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    Incinerator deutsch

    incinerator deutsch

    Englisch-Deutsch Übersetzung für incinerator und Beispielübersetzungen aus technischen Dokumentationen. Feuerung, Feuerleistungsdiagramm. Übersetzung im Kontext von „INCINERATOR“ in Englisch-Deutsch von Reverso Context: incinerator according, waste incinerator. Übersetzungen für incinerator im Englisch» Deutsch-Wörterbuch von PONS Online:incinerator. Das Casino 21 grand duke umfasst einen einzelnen oder doppelten Thermoelement-Messeinsatz und ein Metall- oder Keramik-Schutzrohr. Dazu kommen jetzt Millionen von authentischen Übersetzungsbeispielen aus externen Quellen, die zeigen, wie ein Begriff im Zusammenhang übersetzt wird. Essential in the optimization of combustion processes and used daily in thousands of power plants and incinerators. Die Beispielsätze sollten folglich mit Bedacht geprüft und verwendet werden. Sowohl die Registrierung als auch die Nutzung des Trainers sind kostenlos. Eine Optimierung schnell reich werden ohne arbeit Verbrennungsofens kann eine Reduzierung der Kohlenmonoxidkonzentration bewirken. Vor diesem Hintergrund erstaunt nicht, dass Juegos de casino trackid=sp-006 weltweit online casino extra chili ähnlich grossen CO2-Ausstoss london casino xatar wie die Luftfahrtindustrie. Forscher entwickelten ein Beschichtungsverfahren, mit dem sie Bauteile in Turbinen, Triebwerken und Müllverbrennungsanlagen vor Oxidation und Hitze transfermarkt eintracht wollen. Beispiele, die Müllverbrennungsanlagen enthalten, ansehen 4 Beispiele mit Übereinstimmungen Müllverbrennungsanlage. Flue gases from garbage incinerators likewise contain raw materials. Ich habe die lokalen Kawaris Müllsammler dazu angeregt, zu uns zu kommen und unseren getrennten Müll mitzunehmen, den sie dann wieder verwenden. Anmeldung und Top 10 deutsch des Forums sind kostenlos. Der wirtschaftliche Betrieb einer Müllverbrennungsanlage setzt eine angemessene Auslastung voraus. In der Abbildung ist diese an zwei verschiedenen Positionen in der Müllverbrennungsanlage gezeigt. Beispielsätze Beispielsätze für "incinerator" auf Deutsch Diese Sätze champions league live dortmund von externen Quellen und können mitunter Fehler enthalten. Primäraluminium erfolgt auch heute noch über die Bauxit-Tonerde und Elektrolyseschiene welche sehr energieaufwändig ist, jedoch kann beim Einsatz von Sekundäraluminium ca. Glass, paper and packaging are collected separately in Berlin. Beispiele für die Übersetzung Verbrennungsanlage ansehen Substantiv Beispiele mit Übereinstimmungen. Auch die Abgase von Müllverbrennungsanlagen enthalten ebenfalls Rohstoffe. English But I believe that the proper route for disposal is incineration leipzig bvb a high temperature incinerator. 5 bücher bei book of ra hinaus haben wir begonnen, diese Technologie the best free online casino games weitere Sprachen anzuwenden, um entsprechende Datenbanken mit Beispielsätzen aufzubauen.

    deutsch incinerator - agree

    Research News Nov 03, Researchers have developed a coating technique that they plan to use to protect tur- bine engine and waste incinerator components against heat and oxidation. In Attika ist nur eine einzige Verbrennungsanlage mit einer Kapazität von 0,5 Tonnen für Krankenhausabfälle in Betrieb; täglich fallen jedoch 20 Tonnen Abfälle dieser Kategorie an. Reverso beitreten Registrieren Einloggen Mit Facebook einloggen. Flue gases from garbage incinerators likewise contain raw materials.. However, the high concentration of sulfur dioxide requires a separate flue gas cleaning.. Das Thermometer umfasst einen einzelnen oder doppelten Thermoelement-Messeinsatz und ein Metall- oder Keramik-Schutzrohr. In der Abbildung ist diese an zwei verschiedenen Positionen in einer Müllverbrennungsanlage gezeigt.. Electricity from "waste materials" comes from municipal solid waste incinerators. On the other hand, the greenhouse gases are substantially reduced, which influences the greenhouse effect positively and the landfill volume is conserved by the recovery of recyclable fractions of incinerators.. It also contains regulations governing incinerator plants for waste and similar combustible materials thermal recycling.

    Local conditions such as limited local district heating demand, no fossil fuel generated electricity to replace or high levels of aluminium in the waste stream can decrease the CO 2 benefits of incineration.

    The methodology and other assumptions may also influence the results significantly. For example, the methane emissions from landfills occurring at a later date may be neglected or given less weight, or biodegradable waste may not be considered CO 2 neutral.

    A study by Eunomia Research and Consulting in on potential waste treatment technologies in London demonstrated that by applying several of these according to the authors unusual assumptions the average existing incineration plants performed poorly for CO 2 balance compared to the theoretical potential of other emerging waste treatment technologies.

    Other gaseous emissions in the flue gas from incinerator furnaces include nitrogen oxides , sulfur dioxide , hydrochloric acid , heavy metals , and fine particles.

    Of the heavy metals, mercury is a major concern due to its toxicity and high volatility, as essentially all mercury in the municipal waste stream may exit in emissions if not removed by emission controls.

    The steam content in the flue may produce visible fume from the stack, which can be perceived as a visual pollution. It may be avoided by decreasing the steam content by flue-gas condensation and reheating, or by increasing the flue gas exit temperature well above its dew point.

    Flue-gas condensation allows the latent heat of vaporization of the water to be recovered, subsequently increasing the thermal efficiency of the plant.

    The quantity of pollutants in the flue gas from incineration plants may or may not be reduced by several processes, depending on the plant.

    The latter are generally very efficient for collecting fine particles. In an investigation by the Ministry of the Environment of Denmark in , the average particulate emissions per energy content of incinerated waste from 16 Danish incinerators were below 2.

    Detailed measurements of fine particles with sizes below 2. One incinerator equipped with an ESP for particle filtration emitted 5. For ultra fine particles PM 1.

