Thermodynamic Analysis and Optimization for the Coal-Based Clean Liquid Fuel Synthesis Process

Chu Fu Li

doi:10.4028/www.scientific.net/AMR.953-954.1269

Paper Titles

Chemical Exchange Reactions in Blends of the Biodegradable Polyester with poly(hydroxy ether of bisphenol-A)
p.1246

Modeling of a Ten-Particle Char Cluster Interactive Combustion
p.1250

The Investigation on Fragmentation Behavior of Lignite Coal during Fluidized Bed Pyrolysis
p.1254

The Progress of Catalyst for Cyclohexane Dehydrogenation Processes
p.1261

Thermodynamic Analysis and Optimization for the Coal-Based Clean Liquid Fuel Synthesis Process
p.1269

A Method for Calculation the Effective Adsorption Capacity of a Long Adsorption Band-Filled Column
p.1273

Electrochemical Impedance Characterization of Porous Aluminum Oxide after Different Stages of Two-Step Anodization
p.1282

Probe into CO₂-Coal Interactions with Differential Scanning Calorimetry
p.1286

Effects of Static Magnetic Field on Phosphate Buffer Solution
p.1293

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 953-954Thermodynamic Analysis and Optimization for the...

Thermodynamic Analysis and Optimization for the Coal-Based Clean Liquid Fuel Synthesis Process

Abstract:

This work makes thermodynamic analysis and optimization for the coal-based Fischer-Tropsch (FT) process. The thermodynamic analysis results show that under standard conditions the maximum effective carbon conversion is 50% from raw coal (CH_0.8O_0.1) to hydrocarbon products, and at least 50% carbon is converted into CO₂ emission in the coal-based FT process. Subsequently, a new coal-based FT synthesis process is proposed to get minimum water consumption, minimum wastewater emission and maximum energy efficiency. The process contains a pulverized coal gasification unit, water-gas-shift unit and iron-based FT synthesis unit with 50% CO₂ selectivity. The H₂/CO molar ratio of fresh syngas to the FT synthesis unit is 0.5. The carbon and water footprints analysis results indicate that the effective carbon conversion from raw coal to hydrocarbon products is about 46.0%, and it only consumes 0.102 molar water and generates 0.032 molar wastewater when converts 1 molar coal to hydrocarbon products in the process.