The liquefaction process (coal was the feedstock of choice for many decades in the twentieth century) is a process used to convert a solid fuel into a substitute for liquid fuels such as diesel and gasoline. Coal liquefaction has historically been used in countries without a secure supply of petroleum, such as Germany (during World War II) and ...
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In this study, coal fly ash was functionalized, using a simple onestep process (loading with Al3+ and sulfonation), to yield a solid acid catalyst (S/AlCFA) with strong acid sites. The catalyst was then used to produce furfural from xylose in a biphasic system (H2O(NaCl)/tetrahydrofuran). The furfural yield reached 82% at 180 °C60 min with catalyst/xylose ratio of : (w/w). With the ...
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Coal liquefaction is a process used to turn coal, a solid fuel, into a substitute for liquid fuels such as diesel and gasoline. This process has historically been used in countries without a secure supply of crude oil, such as Germany and South technology used in the process is quite old, and was first implemented during the 19th century to provide gas for indoor lighting.
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A twostage direct. Indirect Coal Liquefaction. 22. • The process begins with the gasification of coal • reacting coal with steam and oxygen at elevated temperatures (1,000 to 1,500 degrees Celsius) and moderate pressure (~500 pounds per square inch [psi]) • The naphtha product is basically a very low octane (, about 40 octane ...
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Other articles where process is discussed: coal utilization: The FischerTropsch process: .1950s in South Africa (the process) and now supplies as much as onethird of that country's liquid fuels. ... coal liquefaction process. Learn about this topic in these articles: coal processing. In coal utilization: The FischerTropsch ...
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In coal liquefaction process initial coal particle size can be considered as one of the important process parameters. In this work, particles of coal are prepared by pulverisation and separation ...
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The direct coal liquefaction process usually produces a liquefaction residue of about 30% of its coal feed. The effective utilization of the coal liquefaction residue (CLR), which contains about 80% organic matter, is of great significance for improving the oil yield of the direct liquefaction process and reducing the amount of pollution emitted from this oilcontaining organic solid waste.
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the process to dissolve the coal and to transfer externally produced hydrogen to the coal molecules. Catalytic liquefaction resembles solvent extraction, except that hydrogen is added to the coal with the aid of a catalyst. Figure presents the flow diagram of a typical solvent extraction or catalytic liquefaction plant. These coal ...
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A Generalizations All direct coal liquefaction methods, such as HCoal, SolventRefined Coal, and Exxon Donor Solvent processes, are alike in one principal point: coal is thermally solubilized with certain solvents, usually coalderived, with or without catalysts. If heated in a proper liquid for a short time, most of the coal dissolves.
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The DCL process produces considerably highvariety and efficient products at low temperatures compared to the indirect coal liquefaction process. Generally, Fig. 1 shows the distinct difference between the direct and indirect liquefaction processes. Importantly, DCL consists of many steps for the conversion of coal to PA (preasphaltenes) and ...
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Fig. 12 shows the total costs of the whole coal liquefaction process together with the costs of four major parts: coal price, (coal) transportation, DCL production and distribution. Among three, "DCL_R" is the most economical one, the price of which is only two third of "DCL_H". For "DCL_H" and "DCL_R", the price caused by the ...
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A coal liquefaction pilot plant of the NEDOL process, supported by the New Energy and Industrial Technology Development Organization (NEDO), was in successful operation for a total of 269 days at Kashima, Japan. The liquefaction section consisted of three reactors, 1 m in diameter, connected in series, and processed 150 tons of coal per day.
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The process typically uses the technique of heating under pressure (up to 470°C, 200 bar) and hydrogenation where hydrogen is added to a coalwater slurry. The slurry increases the H/C ratio to a crude oil level and removes impurities such as sulfur, nitrogen, and oxygen.
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Direct coal liquefaction test plants have been constructed and successfully operated under subsidies from the New Energy and Industrial Technology Development Organization. To analyze the data, which had been collected on these plants, a simulator was constructed for the material and enthalpy balances in the preheaters and reactors. This simulator was evaluated in a process supporting unit ...
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History. In the past, coal was converted to make coal gas, which was piped to customers to burn for illumination, heating, and cooking. High prices of oil and natural gas led to increased interest in "BTU Conversion" technologies such as gasification, methanation and liquefaction. The Synthetic Fuels Corporation was a governmentfunded corporation established in 1980 to create a market ...
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The products obtained through this process were defined as synthetic because the coal feedstock undergoes different stages of heating, cooling, pressure, catalysis, enrichment, gasification and finally liquefaction. The Bergius process allowed the conversion of coals, tars, and other solid or liquid carbonaceous substances into highgrade ...
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Direct coal liquefaction involves contacting coal directly with a catalyst at elevated temperatures and pressures with added hydrogen (H 2 ), in the presence of a solvent to form a raw liquid product which is further refined into product liquid fuels.