    Acid gas scrubbers are used to remove hydrochloric acid , nitric acid , hydrofluoric acid , mercury , lead and other heavy metals.

    The efficiency of removal will depend on the specific equipment, the chemical composition of the waste, the design of the plant, the chemistry of reagents, and the ability of engineers to optimize these conditions, which may conflict for different pollutants.

    Waste water from scrubbers must subsequently pass through a waste water treatment plant. Sulfur dioxide may also be removed by dry desulfurisation by injection limestone slurry into the flue gas before the particle filtration.

    NO x is either reduced by catalytic reduction with ammonia in a catalytic converter selective catalytic reduction , SCR or by a high-temperature reaction with ammonia in the furnace selective non-catalytic reduction , SNCR.

    Urea may be substituted for ammonia as the reducing reagent but must be supplied earlier in the process so that it can hydrolyze into ammonia.

    Substitution of urea can reduce costs and potential hazards associated with storage of anhydrous ammonia. Heavy metals are often adsorbed on injected active carbon powder, which is collected by particle filtration.

    Incineration produces fly ash and bottom ash just as is the case when coal is combusted. Odor pollution can be a problem with old-style incinerators, but odors and dust are extremely well controlled in newer incineration plants.

    They receive and store the waste in an enclosed area with a negative pressure with the airflow being routed through the boiler which prevents unpleasant odors from escaping into the atmosphere.

    However, not all plants are implemented this way, resulting in inconveniences in the locality. An issue that affects community relationships is the increased road traffic of waste collection vehicles to transport municipal waste to the incinerator.

    Due to this reason, most incinerators are located in industrial areas. This problem can be avoided to an extent through the transport of waste by rail from transfer stations.

    Use of incinerators for waste management is controversial. The debate over incinerators typically involves business interests representing both waste generators and incinerator firms , government regulators, environmental activists and local citizens who must weigh the economic appeal of local industrial activity with their concerns over health and environmental risk.

    People and organizations professionally involved in this issue include the U. Environmental Protection Agency and a great many local and national air quality regulatory agencies worldwide.

    The history of municipal solid waste MSW incineration is linked intimately to the history of landfills and other waste treatment technology. The merits of incineration are inevitably judged in relation to the alternatives available.

    Since the s, recycling and other prevention measures have changed the context for such judgements. Since the s alternative waste treatment technologies have been maturing and becoming viable.

    Incineration is a key process in the treatment of hazardous wastes and clinical wastes. It is often imperative that medical waste be subjected to the high temperatures of incineration to destroy pathogens and toxic contamination it contains.

    The first incinerator in the U. Ross founded one of the first hazardous waste management companies in the U. He began Robert Ross Industrial Disposal because he saw an opportunity to meet the hazardous waste management needs of companies in northern Ohio.

    In , the company built one of the first hazardous waste incinerators in the U. The first full-scale, municipally operated incineration facility in the U.

    This plant is still in operation and produces refuse-derived fuel that is sent to local power plants for fuel. There are several environmental or waste management corporations that transport ultimately to an incinerator or cement kiln treatment center.

    Currently , there are three main businesses that incinerate waste: Clean Harbours has acquired many of the smaller, independently run facilities, accumulating 5—7 incinerators in the process across the U.

    Several old generation incinerators have been closed; of the MSW incinerators in , only 89 remained by , and of the medical waste incinerators in , only remained in There has been renewed interest in incineration and other waste-to-energy technologies in the U.

    However, many of these projects have faced continued political opposition in spite of renewed arguments for the greenhouse gas benefits of incineration and improved air pollution control and ash recycling.

    In Europe, with the ban on landfilling untreated waste, [61] scores of incinerators have been built in the last decade, with more under construction.

    Recently, a number of municipal governments have begun the process of contracting for the construction and operation of incinerators.

    Also, some incinerators in Europe are equipped with waste recovery, allowing the reuse of ferrous and non-ferrous materials found in landfills.

    The technology employed in the UK waste management industry has been greatly lagging behind that of Europe due to the wide availability of landfills.

    This legislation is designed to reduce the release of greenhouse gases produced by landfills through the use of alternative methods of waste treatment.

    In , plans for potential incinerator locations exists for approximately sites. Under a new plan in June , a DEFRA-backed grant scheme The Farming and Forestry Improvement Scheme was set up to encourage the use of low-capacity incinerators on agricultural sites to improve their bio security.

    Following the construction of a large incinerator at Greatmoor in Buckinghamshire , and plans to construct a further one near Bedford , [72] the Cambridge — Milton Keynes — Oxford corridor will become a major incineration hub in the UK.

    Emergency incineration systems exist for the urgent and biosecure disposal of animals and their by-products following a mass mortality or disease outbreak.

    An increase in regulation and enforcement from governments and institutions worldwide has been forced through public pressure and significant economic exposure.

    Waste Spectrum Environmental www. One-third of global meat exports approx 6 million tonnes is affected by trade restrictions at any time and as such the focus of Governments, public bodies and commercial operators is on cleaner, safer and more robust methods of animal carcass disposal to contain and control disease.

    Large-scale incineration systems are available from niche suppliers and are often bought by governments as a safety net in case of contagious outbreak.

    Many are mobile and can be quickly deployed to locations requiring biosecure disposal. Small-scale incinerators exist for special purposes.

    For example, the small-scale [73] incinerators are aimed for hygienically safe destruction of medical waste in developing countries.

    Small incinerators can be quickly deployed to remote areas where an outbreak has occurred to dispose of infected animals quickly and without the risk of cross contamination.

    From Wikipedia, the free encyclopedia. For other forms of waste plant that produces energy, see waste-to-energy. For the Dew-Scented album, see Incinerate album.

    This section needs expansion with: You can help by adding to it. This section does not cite any sources. Please help improve this section by adding citations to reliable sources.

    Unsourced material may be challenged and removed. January Learn how and when to remove this template message. List of incinerators in the UK.

    University of Western Ontario. Oregon Department of Forestry. Delaware Solid Waste Authority. Archived from the original on Bidding farewell to dioxin spouting" PDF.

