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79-548: The Southeastern Massachusetts Resource Recovery Facility (commonly known as SEMASS ) is a waste-to-energy and recycling facility located in Rochester, Massachusetts . It is currently owned by Reworld . The United States Environmental Protection Agency mandated closure of unlined landfills in the early 1980s, after which many Cape Cod communities signed agreements to send their municipal waste to SEMASS. Two facilities to transfer trash from trucks to railroad hopper cars ,

158-533: A community group is actively opposing their local waste-to-energy facility, Sintana Vergara, an assistant professor in the Department of Environmental Resources Engineering at Humboldt State University in California, commented that community resistance is based on both the pollution and the fact that many of these facilities have been sited in communities without any community input, and without any benefits to

237-426: A flexible option for thermal applications, as they can be retrofitted into existing gas fueled devices such as ovens , furnaces , boilers , etc., where syngas may replace fossil fuels. Heating values of syngas are generally around 4–10 MJ/m . Currently Industrial-scale gasification is primarily used to produce electricity from fossil fuels such as coal, where the syngas is burned in a gas turbine. Gasification

316-442: A fuel slurry is gasified with oxygen (much less frequent: air) in co-current flow. The gasification reactions take place in a dense cloud of very fine particles. Most coals are suitable for this type of gasifier because of the high operating temperatures and because the coal particles are well separated from one another. The high temperatures and pressures also mean that a higher throughput can be achieved, however thermal efficiency

395-640: A handful have been implemented as plants processing real waste, and most of the time in combination with fossil fuels. One plant (in Chiba , Japan, using the Thermoselect process ) has been processing industrial waste with natural gas and purified oxygen since year 2000, but has not yet documented positive net energy production from the process. In 2007 Ze-gen erected a waste gasification demonstration facility in New Bedford, Massachusetts . The facility

474-527: A limited amount of oxygen or air is introduced into the reactor to allow some of the organic material to be "burned" to produce carbon dioxide and energy, which drives a second reaction that converts further organic material to hydrogen and additional carbon dioxide. Further reactions occur when the formed carbon monoxide and residual water from the organic material react to form methane and excess carbon dioxide (4CO + 2H 2 O → CH 4 + 3CO 2 ). This third reaction occurs more abundantly in reactors that increase

553-423: A permeable bed, although recent developments have reduced these restrictions to some extent. The throughput for this type of gasifier is relatively low. Thermal efficiency is high as the temperatures in the gas exit are relatively low. However, this means that tar and methane production is significant at typical operation temperatures, so product gas must be extensively cleaned before use. The tar can be recycled to

632-542: A promise to build a new recycling and disposal plant. As of 2016 the plant has not been built, the waste is being sent to landfills and ABC has filed for bankruptcy. As of November 2019 ABC has approached Mashpee looking for a substantial increase in their tipping fees claiming the failure to reach an agreement may force the company out of business. ABC has still not completed the promised waste to brickette facility that they sold many towns on. Waste-to-energy Waste-to-energy (WtE) or energy-from-waste (EfW) refers to

711-480: A series of processes designed to convert waste materials into usable forms of energy, typically electricity or heat. As a form of energy recovery, WtE plays a crucial role in both waste management and sustainable energy production by reducing the volume of waste in landfills and providing an alternative energy source. The most common method of WtE is direct combustion of waste to produce heat, which can then be used to generate electricity via steam turbines. This method

790-422: A significant role in a renewable energy economy, because biomass production removes the same amount of CO 2 from the atmosphere as is emitted from gasification and combustion. While other biofuel technologies such as biogas and biodiesel are carbon neutral , gasification in principle may run on a wider variety of input materials and can be used to produce a wider variety of output fuels. There are at present

869-501: A substitute for natural gas. The WtE process contributes to circular economy principles by transforming waste products into valuable resources, reducing dependency on fossil fuels, and mitigating greenhouse gas emissions. However, challenges remain, particularly in ensuring that emissions from WtE plants, such as dioxins and furans , are properly managed to minimize environmental impact. Advanced pollution control technologies are essential to address these concerns and ensure WtE remains

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948-550: A synthetic gas primarily composed of hydrogen, carbon monoxide, and small amounts of carbon dioxide. This syngas can be converted into methane , methanol , ethanol , or even synthetic fuels , which can be used in various industrial processes or as alternative fuels in transportation. Furthermore, anaerobic digestion , a biological process, converts organic waste into biogas (mainly methane and carbon dioxide) through microbial action. This biogas can be harnessed for energy production or processed into biomethane , which can serve as

