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Thermodynamic analysis of small-scale dimethyl ether (DME) and methanol plants based on the efficient two-stage gasifier

机译：基于高效两级气化炉的小型二甲醚（DmE）和甲醇装置的热力学分析

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Models of dimethyl ether (DME) and methanol synthesis plants have been designed by combining the features of the simulation tools DNA and Aspen Plus. The plants produce DME or methanol by catalytic conversion of a syngas generated by gasification of woody biomass. Electricity is co-produced in the plants by a gas engine utilizing the unconverted syngas. A two-stage gasifier with a cold gas efficiency of 93% is used, but because of the design of this type of gasifier, the plants have to be of small-scale (5 MWth biomass input). The plant models show energy efficiencies from biomass to DME/methanol + electricity of 51–58% (LHV), which shows to be 6-8%-points lower than efficiencies achievable on large-scale plants based on torrefied biomass pellets. By using waste heat from the plants for district heating, the total energy efficiencies become 87–88%.

机译：通过结合模拟工具DNA和Aspen Plus的功能，设计了二甲醚（DME）和甲醇合成装置的模型。这些植物通过将木质生物质气化而生成的合成气进行催化转化来生产DME或甲醇。气体发动机利用未转化的合成气在工厂中共同产生电力。使用具有93％的冷气效率的两级气化炉，但是由于这种类型的气化炉的设计，工厂必须是小型工厂（输入5 MWth的生物质）。该工厂模型显示，从生物质到二甲醚/甲醇+电力的能源效率为51-58％（LHV），这比基于烘焙过的生物质颗粒的大型工厂的能源效率低6-8％。通过将工厂的余热用于区域供热，总能效达到87-88％。

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Clausen Lasse Røngaard; Elmegaard Brian; Ahrenfeldt Jesper; Henriksen Ulrik Birk;
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年度 2011
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正文语种 eng
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1. Thermodynamic analysis of small-scale dimethyl ether (DME) and methanol plants based on the efficient two-stage gasifier [J] . Lasse R. Clausen, Brian Elmegaard, Jesper Ahrenfeldt, Energy . 2011,第10期

机译：基于高效两级气化炉的小型二甲醚和甲醇装置的热力学分析
2. Technoeconomic analysis of a low CO_2 emission dimethyl ether (DME) plant based on gasification of torrefied biomass [J] . Lasse R. Clausen, Brian Elmegaard, Niels Houbak Energy . 2010,第12期

机译：基于烘焙生物质气化的低CO_2排放二甲醚（DME）工厂的技术经济分析
3. Gasification process integration with existing combined heat and power plants for polygeneration of dimethyl ether or methanol: A detailed profitability analysis [J] . Chaudhary Awais Salman, Muhammad Naqvi, Eva Thorin, Applied Energy . 2018,第SEPa15期

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4. Synthesis of dimethyl ether (DME) and methanol via high-temperature co-electrolysis of steam and carbon dioxide: process design and plant energy performance [C] . F. Salvati, A. S. Pedersen, P. Leone European SOCF SOE Forum . 2014

机译：通过高温协作的蒸汽和二氧化碳合成二甲醚（DME）和甲醇：工艺设计和植物能量性能
5. FLUID PHASE EQUILIBRIA STUDIES FOR THE BINARY SYSTEMS CARBON DIOXIDE/N-BUTANE, DIMETHYL ETHER/N-BUTANE AND DIMETHYL ETHER/1-BUTENE (THERMODYNAMICS). [D] . POZO, MARIA ELENA. 1986

机译：二氧化碳/正丁烷，二甲醚/正丁烷和二甲醚/ 1-丁烯二元体系的流体相平衡研究（热力学）。
6. CO2 hydrogenation to methanol and dimethyl ether at atmospheric pressure using Cu-Ho-Ga/γ–Al2O3 and Cu-Ho-Ga/ZSM-5: Experimental study and thermodynamic analysis [O] . Cansu TUYGUN, Bahar İPEK 2021

机译：Cu-Ho-Ga /γ-Al2O3和Cu-Ho-Ga / ZSM-5在大气压下在大气压下将CO 2氢化与甲醇和二甲醚氢化：实验研究和热力学分析
7. Technoeconomic analysis of a low CO2 emission dimethyl ether (DME) plant based on gasification of torrefied biomass [O] . Clausen Lasse Røngaard, Elmegaard Brian, Houbak Niels 2010

机译：基于烘焙生物质气化的低二氧化碳排放二甲醚（DmE）装置的技术经济分析
8. A Variable-Temperature Nuclear Magnetic Resonance Study of Complexes of Borane and Boron Trihalides with Acetone, Diethyl Ether, Dimethyl Ether, N,N-Dimethylformamide, Methanol, and Tetrahydrofuran. [R] . Fratiello, A., Onak, T. P., Schuster, R. E. 1968

机译：硼烷和三卤化硼配合物与丙酮，二乙醚，二甲醚，N，N-二甲基甲酰胺，甲醇和四氢呋喃的可变温度核磁共振研究。

Thermodynamic analysis of small-scale dimethyl ether (DME) and methanol plants based on the efficient two-stage gasifier

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