    United States Environmental Protection Agency. J Air Waste Manag Assoc. Ministry of the Environment of Denmark. Archived from the original on 14 July English This would be impossible for incineration plants in remote areas, for example.

    English The technology for cleaning up fumes from waste incineration plants already exists. English One of the hardest problems was to define what co- incineration meant.

    English - SV More stringent rules for incineration plants are highly desirable. English Regrettably, in my opinion, a majority has approved co- incineration.

    English Hydroelectric power should be supplemented by forms of energy other than waste incineration. English Co- incineration is a good thing, if it is carried out properly - I support it.

    English At the same time, incineration acts as a counterincentive to recycling. English It is nonetheless good that we have now obtained tighter rules covering waste incineration.

    English Secondly, the public will have far better access to information about incineration plants. English Proper co- incineration in accordance with strict standards is therefore the right way forward.

    Waste combustion is particularly popular in countries such as Japan where land is a scarce resource. Denmark and Sweden have been leaders by using the energy generated from incineration for more than a century, in localised combined heat and power facilities supporting district heating schemes.

    They were originally known as destructors. An incinerator is a furnace for burning waste. Modern incinerators include pollution mitigation equipment such as flue gas cleaning.

    There are various types of incinerator plant design: The burn pile is one of the simplest and earliest forms of waste disposal, essentially consisting of a mound of combustible materials piled on the open ground and set on fire.

    Burn piles can and have spread uncontrolled fires, for example, if the wind blows burning material off the pile into surrounding combustible grasses or onto buildings.

    The bed is thereby violently mixed and agitated keeping small inert particles and air in a fluid-like state. This allows all of the mass of waste, fuel and sand to be fully circulated through the furnace.

    Furniture factory sawdust incinerators need much attention as these have to handle resin powder and many flammable substances. Controlled combustion, burn back prevention systems are essential as dust when suspended resembles the fire catch phenomenon of any liquid petroleum gas.

    The heat produced by an incinerator can be used to generate steam which may then be used to drive a turbine in order to produce electricity.

    Incineration has a number of outputs such as the ash and the emission to the atmosphere of flue gas. Before the flue gas cleaning system , if installed, the flue gases may contain particulate matter , heavy metals , dioxins , furans , sulfur dioxide , and hydrochloric acid.

    If plants have inadequate flue gas cleaning, these outputs may add a significant pollution component to stack emissions.

    In a study from , Delaware Solid Waste Authority found that, for same amount of produced energy, incineration plants emitted fewer particles, hydrocarbons and less SO 2 , HCl, CO and NO x than coal-fired power plants, but more than natural gas—fired power plants.

    The most publicized concerns from environmentalists about the incineration of municipal solid wastes MSW involve the fear that it produces significant amounts of dioxin and furan emissions.

    The EPA announced in that the safe limit for human oral consumption is 0. In , The Ministry of the Environment of Germany, where there were 66 incinerators at that time, estimated that " Chimneys and tiled stoves in private households alone discharge approximately 20 times more dioxin into the environment than incineration plants.

    According to the United States Environmental Protection Agency , [9] the combustion percentages of the total dioxin and furan inventory from all known and estimated sources in the U.

    Thus, the controlled combustion of waste accounted for In , before the governmental regulations required the use of emission controls, there was a total of 8, Today, the total emissions from the plants are Studies conducted by the US-EPA [19] demonstrated that the emissions from just one family using a burn barrel produced more emissions than an incineration plant disposing of metric tons short tons of waste per day by and five times that by due to increased chemicals in household trash and decreased emissions by municipal incinerators using better technology.

    Their later studies [21] found that burn barrels produced a median of Most of the improvement in U.

    The breakdown of dioxin requires exposure of the molecular ring to a sufficiently high temperature so as to trigger thermal breakdown of the strong molecular bonds holding it together.

    Small pieces of fly ash may be somewhat thick, and too brief an exposure to high temperature may only degrade dioxin on the surface of the ash.

    For a large volume air chamber, too brief an exposure may also result in only some of the exhaust gases reaching the full breakdown temperature. For this reason there is also a time element to the temperature exposure to ensure heating completely through the thickness of the fly ash and the volume of waste gases.

    There are trade-offs between increasing either the temperature or exposure time. Generally where the molecular breakdown temperature is higher, the exposure time for heating can be shorter, but excessively high temperatures can also cause wear and damage to other parts of the incineration equipment.

    A side effect of breaking the strong molecular bonds of dioxin is the potential for breaking the bonds of nitrogen gas N 2 and oxygen gas O 2 in the supply air.

    As the exhaust flow cools, these highly reactive detached atoms spontaneously reform bonds into reactive oxides such as NO x in the flue gas, which can result in smog formation and acid rain if they were released directly into the local environment.

    These reactive oxides must be further neutralized with selective catalytic reduction SCR or selective non-catalytic reduction see below.

    The temperatures needed to break down dioxin are typically not reached when burning plastics outdoors in a burn barrel or garbage pit, causing high dioxin emissions as mentioned above.

    While plastic does usually burn in an open-air fire, the dioxins remain after combustion and either float off into the atmosphere, or may remain in the ash where it can be leached down into groundwater when rain falls on the ash pile.

    Fortunately, dioxin and furan compounds bond very strongly to solid surfaces and are not dissolved by water, so leaching processes are limited to the first few millimeters below the ash pile.

    The gas-phase dioxins can be substantially destroyed using catalysts, some of which can be present as part of the fabric filter bag structure.

    They are equipped with auxiliary heaters to ensure this at all times. These are often fueled by oil or natural gas, and are normally only active for a very small fraction of the time.

    Further, most modern incinerators utilize fabric filters often with Teflon membranes to enhance collection of sub-micron particles which can capture dioxins present in or on solid particles.

    For very small municipal incinerators, the required temperature for thermal breakdown of dioxin may be reached using a high-temperature electrical heating element, plus a selective catalytic reduction stage.

    As for other complete combustion processes, nearly all of the carbon content in the waste is emitted as CO 2 to the atmosphere. Since the global warming potential of methane is 34 and the weight of 62 cubic meters of methane at 25 degrees Celsius is In some countries, large amounts of landfill gas are collected.

    Still the global warming potential of the landfill gas emitted to atmosphere is significant. In addition, nearly all biodegradable waste has biological origin.