1027-546: A thermal treatment process in Collie, Western Australia. The system will process 1.5 tonnes of organic matter per hour. Annually the facility will divert 4000 tonnes of municipal waste from landfill and source an additional 8000 tonnes of organic waste from agricultural and forestry operations. Renergi’s patented “grinding pyrolysis” process aims to converts organic materials into biochar, bio-gases and bio-oil by applying heat in an environment with limited oxygen. Another project in

1106-703: A total of 93.5 MW installed capacity of waste-to-energy, with a pipeline of projects in different preparation phases together amounting to another 373MW of capacity. Biofuel Energy Corporation of Denver, Colorado, opened two new biofuel plants in Wood River, Nebraska , and Fairmont, Minnesota , in July 2008. These plants use distillation to make ethanol for use in motor vehicles and other engines. Both plants are currently reported to be working at over 90% capacity. Fulcrum BioEnergy, located in Pleasanton, California ,

1185-522: A variety of biomass and waste-derived feedstocks can be gasified, with wood pellets and chips, waste wood, plastics and aluminium, Municipal Solid Waste (MSW), Refuse-derived fuel (RDF), agricultural and industrial wastes, sewage sludge, switch grass, discarded seed corn, corn stover and other crop residues all being used. Chemrec has developed a process for gasification of black liquor . Waste gasification has several advantages over incineration: A major challenge for waste gasification technologies

1264-529: A viable, environmentally sound solution. WtE technologies present a significant opportunity to manage waste sustainably while contributing to global energy demands. They represent an essential component of integrated waste management strategies and a shift toward renewable energy systems. As technology advances, WtE may play an increasingly critical role in both reducing landfill use and enhancing energy security. Gasification and pyrolysis processes have been known and used for centuries and for coal as early as

1343-466: Is a plant with seven different processes: biomass processing, fuel delivery, gasification, gas cleaning, waste disposal, electricity generation and heat recovery. Diesel engines can be operated on dual fuel mode using producer gas. Diesel substitution of over 80% at high loads and 70–80% under normal load variations can easily be achieved. Spark ignition engines and solid oxide fuel cells can operate on 100% gasification gas. Mechanical energy from

1422-439: Is a relatively old method of WtE generation. Incineration generally entails burning waste (residual MSW, commercial, industrial and RDF) to boil water which powers steam generators that generate electric energy and heat to be used in homes, businesses, institutions and industries. One problem associated is the potential for pollutants to enter the atmosphere with the flue gases from the boiler. These pollutants can be acidic and in

1501-421: Is also used industrially in the production of electricity, ammonia and liquid fuels (oil) using Integrated Gasification Combined Cycles ( IGCC ), with the possibility of producing methane and hydrogen for fuel cells. IGCC is also a more efficient method of CO 2 capture as compared to conventional technologies. IGCC demonstration plants have been operating since the early 1970s and some of the plants constructed in

1580-478: Is an open one, as European countries which recycle the most (up to 70%) also incinerate to avoid landfilling . Incinerators have electric efficiencies of 14-28%. In order to avoid losing the rest of the energy, it can be used for e.g. district heating ( cogeneration ). The total efficiencies of cogeneration incinerators are typically higher than 80% (based on the lower heating value of the waste). The method of incineration to convert municipal solid waste (MSW)

1659-429: Is building a WtE plant near Reno, NV . The plant is scheduled to open in 2019 under the name of Sierra BioFuels plant. BioEnergy incorporated predicts that the plant will produce approximately 10.5 million gallons per year of ethanol from nearly 200,000 tons per year of MSW. Waste-to-energy technology includes fermentation , which can take biomass and create ethanol , using waste cellulosic or organic material. In

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1738-594: Is currently widely used on industrial scales to generate electricity. Gasification can generate lower amounts of some pollutants as SO x and NO x than combustion. Energy has been produced at industrial scale via gasification since the early 19th century. Initially coal and peat were gasified to produce town gas for lighting and cooking, with the first public street lighting installed in Pall Mall, London on January 28, 1807, spreading shortly to supply commercial gas lighting to most industrialized cities until

1817-539: Is from biogenic material. Consequently, this energy is often recognised as renewable energy according to the waste input. Several methods have been developed by the European CEN 343 working group to determine the biomass fraction of waste fuels, such as Refuse Derived Fuel /Solid Recovered Fuel. The initial two methods developed (CEN/TS 15440) were the manual sorting method and the selective dissolution method . A detailed systematic comparison of these two methods