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Process. The Exxon donor solvent process is a noncatalytic processing of solventslurried coal in a highpressure liquefaction reactor. Coal is cleaned, crushed and fed to the slurry dryer, where water is removed. The dry crushed coal is slurried with the hydrogen donor recycle solvent. The coal slurry is treated with hydrogen and heated in a ...
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The development of diagnostic instrumentation for monitoring coal liquefaction process streams is discussed. A sapphire optical fiber was used as an attenuated total reflectance (ATR) element in conjunction with Fourier transform infrared (FTIR) spectrometry to probe harsh liquefaction process streams. ATR provides a short, reproducible ...
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Coal Authority. Mine water is a plentiful source of heat, warmed by geological processes below ground (Credit: Coal Authority) A quarter of the UK's homes sit above abandoned coal mines, long ...
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also routes for direct conversion of coal into liquids (, direct coal liquefaction [DL]) involving reaction of coal at high pressures and temperatures with hydrogen (H 2 ) in the presence of solvents and catalysts, yielding synthetic crude oil that can be refined into liquid fuels.
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Liquefaction. Coal liquefaction is a process of converting coal into liquid fuels or petrochemicals. There are several processes to accomplish this task. The two most common are the indirect route and the direct route [58, 59].
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3. Features of NEDOL Process˜ The NEDOL Process is a coal liquefaction process developed exclusively in Japan. The process has integrated the advantages of three bituminous liquefaction processes (Direct Hydrogenation Process, Solvent Extraction Process, and Solvolysis Process), thus providing superiority in both technology and economics. The
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Coal liquefaction residue is the solid waste from the liquefaction system and accounts for about 2530% of the feed. 4 Thermal conversion through gasification is a better way to deal with this ... Zhang Y. Novel Use of Residue from Direct Coal Liquefaction Process. Energy Fuels 2009, 23, . /ef. [Google ...
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The catalyst is withdrawn from a coal hydroliquefaction reactor while it is maintained on stream by withdrawing a portion of the catalyst, in a separate stream, dispersed in product from the liquefaction zone, with such withdrawn stream being further diluted with liquid recovered from the main product stream to reduce the catalyst concentration.
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Coal liquefaction is the process of making a liquid fuel from coal. The fundamental difference between coal, a solid, and liquid fuels is that the liquid fuels have a higher hydrogen:carbon ratio. Liquid fuels have lower ash contents and are easier to upgrade (, to remove unwanted impurities such as nitrogen and sulfur).
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The process involves gasification of coal, which in turn will produce synthetic gas (a mix of CO+H2). The synthetic gas can be liquefied to its fuel equivalent in presence of cobalt/ironbased catalysts at higher pressure and temperature. However, liquefied coal emits twice as much CO2 as burning oil. It also emits a large volume of SO2.
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The aim of this study is to investigate the transformation of hydrogendonor solvent tetralin in the direct liquefaction process of coal. Pure tetralin liquid as well as mixture of tetralin and Wucaiwan coal (WCW) were separately reacted under a liquefaction condition, and constituents of liquid product were analyzed by GCMS. The results show that after the tetralin liquid reacts with high ...
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Coal Liquefaction: It is a process in which coal is converted into liquid fuels or petrochemicals. There are several processes used to accomplish this task, the two most common being the "indirect route" and the "direct route". Indirect Route: It is composed of 2 steps: First, coal is gasified with steam and oxygen to produce .
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Brown coal liquefaction technology is intended realize the liquefaction of brown coal of Victoria, Australia, with the object of utilizing it as an energy resource. Research and Development was started in 1981 with a 50 t/d pilot plant in Victoria province. Fig. shows the process. The initial goals of the project, 50% liquid fuel yield (actual result was 52%) and longterm operation with ...
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Indirect liquefaction processes require first gasifying the solid feedstocks into a syngas. Therefore, while direct coal liquefaction (DCL) takes coal directly into a liquid phase, indirect coal liquefaction (ICL) consists of two major steps: (a) gasification to produce a synthesis gas (syngas); and (b) conversion of the carbon monoxide (CO) and hydrogen (H 2) in the syngas to a range of ...
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Coal resources have been used to produce liquid transportation fuels by several process routes, collectively referred to as coal liquefaction or, more generally stated, as Coal to Liquids (CTL). Early records of coal conversion to liquid fuel date to 1913 and an extraction process developed by Friedrich Bergius in Germany [ 7 ].
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The effective utilization of the coal liquefaction residue (CLR), which contains about 80% organic matter, is of great significance for improving the oil yield of the direct liquefaction process ...
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One of several direct liquefaction processes currently under advanced stages of development is the SolventRefined CoalI (SRCI) process. A major SRC1 product option is a low sulfur, low ash solid (SRC) which could be used as an electric utility boiler fuel much in the same manner that pulverized coal is currently fired in this type of combustion equipment.
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A material supplier from Belgium would like to produce limestone powder for his custome...
India is rich in various mineral resources and it is an important mineral processing market
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