Direct coal liquefaction (DCL) commonly refers to catalytic hydrogenation of coal in a recycled oil solvent at high pressures with a catalyst. While a range of process configurations have been proposed, the most common version involves at least two high pressure slurry reactors in a series using a dispersed ironbased catalyst and hydrogen ...
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A previous paper has shown that direct coal liquefaction in the absence of a catalyst consists of two distinct stages which are readily ... A kinetic model for the liquefaction processes based on these observations is introduced. ... Direct liquefaction (DCL) processes and technology for coal and biomass conversion. 2011, 105154. https://doi ...
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Coal Liquefaction Technology and Status ... Coal Conversion Processes Carbonization and Pyrolysis Low severity (mild gasification) High temperature Direct Liquefaction ... Shenhua DCL Process ; Miller EIA 2007 03/28/07 Department of Energy ; 15 ;
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For the most highly developed processes, coal conversion can be as high as 90% on a mineral ash free basis, with a C 5+ distillate yield up to 75% and hydrogen consumption of 57%wt. When an external catalyst is used, it is typically some combination of cobalt, nickel, and molybdenum on a solid acid support such as silicaalumina [].DCL process concepts have been based on a variety of ...
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Basic conversion chemistry, chemical structures of coal and lignin biomass are discussed, followed by process technologies for direct liquefaction, liquid quality, process control and modeling, advantages and limitations, and future trends.
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The conversion of coal to products soluble in tetrahydrofuran correlated strongly with the initial rate of gas uptake. The cyclohexane conversion of coal was also catalyzed. ... (DCL) processes and technology for coal and biomass conversion. 2011, 105154. ... A new process for catalytic liquefaction of coal using dispersed MoS2 catalyst ...
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Basic conversion chemistry, chemical structures of coal and lignin biomass are discussed, followed by process technologies for direct liquefaction, liquid quality, process control and modeling, advantages and limitations, and future trends.
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The term ''coaltoliquids'' (CTL) refers to conversion of solid coal into liquid fuels and chemicals through either of two principle,11 Direct coal liquefaction (DCL) involves ...
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Coal liquefaction is a process of converting coal into liquid hydrocarbons: liquid fuels and process is often known as "Coal to X" or "Carbon to X", where X can be many different hydrocarbonbased products. However, the most common process chain is "Coal to Liquid Fuels" (CTL).
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In the DCL technology, coal is converted to liquid by adding hydrogen at high pressure and temperature. Various DCL technologies have been developed in last hundred years such as Solvent Refined Coal (SRC)I and SRCII, Exxon Donor Solvent (EDS), HCoal and catalytic twostage liquefaction (CTSL) [7], [8], [9], [10].
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The growing demand for petroleum, accompanied by the declining petroleum reserves and the concerns over energy security, has intensified the interest in direct coal liquefaction (DCL), particularly in countries such as China which is rich in coal resources, but short of petroleum. In addition to a general introduction on the mechanisms and processes of DCL, this paper overviews some recent ...
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Headwaters direct coal liquefaction process. Source: Headwaters. Click to enlarge. Headwaters Inc and Axens are forming a strategic alliance to provide a singlesource solution for producing synthetic fuels by direct coal liquefaction (DCL) alone or in combination with refinery residues or biomass. The two companies will combine their technologies and...
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Coal. Direct coal liquefaction (DCL) and indirect coal liquefaction (ICL) are the two prominent processes for coaltomethanol conversion. DCL primarily involves thermal breaking of the polymeric coal structure at elevated temperatures with subsequent hydrogenation of the fragments to generate lighter molecules.
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The Energy and Environmental Research Center (EERC), in partnership with the Department of Energy (DOE) and Accelergy Corporation, an advanced fuels developer with technologies exclusively licensed from ExxonMobil, undertook Subtask to design, build, and preliminarily operate a benchscale direct coal liquefaction (DCL) system capable of converting 45 pounds/hour of pulverized, dried ...
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The use of highcarbonbased feeds to produce alternative fuels and valueadded chemicals is discussed. Basic conversion chemistry, chemical structures of coal and lignin biomass are discussed, followed by process technologies for direct liquefaction, liquid quality, process control and modeling, advantages and limitations, and future trends.
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The environmental footprint of coal liquefaction processes can usually be reduced by coprocessing coal and biomass and applying CO 2 capture and storage (CCS) technology but at the cost of higher ...
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Direct liquefaction (DCL) processes and technology for coal and biomass conversion C. B. Clifford Chunshan Song Chemistry 2011 Abstract: This chapter focuses on liquefaction of solids, primarily coal and biomass sources such as lignin. In a twostep process the molecular structure is broken into fragments and hydrogenated,. Expand 4
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Characterization of Oxygenated Species in Coal Liquefaction Products: An Overview. ... Z. R. Ismagilov. The relationship between the molecular composition of coal and the conversion of its organic matter during thermal dissolution. Carbon Letters 2022, 32 (4 ... (DCL) processes and technology for coal and biomass conversion. 2011 ...
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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 AS (asphaltenes), and subsequently to gas, oil, and residue [60]. Download : Download highres image (180KB) Download : Download fullsize image ...
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This article is cited by 42 publications. Tengfei Yang, Congcong Liu, Wenan Deng, Chuan Li, Liyong Gan, Qingshan Niu. Influence of the Iron Proportion on the Efficiency of an OilSoluble NiFe Catalyst Applied in the Coliquefaction of Lignite and Heavy Residue.
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Direct liquefaction (DCL) processes and technology for coal and biomass conversion. Burgess Clifford C., SongC., in Advances in Clean Hydrocarbon Fuel ... It is anticipated that in future thermal conversion will play an increasingly important role for biomass, coal and organic waste conversion. The topic of direct coal liquefaction was ...
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The main objective of this paper is to carry out a techno‐economic evaluation for the direct coal liquefaction (DCL) process based on the two primary conversion options under consideration: (a) catalytic coal liquefaction (CCL) the use of non‐donor solvents with added hydrogen pressure and (b) thermal coal liquefaction (TCL) the use of solvents with some H‐donor properties ...
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Coal liquefaction conversion to tetralinsoluble products was determined by changes in ash content in the partially reacted coal relative to that of the unreacted coal. ... A Novel Process of Biomass Gasification for HydrogenRich Gas with Solid Heat Carrier: Preliminary Experimental Results. ... (DCL) processes and technology for coal and ...
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The use of highcarbonbased feeds to produce alternative fuels and valueadded chemicals is discussed. Basic conversion chemistry, chemical structures of coal and lignin biomass are discussed, followed by process technologies for direct liquefaction, liquid quality, process control and modeling, advantages and limitations, and future trends.
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The environmental footprint of coal liquefaction processes can usually be reduced by coprocessing ... [18], [19]. In addition, utilization of biomass in the DCL process can reduce the external hydrogen demand in ... the carbon footprint of the energy conversion processes can be reduced by adding biomass and applying CCS technologies at the ...
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The DCL process involves adding hydrogen (hydrogenation) to the coal, breaking down its organic structure into soluble products. The reaction is carried out at elevated temperature and pressure (, 750 to 850°F and 1,000 to 2,500 psia) in the presence of a solvent. The solvent is used to facilitate coal extraction and the addition of hydrogen.
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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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