1896-464: Is ground and melted and then pyrolyzed. Catalytic converters help in the process. The vapours are condensed with oil or fuel and accumulated in settling tanks and filtered. Fuel is obtained after homogenation and can be used for automobiles and machinery. It is commonly termed as thermofuel or energy from plastic. A new process uses a two-part catalyst, cobalt and zeolite, to convert plastics into propane . It works on polyethylene and polypropylene and

1975-403: Is mixed with the fuel prior to gasification. Addition of a little limestone will usually suffice for the lowering the fusion temperatures. The fuel particles must be much smaller than for other types of gasifiers. This means the fuel must be pulverized, which requires somewhat more energy than for the other types of gasifiers. By far the most energy consumption related to entrained flow gasification

2054-641: Is not the milling of the fuel but the production of oxygen used for the gasification. In a plasma gasifier a high-voltage current is fed to a torch, creating a high-temperature arc. The inorganic residue is retrieved as a glass like substance. There are a large number of different feedstock types for use in a gasifier, each with different characteristics, including size, shape, bulk density, moisture content, energy content, chemical composition, ash fusion characteristics, and homogeneity of all these properties. Coal and petroleum coke are used as primary feedstocks for many large gasification plants worldwide. Additionally,

2133-430: Is somewhat lower as the gas must be cooled before it can be cleaned with existing technology. The high temperatures also mean that tar and methane are not present in the product gas; however the oxygen requirement is higher than for the other types of gasifiers. All entrained flow gasifiers remove the major part of the ash as a slag as the operating temperature is well above the ash fusion temperature. A smaller fraction of

2212-466: Is still the global warming potential of the landfill gas being emitted to atmosphere. For example, in the US in 1999 landfill gas emission was approximately 32% higher than the amount of CO 2 that would have been emitted by combustion. In addition, nearly all biodegradable waste is biomass . That is, it has biological origin. This material has been formed by plants using atmospheric CO 2 typically within

2291-562: Is the largest user in thermal treatment of municipal solid waste in the world, with 40 million tons. Some of the newest plants use stoker technology and others use the advanced oxygen enrichment technology. Several treatment plants exist worldwide using relatively novel processes such as direct smelting, the Ebara fluidization process and the Thermoselect JFE gasification and melting technology process. As of June 2014, Indonesia had

2370-430: Is to reach an acceptable (positive) gross electric efficiency. The high efficiency of converting syngas to electric power is counteracted by significant power consumption in the waste preprocessing, the consumption of large amounts of pure oxygen (which is often used as gasification agent), and gas cleaning. Another challenge becoming apparent when implementing the processes in real life is to obtain long service intervals in

2449-439: Is widely employed in many countries and offers a dual benefit: it disposes of waste while generating energy, making it an efficient process for both waste reduction and energy production. In addition to combustion, other WtE technologies focus on converting waste into fuel sources . For example, gasification and pyrolysis are processes that thermochemically decompose organic materials in the absence of oxygen to produce syngas,

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2528-606: The Upper Cape Regional Transfer Station and the Yarmouth-Barnstable Regional Transfer Station were constructed to consolidate trash receipts and minimize the number of garbage trucks making round trips between their respective towns and SEMASS. The goal was to conserve fuel, lower transportation costs, reduce vehicle exhaust pollution, and mitigate traffic congestion on and near the two bridges spanning

2607-614: The Cape Cod Canal . Massachusetts Coastal Railroad , is the rail service provider for the facility. The towns served by the station had 30-year disposal contracts with SEMASS that expired between 2015 and 2016. By 2013 the per-ton rates paid by the towns were all well below market rates. Six towns, Brewster, Chatham, Eastham, Sandwich, Truro, and Yarmouth, renewed with SEMASS, but a competitor, ABC Disposal Service of New Bedford, signed up seven other towns, Barnstable, Dennis, Harwich, Mashpee, Orleans, Provincetown, and Wellfleet, with

2686-509: The Fischer–Tropsch process into synthetic fuel . For some materials gasification can be an alternative to landfilling and incineration , resulting in lowered emissions of atmospheric pollutants such as methane and particulates . Some gasification processes aim at refining out corrosive ash elements such as chloride and potassium , allowing clean gas production from otherwise problematic feedstock material. Gasification of fossil fuels