    This material has been formed by plants using atmospheric CO 2 typically within the last growing season. If these plants are regrown the CO 2 emitted from their combustion will be taken out from the atmosphere once more.

    Such considerations are the main reason why several countries administrate incineration of biodegradable waste as renewable energy. Different results for the CO 2 footprint of incineration can be reached with different assumptions.

    Local conditions such as limited local district heating demand, no fossil fuel generated electricity to replace or high levels of aluminium in the waste stream can decrease the CO 2 benefits of incineration.

    The methodology and other assumptions may also influence the results significantly. For example, the methane emissions from landfills occurring at a later date may be neglected or given less weight, or biodegradable waste may not be considered CO 2 neutral.

    A study by Eunomia Research and Consulting in on potential waste treatment technologies in London demonstrated that by applying several of these according to the authors unusual assumptions the average existing incineration plants performed poorly for CO 2 balance compared to the theoretical potential of other emerging waste treatment technologies.

    Other gaseous emissions in the flue gas from incinerator furnaces include nitrogen oxides , sulfur dioxide , hydrochloric acid , heavy metals , and fine particles.

    Of the heavy metals, mercury is a major concern due to its toxicity and high volatility, as essentially all mercury in the municipal waste stream may exit in emissions if not removed by emission controls.

    The steam content in the flue may produce visible fume from the stack, which can be perceived as a visual pollution. It may be avoided by decreasing the steam content by flue-gas condensation and reheating, or by increasing the flue gas exit temperature well above its dew point.

    Flue-gas condensation allows the latent heat of vaporization of the water to be recovered, subsequently increasing the thermal efficiency of the plant.

    The quantity of pollutants in the flue gas from incineration plants may or may not be reduced by several processes, depending on the plant.

    The latter are generally very efficient for collecting fine particles. In an investigation by the Ministry of the Environment of Denmark in , the average particulate emissions per energy content of incinerated waste from 16 Danish incinerators were below 2.

    Detailed measurements of fine particles with sizes below 2. One incinerator equipped with an ESP for particle filtration emitted 5. For ultra fine particles PM 1.

    Acid gas scrubbers are used to remove hydrochloric acid , nitric acid , hydrofluoric acid , mercury , lead and other heavy metals.

    The efficiency of removal will depend on the specific equipment, the chemical composition of the waste, the design of the plant, the chemistry of reagents, and the ability of engineers to optimize these conditions, which may conflict for different pollutants.

    Waste water from scrubbers must subsequently pass through a waste water treatment plant. Sulfur dioxide may also be removed by dry desulfurisation by injection limestone slurry into the flue gas before the particle filtration.

    NO x is either reduced by catalytic reduction with ammonia in a catalytic converter selective catalytic reduction , SCR or by a high-temperature reaction with ammonia in the furnace selective non-catalytic reduction , SNCR.

    Urea may be substituted for ammonia as the reducing reagent but must be supplied earlier in the process so that it can hydrolyze into ammonia.

    Substitution of urea can reduce costs and potential hazards associated with storage of anhydrous ammonia. Heavy metals are often adsorbed on injected active carbon powder, which is collected by particle filtration.

    Incineration produces fly ash and bottom ash just as is the case when coal is combusted. Odor pollution can be a problem with old-style incinerators, but odors and dust are extremely well controlled in newer incineration plants.

    They receive and store the waste in an enclosed area with a negative pressure with the airflow being routed through the boiler which prevents unpleasant odors from escaping into the atmosphere.

    However, not all plants are implemented this way, resulting in inconveniences in the locality. An issue that affects community relationships is the increased road traffic of waste collection vehicles to transport municipal waste to the incinerator.

    Due to this reason, most incinerators are located in industrial areas. This problem can be avoided to an extent through the transport of waste by rail from transfer stations.

    Use of incinerators for waste management is controversial. The debate over incinerators typically involves business interests representing both waste generators and incinerator firms , government regulators, environmental activists and local citizens who must weigh the economic appeal of local industrial activity with their concerns over health and environmental risk.

    People and organizations professionally involved in this issue include the U. Environmental Protection Agency and a great many local and national air quality regulatory agencies worldwide.

    The history of municipal solid waste MSW incineration is linked intimately to the history of landfills and other waste treatment technology.

    The merits of incineration are inevitably judged in relation to the alternatives available. Since the s, recycling and other prevention measures have changed the context for such judgements.

    Since the s alternative waste treatment technologies have been maturing and becoming viable. Incineration is a key process in the treatment of hazardous wastes and clinical wastes.

    It is often imperative that medical waste be subjected to the high temperatures of incineration to destroy pathogens and toxic contamination it contains.

    The first incinerator in the U. Ross founded one of the first hazardous waste management companies in the U. He began Robert Ross Industrial Disposal because he saw an opportunity to meet the hazardous waste management needs of companies in northern Ohio.

    In , the company built one of the first hazardous waste incinerators in the U. The first full-scale, municipally operated incineration facility in the U.

    This plant is still in operation and produces refuse-derived fuel that is sent to local power plants for fuel. There are several environmental or waste management corporations that transport ultimately to an incinerator or cement kiln treatment center.

    Currently , there are three main businesses that incinerate waste: Clean Harbours has acquired many of the smaller, independently run facilities, accumulating 5—7 incinerators in the process across the U.

    Several old generation incinerators have been closed; of the MSW incinerators in , only 89 remained by , and of the medical waste incinerators in , only remained in There has been renewed interest in incineration and other waste-to-energy technologies in the U.

    However, many of these projects have faced continued political opposition in spite of renewed arguments for the greenhouse gas benefits of incineration and improved air pollution control and ash recycling.

    In Europe, with the ban on landfilling untreated waste, [61] scores of incinerators have been built in the last decade, with more under construction.

    Recently, a number of municipal governments have begun the process of contracting for the construction and operation of incinerators.

    Also, some incinerators in Europe are equipped with waste recovery, allowing the reuse of ferrous and non-ferrous materials found in landfills. The technology employed in the UK waste management industry has been greatly lagging behind that of Europe due to the wide availability of landfills.

    This legislation is designed to reduce the release of greenhouse gases produced by landfills through the use of alternative methods of waste treatment.

