Only show results available in Virginia? Ok

waste to energy Applications

  • RDF

    RDF (Refuse Derived Fuel) is made from domestic waste which includes biodegradable material as well as plastics, and has a lower calorific value than SRF (Solid Recovered Fuel). RDF (Refuse Derived Fuel) is used in combined heat and power facilities, many of them in Europe where they produce electricity and hot water for communal heating systems in the local area. Compared to landfilling, the lower carbon emissions resulting from RDF manufacture outweigh the emissions associated with transporting the reclaimed fuel. The increasing importance of Waste to Energy/RDF Waste to energy conversion is an increasingly recognised approach to resolving two issues: waste management and sustainable energy. Waste represents an increasingly important fuel source. Using waste as fuel can have important environmental benefits. It can not only provide a safe and cost-effective way of waste disposal but can also help reduce carbon dioxide emissions. https://the-mkgroup.com/portfolio/rdf-manufacture/

    By MK Group based in Galbally, IRELAND.

  • 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: https://the-mkgroup.com/portfolio/srf-manufacture/

    By MK Group based in Galbally, IRELAND.

  • 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.

  • Waste Tyre Recycling Machine

    Waste Tyre Recycling Machine,RESEM provides Pyrolysis Oil Plant systems that convert petroleum based waste streams such as plastics, tires, into quality fuels, carbons.

  • Premium

    Emissions Monitoring for Waste Incineration

    The in situ Opsis system is designed to meet the requirements from the new EC directive for monitoring stack emissions and for process control purposes in waste incinerators.

    By Opsis AB based in Furulund, SWEDEN.

  • Biogas to Elecricity

    The range of supply of biogas to electricity solutions is from 10 kW to 1 MW. All the components of the solution are provided with matching capacities. It comprises the biogas digester system of the desired capacity, gas storage, biogas cleaning system to get rid of H2S from the gas, and the biogas genset. In the digester system, one may have a pre-digester or a feed mixing chamber or both. On the post-digester side, liquid from the slurry is separated and is recycled for feed preparation. It reduces the overall fresh water demand of the scheme. The digester itself may be temperature controlled and the input for the same could be given from heat recovery of the genset or from a solar heating system or from any other heat source as the case may be.

    By Kirloskar Integrated Technologies Limited based in Kothrud, INDIA.

  • Biogas for Cooking

    This solution comprises a Biogas Digester of desired capacity working with specific substrate as input. It may or may not have H2S scrubbing system, depending on the quantity of H2S in the biogas and the requirement by the customer for cleaning it. As the heating value of biogas is almost half that of cooking LPG, specially designed biogas burners are provided to improve cooking speed. Depending on the demand by the customer, a blower to increase gas pressure may be employed.

    By Kirloskar Integrated Technologies Limited based in Kothrud, INDIA.

  • Premium

    Waste recovery for energy & utilities

    In order to stay competitive and to be seen as being environmentally responsible, energy and utility companies are always looking for alternative routes to generate power. One method of doing this is by leveraging waste to energy incineration plants linked to the processing municipal solid waste. During this incineration process, APC residues, which are a mixture of fly ash, organic pollutants (including dioxins and furans), are generated and are classified as hazardous waste and have a detrimental environmental impact. This fly ash is subject to Air Pollution Control as it is contaminated with extremely high concentrations of heavy metals and toxic compounds like dioxins, linked to cancer and other health problems. Tetronics offers valuable waste recovery plants that can eliminate the hazardous element within the fly ash while generating an inert building aggregate with the remaining material.

    By Tetronics (International) Limited based in Swindon, UNITED KINGDOM.

  • Biogas measurement for the waste to energy industry

    In a recent project and the subject of this paper, Kurz engineers conducted a study that lead to a unique, new design that allows thermal flow meters to perform accurately within a wet digester gas environment. The testing environment applies to landfill and digester applications.

    By Kurz Instruments, Inc. based in Monterey, CALIFORNIA (USA).

  • Recycling Equipment for Waste to Energy

    Create high-value RDF with MSW and C&I waste; Optimising the output in terms of economic value and against the lowest possible costs per tonne is the short-term goal for every single system that Bollegraaf provides. The benefits: permanently low operating cost and lowest cost per tonne. The result: fast return on investment.

    By Bollegraaf Recycling Solutions based in Appingedam, NETHERLANDS.

  • Premium

    Recycling equipment for waste-to-energy recycling

    Granutech has products that are well suited to process materials with the ultimate goal of producing energy from waste.

    By Granutech-Saturn Systems based in Grand Prairie, TEXAS (USA).

  • Premium

    Biogas recovery for waste to energy industries

    HydroThane BSP technology is the best method for H2S removal combining deep H2S removal, a very high reliability and availability, and low lifecycle costs. The clean biogas can be used to produce electricity or to replace natural gas in a boiler.

    By HydroThane STP BV based in KC `s Hertogenbosch, NETHERLANDS.

  • Waste shredding for the waste RDF line

    Waste of all kinds is now considered a potential energy source and an important growth market for stationary shredder technology. Most plastic and paper waste RDF (refuse-derived fuel) plants have specific requirements regarding shredding capacity, grain size and operating reliability to ensure reliable and consistent production. Because of its ability to conform to the most stringent guidelines, Metso shredder equipment is increasingly in demand by this sector.

    By Metso Recycling Equipment based in Duesseldorf, GERMANY.

  • Premium

    Waste recovery for nuclear wastes

    Nuclear waste is divided into low, medium, and high‐level waste by the amount of radiological character it contains. Low and Intermediate Level Nuclear waste is the radioactive waste resulting from nuclear facility consumables, clothing, laboratory equipment etc. This waste can adversely affect human health and the environment and therefore must be handled appropriately. Typically, the waste is kept underwater for 3-5 years until the radiation decays to levels that can be shielded by concrete in large storage casks, where it can be held for thousands of years. A challenge for the nuclear industry is the cost associated with conditioning, packaging and storage of these heterogeneous wastes. Therefore, a solution that can decrease the volume of nuclear waste, and reduce the amount of storage required, is considered a commercially advantageous option.

    By Tetronics (International) Limited based in Swindon, UNITED KINGDOM.

  • Energy and Fuels from Commercial Waste

    Commercial Waste is similar to Municipal Solid Waste although it tends to have more biodegradable products. Commercial waste is defined as all wastes created by commercial businesses. This can include, but is not necessarily limited to, solid or liquid wastes originating from offices, stores, markets, restaurants, shopping centres and other enterprises. We receive Commercial waste into the Materials Recycling Facility (MRF) at the front end of the Gasplasma® energy from waste plant. Any recyclable materials are recovered and the remainder is dried and shredded to make Refuse Derived Fuel (RDF). The RDF is used as fuel in the Gasplasma® plant to generate clean, renewable power and heat.

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

  • Premium

    RDF/SRF shredder

    UNTHA shredding technology is offering reliable RDF/SRF shredder with high throughput.

    By UNTHA Shredding Technology based in Kuchl, AUSTRIA.

  • MO series

    to reduce and transform waste into RDF.

    By OMPECO srl based in Vinovo, ITALY.

Need help finding the right suppliers? Try XPRT Sourcing. Let the XPRTs do the work for you