Combustible Aluminium, Titanium and Magnesium Dust Collection

    The consequences of an industrial dust explosion or fire are unthinkable - worker injury, loss of life, property damage, business interruption, and irreversible environmental harm. Few companies realize how many diverse and common industrial applications produce combustible particulates, or where in their facilities this catastrophic threat is settling. What is a combustible dust? “A combustible particulate solid that presents a fire or deflagration hazard when suspended in air or other oxidizing medium over a range of concentrations, regardless of particle size or shape” – NFPA 654? High Risk Applications Metalwork (aluminum, magnesium, or titanium and others) – cutting, grinding, or finishing Ceramics – raw product handling and enamel spray Chemicals – material handling, crushing, grinding, roasters, kilns, and coolers Coal mining – material handling, de-dusting, drying, air cleaning Food (flour, sugar, and others) – mixing, grinding, blending, bagging, and packaging Foundry – sand handling, tumbling mills, abrasive cleaning, and shakeout Pharmaceutical – mixing, grinding, blending, bagging, and packaging Rubber – mixing, grinding, talc dusting, de-dusting, and batch-out rolls Woodwork – woodworking machines, sanding, waste conveying?

    By DiversiTech based in Montreal, QUEBEC (CANADA).

  • Organic Rankine Cycles for Biomass Combustion

    The Triogen ORC can be used with biomass combustion, for example sawdust, chips, bark and treated wood; and other biomasses, such as straw, rice, husks and bio-sludge, as well as other high organic-content waste. The Triogen ORC will be connected to the combustor. The Triogen ORC converts the flue gasses from the combustor into electricity.

    By Tri-O-Gen B.V. based in Goor, DE, NETHERLANDS.

  • Waste Treatment for Waste Preparation

    Material sorting and preparation is essential for effective product valorisation. Aware of this aspect, Ménart has participated in pioneering projects, equally in the preparatory stage of diverse organic waste destined for biogaz valorisation, through composting or co-generation, and in the sorting of household and industrial waste to be recycled, for example, for combustible waste.

    By MENART based in Dour, BELGIUM.

  • 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.

  • SRF

    SRF Manufacture is an alternative fuel produced by shredding and dehydrating solid waste, typically consisting of combustible components of solid waste, including paper, card, wood, textiles and plastic. It can be produced to a range of specifications to meet customer requirements. Solid Recovered Fuel Manufacture The materials used to produce Solid Recovered Fuel pass through a series of shredders, screens, air classifiers/density separators and magnets. Inert materials, recyclable plastics and metals are extracted from the shredded material, leaving a mix of mainly non-recyclable paper, card, wood, textiles and plastic. Although a small proportion of these materials can be recycled the quality of these materials is compromised once they enter the residual waste stream and recovering energy from these materials is currently the best environmental option. For More information:

    By MK Group based in Galbally, IRELAND.

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    High quality gas sensor solutions for landfill

    State-of-the-art systems enabling easy monitoring of CO2 and CH4 gases. Capped Landfill Sites produce a range of gases, mostly methane and carbon dioxide. Legislation requires that these gases are safely removed from beneath the cap to avoid a physical explosion due to the build-up of pressure beneath the cap. Safe disposal usually entails burning such as flare stacks, internal combustion engines or by processing to produce Methane gas fuel. For large sites with access to power distribution infrastructure internal combustion engines are used to generate electricity which is fed into the local electricity grid. All of the above safe disposal process require the measurement of the Methane content (and in many cases the CO2 concentration). Edinburgh Sensors provide gas sensors for both Methane and CO2 that can be integrated into landfill gas processing systems enabling easy monitoring of these gases.

    By Edinburgh Instruments Ltd based in Livingston, UNITED KINGDOM.

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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.

  • Flares for Safe Disposal of Waste & Toxic Gases

    Our Flares are versatile in design & suitable for total destruction of waste gas/vapours. The waste gases/Vapours from petrochemical, WWTP, chemical plants have very high potential for environmental hazards. If allowed to released unburned into atmosphere. SIES offers flares and combustion systems for safe disposal of gases with high efficiency and reliability. System Designed to meet the API 521/537 norms High efficiency Burners with up to 99% thermal destruction Flares operable on fully automated, SCADA based solutions Customized & Cost effective project specific solutions Successful Installations of various types of flares at various locations.

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    Measurement solution for QAL2 EN 14181

    BS EN 14181 is a quality assurance standard relevant to plants operating under the Large Combustion Plant (LCPD) and Waste Incineration (WID) Directives. Quality Assurance Level 2 (QAL2) of this standard involves the parallel testing of the plant automated measurement systems (AMS) against a certified test house, making measurements with a comparative standard.

    By Protea Limited based in Middlewich, UNITED KINGDOM.

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    Ambient air and emissions monitoring of Polycyclic Aromatic Hydrocarbons – airmoC10-C20+

    Polycyclic Aromatic Hydrocarbons (PAHs) are a group of over 100 different chemicals that are known to be formed typically during incomplete combustion of organic matter at high temperature. Their major sources in the atmosphere include industrial processes, vehicle exhausts, waste incinerations, and domestic heating emissions. Due to their carcinogenic/mutagenic effects, 16 PAHs are currently listed as priority air pollutants.

    By Chromatotec Group based in Val de Virvée, FRANCE.

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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.

  • 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).

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    Industrial briquette presses for Biomass briquetting

    Harness the energy that’s inside your biomass! For too long, human and naturally produced substances have been disregarded. Straw, hay, tobacco, nutshells, miscanthus, pulse parings, cotton and flax are valuable resources for heat energy generation. The briquette shape makes your waste more cost effective to transport and ready in a saleable format. The calorific value of highly compressed briquettes is much greater than of lose material also optimising the combustibility characteristics. Additionally, explosive dust can be handled more safely. Efficient re-utilization of biomass as a cheap alternative fuel source cannot be ignored, particularly in the production of agricultural foods.

    By WEIMA based in Ilsfeld, GERMANY.

  • CH4 Monitoring in Air

    CH4 (Methane) is a colorless, odorless natural gas that is used in a wide variety of industrial applications such as power generation and chemical production. It is also a byproduct of many biological and geological processes, fracking, and gas drilling. It is highly flammable and creates amounts of carbon monoxide as its combustion byproduct. Methane needs constant monitoring in waste water treatment (for co-generation) and to ensure proper process control (e.g. to determine burning efficiency). A quality CH4 analyzer that is able to provide continuous monitoring is a perfect solution for this.

    By Unisearch Associates Inc. based in Concord, ONTARIO (CANADA).

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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.

  • Flaring Solutions for the Upstream Oil & Gas Industry - Oil & Gas Produced Water

    Because of the huge increase in U.S. natural gas production, there is elevated concern over the production of water that occurs in natural gas and oil fields. These concerns have led to additional state and federal regulations for low emission combustion technology and how companies will deal with produced water. ABUTEC’s high temperature enclosed combustors meet state and federal regulations for burning waste gas at a minimum of 99% destruction and removal efficiency (DRE), meaning almost 100 percent of the vapor to be destroyed is converted to CO2 and water. These combustors are of high quality, flexibility, low emissions, CSA-approved and able to burn very low calorific gas. Additionally, when combined with a heat exchanger, the unit can evaporate the excess produced water eliminating the need for expensive trucking or disposal.

    By ABUTEC LLC based in Kennesaw, GEORGIA (US) (USA).

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