2765-615: The Xe than (literally, "coal car" in Vietnamese ) was a minibus that has been converted to run on coal instead of gasoline . This modification regained popularity in Vietnam during the subsidy period , when gasoline was in short supply. Xe than became much less common during the Đổi Mới period, when gasoline became widely accessible again. In a gasifier, the carbonaceous material undergoes several different processes: In essence,

2844-518: The residence time of the reactive gases and organic materials, as well as heat and pressure. Catalysts are used in more sophisticated reactors to improve reaction rates, thus moving the system closer to the reaction equilibrium for a fixed residence time. Several types of gasifiers are currently available for commercial use: counter-current fixed bed, co-current fixed bed, fluidized bed , entrained flow, plasma, and free radical. A fixed bed of carbonaceous fuel (e.g. coal or biomass) through which

2923-415: The "gasification agent" (steam, oxygen and/or air) flows in counter-current configuration. The ash is either removed in the dry condition or as a slag . The slagging gasifiers have a lower ratio of steam to carbon, achieving temperatures higher than the ash fusion temperature. The nature of the gasifier means that the fuel must have high mechanical strength and must ideally be non-caking so that it will form

3002-792: The 18th century.... Development technologies for processing [residual solid mixed waste] has only become a focus of attention in recent years stimulated by the search for more efficient energy recovery. (2004) Incineration, the combustion of organic material such as waste with energy recovery, is the most common WtE implementation. All new WtE plants in OECD countries incinerating waste (residual MSW , commercial, industrial or RDF ) must meet strict emission standards, including those on nitrogen oxides (NO x ), sulphur dioxide (SO 2 ), heavy metals and dioxins . Hence, modern incineration plants are vastly different from old types, some of which neither recovered energy nor materials. Modern incinerators reduce

3081-410: The 1980s were reported to cause environmental degradation by turning rain into acid rain . Modern incinerators incorporate carefully engineered primary and secondary burn chambers, and controlled burners designed to burn completely with the lowest possible emissions, eliminating, in some cases, the need for lime scrubbers and electro-static precipitators on smokestacks. By passing the smoke through

3160-467: The 1990s are now entering commercial service. In small business and building applications, where the wood source is sustainable, 250–1000 kWe and new zero carbon biomass gasification plants have been installed in Europe that produce tar free syngas from wood and burn it in reciprocating engines connected to a generator with heat recovery. This type of plant is often referred to as a wood biomass CHP unit but

3239-493: The German Environmental Ministry, "because of stringent regulations, waste incineration plants are no longer significant in terms of emissions of dioxins, dust, and heavy metals". Compared with other waste to energy technologies, incineration seems to be the most attractive due to its higher power production efficiency, lower investment costs, and lower emission rates. Additionally, incineration yields

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3318-1015: The Hurlburt Field Florida Special Operations Command Air Force base. The plant, which cost $ 7.4 million to construct, was closed and sold at a government liquidation auction in May 2013. The opening bid was $ 25. The winning bid was sealed. In December 2022, the Sierra BioFuels Plant opened in Reno, Nevada, converting landfill waste to synthetic crude oil. Syngas can be used for heat production and for generation of mechanical and electrical power. Like other gaseous fuels, producer gas gives greater control over power levels when compared to solid fuels, leading to more efficient and cleaner operation. Syngas can also be used for further processing to liquid fuels or chemicals. Gasifiers offer

3397-662: The Rockingham Industrial Zone, roughly 45 kilometres south of Perth will see a 29 MW plant built with capacity to power 40,000 homes from an annual feedstock of 300,000 tonnes of municipal, industrial and commercial rubbish. As well as supplying electricity to the South West Interconnected System, 25 MW of the plant’s output has already been committed under a power purchase agreement. The Reppie waste to energy plant in Ethiopia

3476-718: The United States, there is already an equivalent carbon 14 method under the standard method ASTM D6866. The second method (so-called balance method ) employs existing data on materials composition and operating conditions of the WtE plant and calculates the most probable result based on a mathematical-statistical model. Currently the balance method is installed at three Austrian and eight Danish incinerators. A comparison between both methods carried out at three full-scale incinerators in Switzerland showed that both methods came to