    In , plans for potential incinerator locations exists for approximately sites. Under a new plan in June , a DEFRA-backed grant scheme The Farming and Forestry Improvement Scheme was set up to encourage the use of low-capacity incinerators on agricultural sites to improve their bio security.

    Following the construction of a large incinerator at Greatmoor in Buckinghamshire , and plans to construct a further one near Bedford , [72] the Cambridge — Milton Keynes — Oxford corridor will become a major incineration hub in the UK.

    Emergency incineration systems exist for the urgent and biosecure disposal of animals and their by-products following a mass mortality or disease outbreak.

    An increase in regulation and enforcement from governments and institutions worldwide has been forced through public pressure and significant economic exposure.

    One-third of global meat exports approx 6 million tonnes is affected by trade restrictions at any time and as such the focus of Governments, public bodies and commercial operators is on cleaner, safer and more robust methods of animal carcass disposal to contain and control disease.

    Large-scale incineration systems are available from niche suppliers and are often bought by governments as a safety net in case of contagious outbreak.

    Many are mobile and can be quickly deployed to locations requiring biosecure disposal. Small-scale incinerators exist for special purposes. For example, the small-scale [73] incinerators are aimed for hygienically safe destruction of medical waste in developing countries.

    Small incinerators can be quickly deployed to remote areas where an outbreak has occurred to dispose of infected animals quickly and without the risk of cross contamination.

    From Wikipedia, the free encyclopedia. For other forms of waste plant that produces energy, see waste-to-energy. For the Dew-Scented album, see Incinerate album.

    This section needs expansion with:

    Small pieces of fly ash may be somewhat thick, bahamas casino too brief an exposure to high temperature may sls las vegas hotel & casino 4* degrade dioxin on the surface of the ash. The technology employed in the UK waste management industry has been greatly lagging behind that of Europe due to the wide availability of landfills. This plant is still in bitcoins mit psc kaufen and produces refuse-derived fuel that is sent to local power plants for fuel. There are various types of incinerator plant design: Part 1 — The Myths Debunked Video. Chemical Engineering Department, University of Toronto. Recently, a number of pokalfinale 2019 wann governments have begun the process of contracting for the construction and operation of incinerators. Archived from the original PDF on Archived from the original PDF on 6 April The first incinerator in the U. The quantity of pollutants in the flue gas free slots games casino 888 incineration plants may or may not be reduced by several processes, depending on the plant. English incestuously inch inches inchoate incidence incident incidental incidental contact incidental finding incineration incinerator incipient incised incision incisive incisor incitement incivility incl. The primary chamber in a rotary kiln incinerator consists of an inclined refractory lined cylindrical tube. Treatment and Landfill" PDF. Waste combustion is particularly popular in countries such as Japan where land is a scarce resource. In addition, nearly all biodegradable waste has biological origin. The sls las vegas hotel & casino 4* incinerator in the U. Since the global warming potential of methane is 34 and the weight of 62 cubic meters of methane at 25 degrees Celsius is In some countries, large amounts of landfill gas are collected. One-third dynamo dresden tore global meat exports approx 6 million tonnes is affected by trade restrictions at any time and as such the focus of Governments, public bodies and commercial operators is on cleaner, safer and more robust methods of animal carcass disposal to contain and control disease. If these plants are regrown the CO 2 emitted from their combustion will be taken casino keine einzahlung from the atmosphere once more. The typical incineration plant for municipal solid waste is a moving grate incinerator. Heavy metals are often adsorbed spin palace mobile injected active carbon powder, which is collected by particle challenge league. Please do nordirland nationalmannschaft them incinerator deutsch. This problem can be avoided to an extent through the transport of waste app leo rail from transfer stations. Different results for the CO 2 footprint of incineration can be reached with different assumptions. The clinkers spill out at casino royal stream hd filme end of the cylinder.

    Incinerator Deutsch Video

    Hawken Gameplay - Incinerator - Testdrive (deutsch/german) [HD/1080p] Beispiele für die Übersetzung Verbrennungseinrichtung ansehen 4 Beispiele mit Übereinstimmungen. In erster Linie geht es bei diesem Verfahren aber um einen wesentlichen Beitrag zum Klima- und Umweltschutz.. They contain a single or double TC insert and a metal or ceramic thermowell. Registrieren Sie sich für weitere Beispiele sehen Registrieren Einloggen. However, the high concentration of sulfur dioxide requires a separate flue gas cleaning.. Mein Suchverlauf Meine Favoriten. Das Bundes-Immissionsschutzgesetz ist die Kurzbezeichnung für das deutsche Gesetz zum Schutz vor schädlichen Umwelteinwirkungen durch Luftverunreinigungen, Geräusche, Erschütterungen und ähnlichen Vorgängen. On the other hand, the greenhouse gases are substantially reduced, which influences the greenhouse effect positively and the landfill volume is conserved by the recovery of recyclable fractions of incinerators.. Zum anderen werden Treibhausgase weitgehend reduziert, was sich positiv auf den Treibhauseffekt auswirkt und durch die Rückgewinnung von Wertstoffen aus Verbrennungsanlagen wird das Deponievolumen geschont.. In erster Linie geht es bei diesem Verfahren aber um einen wesentlichen Beitrag zum Klima- und Umweltschutz. Verbrennungsofen zur Verbrennung von minderwertigem Brennmaterial, insbesondere Müllpellets. Verbrennungsanlage ist nur für besondere Anlässe gedacht. Sie können aber jederzeit auch unangemeldet das Forum durchsuchen. Die korrekte sprachliche Einordnung und Bewertung der Beispielsätze ist für einen Sprachanfänger oder Schüler der Grund- und Mittelstufen nicht immer einfach.

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    Sobald sie in den Vokabeltrainer übernommen wurden, sind sie auch auf anderen Geräten verfügbar. The incinerator thing was prime Wozu möchten Sie uns Feedback geben? Der Eintrag wurde Ihren Favoriten hinzugefügt. Hier sehen Sie Ihre letzten Suchanfragen, die neueste zuerst. These incinerators have to adhere to higher standards than the coincineration plants. Das Bundes-Immissionsschutzgesetz ist die Kurzbezeichnung für das deutsche Gesetz zum Schutz vor schädlichen Umwelteinwirkungen durch Luftverunreinigungen, Geräusche, Erschütterungen und ähnlichen Vorgängen.

    In some countries, large amounts of landfill gas are collected. Still the global warming potential of the landfill gas emitted to atmosphere is significant.

    In addition, nearly all biodegradable waste has biological origin. This material has been formed by plants using atmospheric CO 2 typically within the last growing season.

    If these plants are regrown the CO 2 emitted from their combustion will be taken out from the atmosphere once more. Such considerations are the main reason why several countries administrate incineration of biodegradable waste as renewable energy.

    Different results for the CO 2 footprint of incineration can be reached with different assumptions. Local conditions such as limited local district heating demand, no fossil fuel generated electricity to replace or high levels of aluminium in the waste stream can decrease the CO 2 benefits of incineration.

    The methodology and other assumptions may also influence the results significantly. For example, the methane emissions from landfills occurring at a later date may be neglected or given less weight, or biodegradable waste may not be considered CO 2 neutral.

    A study by Eunomia Research and Consulting in on potential waste treatment technologies in London demonstrated that by applying several of these according to the authors unusual assumptions the average existing incineration plants performed poorly for CO 2 balance compared to the theoretical potential of other emerging waste treatment technologies.

    Other gaseous emissions in the flue gas from incinerator furnaces include nitrogen oxides , sulfur dioxide , hydrochloric acid , heavy metals , and fine particles.

    Of the heavy metals, mercury is a major concern due to its toxicity and high volatility, as essentially all mercury in the municipal waste stream may exit in emissions if not removed by emission controls.

    The steam content in the flue may produce visible fume from the stack, which can be perceived as a visual pollution. It may be avoided by decreasing the steam content by flue-gas condensation and reheating, or by increasing the flue gas exit temperature well above its dew point.

    Flue-gas condensation allows the latent heat of vaporization of the water to be recovered, subsequently increasing the thermal efficiency of the plant.

    The quantity of pollutants in the flue gas from incineration plants may or may not be reduced by several processes, depending on the plant.

    The latter are generally very efficient for collecting fine particles. In an investigation by the Ministry of the Environment of Denmark in , the average particulate emissions per energy content of incinerated waste from 16 Danish incinerators were below 2.

    Detailed measurements of fine particles with sizes below 2. One incinerator equipped with an ESP for particle filtration emitted 5. For ultra fine particles PM 1.

    Acid gas scrubbers are used to remove hydrochloric acid , nitric acid , hydrofluoric acid , mercury , lead and other heavy metals. The efficiency of removal will depend on the specific equipment, the chemical composition of the waste, the design of the plant, the chemistry of reagents, and the ability of engineers to optimize these conditions, which may conflict for different pollutants.

    Waste water from scrubbers must subsequently pass through a waste water treatment plant. Sulfur dioxide may also be removed by dry desulfurisation by injection limestone slurry into the flue gas before the particle filtration.

    NO x is either reduced by catalytic reduction with ammonia in a catalytic converter selective catalytic reduction , SCR or by a high-temperature reaction with ammonia in the furnace selective non-catalytic reduction , SNCR.

    Urea may be substituted for ammonia as the reducing reagent but must be supplied earlier in the process so that it can hydrolyze into ammonia. Substitution of urea can reduce costs and potential hazards associated with storage of anhydrous ammonia.

    Heavy metals are often adsorbed on injected active carbon powder, which is collected by particle filtration.

    Incineration produces fly ash and bottom ash just as is the case when coal is combusted. Odor pollution can be a problem with old-style incinerators, but odors and dust are extremely well controlled in newer incineration plants.

    They receive and store the waste in an enclosed area with a negative pressure with the airflow being routed through the boiler which prevents unpleasant odors from escaping into the atmosphere.

    However, not all plants are implemented this way, resulting in inconveniences in the locality. An issue that affects community relationships is the increased road traffic of waste collection vehicles to transport municipal waste to the incinerator.

    Due to this reason, most incinerators are located in industrial areas. This problem can be avoided to an extent through the transport of waste by rail from transfer stations.

    Use of incinerators for waste management is controversial. The debate over incinerators typically involves business interests representing both waste generators and incinerator firms , government regulators, environmental activists and local citizens who must weigh the economic appeal of local industrial activity with their concerns over health and environmental risk.

    People and organizations professionally involved in this issue include the U. Environmental Protection Agency and a great many local and national air quality regulatory agencies worldwide.

    The history of municipal solid waste MSW incineration is linked intimately to the history of landfills and other waste treatment technology. The merits of incineration are inevitably judged in relation to the alternatives available.

    Since the s, recycling and other prevention measures have changed the context for such judgements. Since the s alternative waste treatment technologies have been maturing and becoming viable.

    Incineration is a key process in the treatment of hazardous wastes and clinical wastes. It is often imperative that medical waste be subjected to the high temperatures of incineration to destroy pathogens and toxic contamination it contains.

    The first incinerator in the U. Ross founded one of the first hazardous waste management companies in the U.

    He began Robert Ross Industrial Disposal because he saw an opportunity to meet the hazardous waste management needs of companies in northern Ohio.

    In , the company built one of the first hazardous waste incinerators in the U. The first full-scale, municipally operated incineration facility in the U.

    This plant is still in operation and produces refuse-derived fuel that is sent to local power plants for fuel.

    There are several environmental or waste management corporations that transport ultimately to an incinerator or cement kiln treatment center.

    Currently , there are three main businesses that incinerate waste: Clean Harbours has acquired many of the smaller, independently run facilities, accumulating 5—7 incinerators in the process across the U.

    Several old generation incinerators have been closed; of the MSW incinerators in , only 89 remained by , and of the medical waste incinerators in , only remained in There has been renewed interest in incineration and other waste-to-energy technologies in the U.

    However, many of these projects have faced continued political opposition in spite of renewed arguments for the greenhouse gas benefits of incineration and improved air pollution control and ash recycling.

    In Europe, with the ban on landfilling untreated waste, [61] scores of incinerators have been built in the last decade, with more under construction.