3555-572: The ash is produced either as a very fine dry fly ash or as a black colored fly ash slurry. Some fuels, in particular certain types of biomasses, can form slag that is corrosive for ceramic inner walls that serve to protect the gasifier outer wall. However some entrained flow type of gasifiers do not possess a ceramic inner wall but have an inner water or steam cooled wall covered with partially solidified slag. These types of gasifiers do not suffer from corrosive slags. Some fuels have ashes with very high ash fusion temperatures. In this case mostly limestone

3634-419: The ash. In some gasification processes (slagging gasification) this ash has the form of a glassy solid with low leaching properties, but the net power production in slagging gasification is low (sometimes negative) and costs are higher. Regardless of the final fuel form, gasification itself and subsequent processing neither directly emits nor traps greenhouse gases such as carbon dioxide. Power consumption in

3713-541: The basic lime scrubbers, any acids that might be in the smoke are neutralized which prevents the acid from reaching the atmosphere and hurting the environment. Many other devices, such as fabric filters, reactors, and catalysts destroy or capture other regulated pollutants. According to the New York Times, modern incineration plants are so clean that "many times more dioxin is now released from home fireplaces and backyard barbecues than from incineration". According to

3792-571: The claims of project proponents did not withstand public and governmental scrutiny of key claims," according to the Global Alliance for Incinerator Alternatives. One facility which operated from 2009–2011 in Ottawa had 29 "emissions incidents" and 13 "spills" over those three years. It was also only able to operate roughly 25% of the time. Several waste gasification processes have been proposed, but few have yet been built and tested, and only

3871-536: The combined process self-sustaining. In thermal WtE technologies, nearly all of the carbon content in the waste is emitted as carbon dioxide (CO 2 ) to the atmosphere (when including final combustion of the products from pyrolysis and gasification; except when producing biochar for fertilizer). Municipal solid waste (MSW) contain approximately the same mass fraction of carbon as CO 2 itself (27%), so treatment of 1 metric ton (1.1 short tons) of MSW produce approximately 1 metric ton (1.1 short tons) of CO 2 . In

3950-445: The community. According to a 2019 United Nations Environment Programme report, there are 589 WtE plants in Europe and 82 in the United States. The following are some examples of WtE plants. A single plant is currently under construction: The US Air Force once tested a Transportable Plasma Waste to Energy System (TPWES) facility (PyroGenesis technology) at Hurlburt Field, Florida. The plant, which cost $ 7.4 million to construct,

4029-462: The contribution of carbon capture and storage . Power generation using plastic waste will significantly increase by 2050. Carbon must be separated during energy recovery processes. Otherwise, the fight against global warming would fail due to plastic waste. MSW to a large extent is of biological origin (biogenic), e.g. paper, cardboard, wood, cloth, food scraps. Typically half of the energy content in MSW

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4108-415: The converted fuel, thereby allowing higher combustion temperatures in e.g. boilers , gas turbines , internal combustion engines , fuel cells . Some advanced technologies are able to efficiently convert the energy in the feedstocks into liquid or gaseous fuels, using heat but in the absence of oxygen, without actual combustion, by using a combination of thermal technologies. Typically, they are cleaner, as

4187-424: The counter-current type, but the gasification agent gas flows in co-current configuration with the fuel (downwards, hence the name "down draft gasifier"). Heat needs to be added to the upper part of the bed, either by combusting small amounts of the fuel or from external heat sources. The produced gas leaves the gasifier at a high temperature, and most of this heat is often transferred to the gasification agent added in

4266-478: The end of the 19th century when it was replaced with electrical lighting. Gasification and syngas continued to be used in blast furnaces and more significantly in the production of synthetic chemicals where it has been in use since the 1920s. The thousands of sites left toxic residue. Some sites have been remediated, while others are still polluted. During both world wars , especially the World War II ,

4345-593: The engines may be used for e.g. driving water pumps for irrigation or for coupling with an alternator for electrical power generation. While small scale gasifiers have existed for well over 100 years, there have been few sources to obtain a ready-to-use machine. Small scale devices are typically DIY projects. However, currently in the United States, several companies offer gasifiers to operate small engines. In principle, gasification can proceed from just about any organic material, including biomass and plastic waste . The resulting syngas can be combusted. Alternatively, if

4424-485: The event that the waste was landfilled , 1 metric ton (1.1 short tons) of MSW would produce approximately 62 cubic metres (2,200 cu ft) methane via the anaerobic decomposition of the biodegradable part of the waste. This amount of methane has more than twice the global warming potential than the 1 metric ton (1.1 short tons) of CO 2 , which would have been produced by combustion. In some countries, large amounts of landfill gas are collected. However, there