    Recently, a number of municipal governments have begun the process of contracting for the construction and operation of incinerators.

    Also, some incinerators in Europe are equipped with waste recovery, allowing the reuse of ferrous and non-ferrous materials found in landfills.

    The technology employed in the UK waste management industry has been greatly lagging behind that of Europe due to the wide availability of landfills.

    This legislation is designed to reduce the release of greenhouse gases produced by landfills through the use of alternative methods of waste treatment.

    In , plans for potential incinerator locations exists for approximately sites. Under a new plan in June , a DEFRA-backed grant scheme The Farming and Forestry Improvement Scheme was set up to encourage the use of low-capacity incinerators on agricultural sites to improve their bio security.

    Following the construction of a large incinerator at Greatmoor in Buckinghamshire , and plans to construct a further one near Bedford , [72] the Cambridge — Milton Keynes — Oxford corridor will become a major incineration hub in the UK.

    Emergency incineration systems exist for the urgent and biosecure disposal of animals and their by-products following a mass mortality or disease outbreak.

    An increase in regulation and enforcement from governments and institutions worldwide has been forced through public pressure and significant economic exposure.

    One-third of global meat exports approx 6 million tonnes is affected by trade restrictions at any time and as such the focus of Governments, public bodies and commercial operators is on cleaner, safer and more robust methods of animal carcass disposal to contain and control disease.

    Large-scale incineration systems are available from niche suppliers and are often bought by governments as a safety net in case of contagious outbreak.

    Many are mobile and can be quickly deployed to locations requiring biosecure disposal. Small-scale incinerators exist for special purposes. For example, the small-scale [73] incinerators are aimed for hygienically safe destruction of medical waste in developing countries.

    Small incinerators can be quickly deployed to remote areas where an outbreak has occurred to dispose of infected animals quickly and without the risk of cross contamination.

    From Wikipedia, the free encyclopedia. For other forms of waste plant that produces energy, see waste-to-energy.

    For the Dew-Scented album, see Incinerate album. This section needs expansion with: You can help by adding to it. This section does not cite any sources.

    Please help improve this section by adding citations to reliable sources. Unsourced material may be challenged and removed.

    January Learn how and when to remove this template message. List of incinerators in the UK. University of Western Ontario. Archived from the original PDF on 5 December Archived from the original on 9 July Chartered Institution of Wastes Management.

    Oregon Department of Forestry. Archived from the original on 5 January Wisconsin Department of Natural Resources.

    Archived from the original on 25 August Municipal Solid Waste Incineration. Archived from the original PDF on Delaware Solid Waste Authority.

    Archived from the original on Bidding farewell to dioxin spouting" PDF. United States Environmental Protection Agency. J Air Waste Manag Assoc.

    Archived from the original on 3 November National Environmental Research Institute of Denmark. Ministry of the Environment of Denmark.

    Archived from the original PDF on 20 February Integrated Waste Services Association. Archived from the original on 25 June Chemical Engineering Department, University of Toronto.

    Archived from the original on 14 July Archived from the original PDF on 3 March Archived from the original on 27 December Incinerators — Weapons of mass destruction?

    Treatment and Landfill" PDF. Archived from the original PDF on 2 March The use of foamed concrete" PDF. Archived from the original PDF on 4 March Retrieved 31 January Archived from the original on 28 December Archived from the original on 4 March NO x is either reduced by catalytic reduction with ammonia in a catalytic converter selective catalytic reduction , SCR or by a high-temperature reaction with ammonia in the furnace selective non-catalytic reduction , SNCR.

    Urea may be substituted for ammonia as the reducing reagent but must be supplied earlier in the process so that it can hydrolyze into ammonia.

    Substitution of urea can reduce costs and potential hazards associated with storage of anhydrous ammonia. Heavy metals are often adsorbed on injected active carbon powder, which is collected by particle filtration.

    Incineration produces fly ash and bottom ash just as is the case when coal is combusted. Odor pollution can be a problem with old-style incinerators, but odors and dust are extremely well controlled in newer incineration plants.

    They receive and store the waste in an enclosed area with a negative pressure with the airflow being routed through the boiler which prevents unpleasant odors from escaping into the atmosphere.

    However, not all plants are implemented this way, resulting in inconveniences in the locality. An issue that affects community relationships is the increased road traffic of waste collection vehicles to transport municipal waste to the incinerator.

    Due to this reason, most incinerators are located in industrial areas. This problem can be avoided to an extent through the transport of waste by rail from transfer stations.

    Use of incinerators for waste management is controversial. The debate over incinerators typically involves business interests representing both waste generators and incinerator firms , government regulators, environmental activists and local citizens who must weigh the economic appeal of local industrial activity with their concerns over health and environmental risk.

    People and organizations professionally involved in this issue include the U. Environmental Protection Agency and a great many local and national air quality regulatory agencies worldwide.

    The history of municipal solid waste MSW incineration is linked intimately to the history of landfills and other waste treatment technology.

    The merits of incineration are inevitably judged in relation to the alternatives available. Since the s, recycling and other prevention measures have changed the context for such judgements.

    Since the s alternative waste treatment technologies have been maturing and becoming viable. Incineration is a key process in the treatment of hazardous wastes and clinical wastes.

    It is often imperative that medical waste be subjected to the high temperatures of incineration to destroy pathogens and toxic contamination it contains.

    The first incinerator in the U. Ross founded one of the first hazardous waste management companies in the U. He began Robert Ross Industrial Disposal because he saw an opportunity to meet the hazardous waste management needs of companies in northern Ohio.

    In , the company built one of the first hazardous waste incinerators in the U. The first full-scale, municipally operated incineration facility in the U.

    This plant is still in operation and produces refuse-derived fuel that is sent to local power plants for fuel. There are several environmental or waste management corporations that transport ultimately to an incinerator or cement kiln treatment center.

    Currently , there are three main businesses that incinerate waste: Clean Harbours has acquired many of the smaller, independently run facilities, accumulating 5—7 incinerators in the process across the U.

    Several old generation incinerators have been closed; of the MSW incinerators in , only 89 remained by , and of the medical waste incinerators in , only remained in There has been renewed interest in incineration and other waste-to-energy technologies in the U.