4503-458: The feedstock is separated prior to treatment to remove the unwanted components: Thermal treatment technologies include: Non-thermal technologies: During the 2001–2007 period, the waste-to-energy capacity increased by about four million metric tons per year. Japan and China each built several plants based on direct smelting or on fluidized bed combustion of solid waste. In China there were about 434 waste-to-energy plants in early 2016. Japan

4582-406: The fermentation process, the sugar in the waste is converted to carbon dioxide and alcohol, in the same general process that is used to make wine. Normally fermentation occurs with no air present. Esterification can also be done using waste-to-energy technologies, and the result of this process is biodiesel . The cost-effectiveness of esterification will depend on the feedstock being used, and all

4661-551: The fuel must be highly reactive; low-grade coals are particularly suitable. The agglomerating gasifiers have slightly higher temperatures, and are suitable for higher rank coals. Fuel throughput is higher than for the fixed bed, but not as high as for the entrained flow gasifier. The conversion efficiency can be rather low due to elutriation of carbonaceous material. Recycle or subsequent combustion of solids can be used to increase conversion. Fluidized bed gasifiers are most useful for fuels that form highly corrosive ash that would damage

4740-444: The gasification and syngas conversion processes may be significant though, and may indirectly cause CO 2 emissions; in slagging and plasma gasification, the electricity consumption may even exceed any power production from the syngas. Combustion of syngas or derived fuels emits exactly the same amount of carbon dioxide as would have been emitted from direct combustion of the initial fuel. Biomass gasification and combustion could play

4819-421: The highest amount of electricity with the highest capacity to lessen pile of wastes in landfills through direct combustion. One process that is used to convert plastic into fuel is pyrolysis , the thermal decomposition of materials at high temperatures in an inert atmosphere. It involves change of chemical composition and is mainly used for treatment of organic materials. In large scale production, plastic waste

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4898-672: The information they look for when considering such proposals. A 2019 report commissioned by the Global Alliance for Incinerator Alternatives (GAIA), done by the Tishman Environment and Design Center at The New School , found that 79% of the then 73 operating waste-to-energy facilities in the U.S. are located in low-income communities and/or "communities of color", because "of historic residential, racial segregation and expulsive zoning laws that allowed whiter, wealthier communities to exclude industrial uses and people of color from their boundaries." In Chester, Pennsylvania , where

4977-614: 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 WtE of the biomass part of waste as renewable energy . The rest—mainly plastics and other oil and gas derived products—is generally treated as non-renewables . The CO 2 emissions from plastic waste-to-energy systems are higher than those from current fossil fuel-based power systems per unit of power generated, even after considering

5056-455: The need for fuel produced by gasification reemerged due to the shortage of petroleum. Wood gas generators , called Gasogene or Gazogène, were used to power motor vehicles in Europe . By 1945 there were trucks, buses and agricultural machines that were powered by gasification. It is estimated that there were close to 9,000,000 vehicles running on producer gas all over the world. Another example,

5135-695: The one commissioned by the Renewable Energy Association in the UK, have been published that demonstrate how the carbon 14 result can be used to calculate the biomass calorific value. The UK gas and electricity markets authority, Ofgem , released a statement in 2011 accepting the use of Carbon 14 as a way to determine the biomass energy content of waste feedstock under their administration of the Renewables Obligation. Their Fuel Measurement and Sampling (FMS) questionnaire describes

5214-414: The other relevant factors such as transportation distance, amount of oil present in the feedstock, and others. Gasification and pyrolysis by now can reach gross thermal conversion efficiencies (fuel to gas) up to 75%, however, a complete combustion is superior in terms of fuel conversion efficiency. Some pyrolysis processes need an outside heat source which may be supplied by the gasification process, making

5293-422: The plants, so that it is not necessary to close down the plant every few months for cleaning the reactor. Environmental advocates have called gasification "incineration in disguise" and argue that the technology is still dangerous to air quality and public health. "Since 2003 numerous proposals for waste treatment facilities hoping to use... gasification technologies failed to receive final approval to operate when

5372-409: The propane yield is approximately 80%. There are a number of other new and emerging technologies that are able to produce energy from waste and other fuels without direct combustion. Many of these technologies have the potential to produce more electric power from the same amount of fuel than would be possible by direct combustion. This is mainly due to the separation of corrosive components (ash) from