    However, many of these projects have faced continued political opposition in spite of renewed arguments for the greenhouse gas benefits of incineration and improved air pollution control and ash recycling.

    In Europe, with the ban on landfilling untreated waste, [61] scores of incinerators have been built in the last decade, with more under construction.

    Recently, a number of municipal governments have begun the process of contracting for the construction and operation of incinerators.

    Also, some incinerators in Europe are equipped with waste recovery, allowing the reuse of ferrous and non-ferrous materials found in landfills.

    The technology employed in the UK waste management industry has been greatly lagging behind that of Europe due to the wide availability of landfills.

    This legislation is designed to reduce the release of greenhouse gases produced by landfills through the use of alternative methods of waste treatment.

    In , plans for potential incinerator locations exists for approximately sites. Under a new plan in June , a DEFRA-backed grant scheme The Farming and Forestry Improvement Scheme was set up to encourage the use of low-capacity incinerators on agricultural sites to improve their bio security.

    Following the construction of a large incinerator at Greatmoor in Buckinghamshire , and plans to construct a further one near Bedford , [72] the Cambridge — Milton Keynes — Oxford corridor will become a major incineration hub in the UK.

    Emergency incineration systems exist for the urgent and biosecure disposal of animals and their by-products following a mass mortality or disease outbreak.

    An increase in regulation and enforcement from governments and institutions worldwide has been forced through public pressure and significant economic exposure.

    Waste Spectrum Environmental www. One-third of global meat exports approx 6 million tonnes is affected by trade restrictions at any time and as such the focus of Governments, public bodies and commercial operators is on cleaner, safer and more robust methods of animal carcass disposal to contain and control disease.

    Large-scale incineration systems are available from niche suppliers and are often bought by governments as a safety net in case of contagious outbreak.

    Many are mobile and can be quickly deployed to locations requiring biosecure disposal. Small-scale incinerators exist for special purposes.

    For example, the small-scale [73] incinerators are aimed for hygienically safe destruction of medical waste in developing countries.

    Small incinerators can be quickly deployed to remote areas where an outbreak has occurred to dispose of infected animals quickly and without the risk of cross contamination.

    From Wikipedia, the free encyclopedia. For other forms of waste plant that produces energy, see waste-to-energy. For the Dew-Scented album, see Incinerate album.

    This section needs expansion with: You can help by adding to it. This section does not cite any sources. Please help improve this section by adding citations to reliable sources.

    Unsourced material may be challenged and removed. January Learn how and when to remove this template message. List of incinerators in the UK.

    University of Western Ontario. Oregon Department of Forestry. Delaware Solid Waste Authority. Archived from the original on Bidding farewell to dioxin spouting" PDF.

    United States Environmental Protection Agency. J Air Waste Manag Assoc. Ministry of the Environment of Denmark. Archived from the original on 14 July English This would be impossible for incineration plants in remote areas, for example.

    English The technology for cleaning up fumes from waste incineration plants already exists. English One of the hardest problems was to define what co- incineration meant.

    English - SV More stringent rules for incineration plants are highly desirable. English Regrettably, in my opinion, a majority has approved co- incineration.

    English Hydroelectric power should be supplemented by forms of energy other than waste incineration. English Co- incineration is a good thing, if it is carried out properly - I support it.

    English At the same time, incineration acts as a counterincentive to recycling. English It is nonetheless good that we have now obtained tighter rules covering waste incineration.

    English Secondly, the public will have far better access to information about incineration plants. English Proper co- incineration in accordance with strict standards is therefore the right way forward.

    Waste combustion is particularly popular in countries such as Japan where land is a scarce resource. Denmark and Sweden have been leaders by using the energy generated from incineration for more than a century, in localised combined heat and power facilities supporting district heating schemes.

    They were originally known as destructors. An incinerator is a furnace for burning waste. Modern incinerators include pollution mitigation equipment such as flue gas cleaning.

    There are various types of incinerator plant design: The burn pile is one of the simplest and earliest forms of waste disposal, essentially consisting of a mound of combustible materials piled on the open ground and set on fire.

    Burn piles can and have spread uncontrolled fires, for example, if the wind blows burning material off the pile into surrounding combustible grasses or onto buildings.

    As interior structures of the pile are consumed, the pile can shift and collapse, spreading the burn area. Even in a situation of no wind, small lightweight ignited embers can lift off the pile via convection , and waft through the air into grasses or onto buildings, igniting them.

    The burn barrel is a somewhat more controlled form of private waste incineration, containing the burning material inside a metal barrel, with a metal grating over the exhaust.

    The barrel prevents the spread of burning material in windy conditions, and as the combustibles are reduced they can only settle down into the barrel.

    The exhaust grating helps to prevent the spread of burning embers. Most urban communities ban burn barrels and certain rural communities may have prohibitions on open burning, especially those home to many residents not familiar with this common rural practice.

    As of [update] in the United States, private rural household or farm waste incineration of small quantities was typically permitted so long as it is not a nuisance to others, does not pose a risk of fire such as in dry conditions, and the fire does not produce dense, noxious smoke.

    A handful of states, such as New York, Minnesota, and Wisconsin, have laws or regulations either banning or strictly regulating open burning due to health and nuisance effects.

    The typical incineration plant for municipal solid waste is a moving grate incinerator. The moving grate enables the movement of waste through the combustion chamber to be optimized to allow a more efficient and complete combustion.

    The waste is introduced by a waste crane through the "throat" at one end of the grate, from where it moves down over the descending grate to the ash pit in the other end.

    Here the ash is removed through a water lock. Part of the combustion air primary combustion air is supplied through the grate from below.

    This air flow also has the purpose of cooling the grate itself. Cooling is important for the mechanical strength of the grate, and many moving grates are also water-cooled internally.

    Secondary combustion air is supplied into the boiler at high speed through nozzles over the grate. It facilitates complete combustion of the flue gases by introducing turbulence for better mixing and by ensuring a surplus of oxygen.

    In order to comply with this at all times, it is required to install backup auxiliary burners often fueled by oil , which are fired into the boiler in case the heating value of the waste becomes too low to reach this temperature alone.

    In Scandinavia , scheduled maintenance is always performed during summer, where the demand for district heating is low.

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