5451-444: The reactor. In the gasification of fine, undensified biomass such as rice hulls , it is necessary to blow air into the reactor by means of a fan. This creates very high gasification temperature, as high as 1000 C. Above the gasification zone, a bed of fine and hot char is formed, and as the gas is blow forced through this bed, most complex hydrocarbons are broken down into simple components of hydrogen and carbon monoxide. Similar to

5530-563: The same results. Carbon 14 dating can determine with precision the biomass fraction of waste, and also determine the biomass calorific value . Determining the calorific value is important for green certificate programs such as the Renewable Obligation Certificate program in the United Kingdom. These programs award certificates based on the energy produced from biomass. Several research papers, including

5609-477: The syngas is clean enough, it may be used for power production in gas engines, gas turbines or even fuel cells, or converted efficiently to dimethyl ether (DME) by methanol dehydration, methane via the Sabatier reaction , or diesel-like synthetic fuel via the Fischer–Tropsch process . In many gasification processes most of the inorganic components of the input material, such as metals and minerals, are retained in

5688-461: The syngas produced by most gasification systems requires additional processing and reforming to remove the contaminants and other gases such as CO and CO 2 to be suitable for low-temperature fuel cell use, but high-temperature solid oxide fuel cells are capable of directly accepting mixtures of H 2 , CO, CO 2 , steam, and methane. Syngas is most commonly burned directly in gas engines , used to produce methanol and hydrogen, or converted via

5767-406: The top of the bed, resulting in an energy efficiency on level with the counter-current type. Since all tars must pass through a hot bed of char in this configuration, tar levels are much lower than the counter-current type. The fuel is fluidized in oxygen and steam or air. The ash is removed dry or as heavy agglomerates that defluidize. The temperatures are relatively low in dry ash gasifiers, so

5846-658: The volume of the original waste by 95-96 percent, depending upon composition and degree of recovery of materials such as metals from the ash for recycling. Incinerators may emit fine particulate , heavy metals, trace dioxin and acid gas , even though these emissions are relatively low from modern incinerators. Other concerns include proper management of residues: toxic fly ash , which must be handled in hazardous waste disposal installation as well as incinerator bottom ash (IBA), which must be reused properly. Critics argue that incinerators destroy valuable resources and they may reduce incentives for recycling. The question, however,

5925-597: The walls of slagging gasifiers. Biomass fuels generally contain high levels of corrosive ash. Fluidized bed gasifiers uses inert bed material at a fluidized state which enhance the heat and biomass distribution inside a gasifier. At a fluidized state, the superficial fluid velocity is greater than the minimum fluidization velocity required to lift the bed material against the weight of the bed. Fluidized bed gasifiers are divided into Bubbling Fluidized Bed (BFB), Circulating Fluidized Bed (CFB) and Dual Fluidized Bed (DFB) gasifiers. A dry pulverized solid, an atomized liquid fuel or

6004-553: Was closed and sold at a government liquidation auction in May 2013, less than three years after its commissioning. The opening bid was $ 25. The winning bid was sealed. Besides large plants, domestic waste-to-energy incinerators also exist. For example, the Refuge de Sarenne has a domestic waste-to-energy plant. It is made by combining a wood-fired gasification boiler with a Stirling motor . Renergi will scale up their system of converting waste organic materials into liquid fuels using

6083-536: Was designed to demonstrate gasification of specific non-MSW waste streams using liquid metal gasification . This facility came after widespread public opposition shelved plans for a similar plant in Attleboro, Massachusetts . Today Ze-gen appears to be defunct, and the company website was taken down in 2014. Also in the US, in 2011 a plasma system delivered by PyroGenesis Canada Inc. was tested to gasify municipal solid waste, hazardous waste and biomedical waste at

6162-413: Was published in 2010. Since each method suffered from limitations in properly characterizing the biomass fraction, two alternative methods have been developed. The first method uses the principles of radiocarbon dating . A technical review (CEN/TR 15591:2007) outlining the carbon 14 method was published in 2007. A technical standard of the carbon dating method (CEN/TS 15747:2008) is published in 2008. In

6241-492: Was the first such plant in Africa. The plant became operational in 2018. Gasification An advantage of gasification is that syngas can be more efficient than direct combustion of the original feedstock material because it can be combusted at higher temperatures so that the thermodynamic upper limit to the efficiency defined by Carnot's rule is higher. Syngas may also be used as the hydrogen source in fuel cells, however

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