The product distribution and reaction mechanism of steam pyrolysis of Longkou oil shale kerogen was researched by molecular dynamics simulation. Molecule structural model used in the simulation was constructed according to the analysis results of a series of detection about kerogen extracted from Longkou oil shale. Reactive force field molecular dynamics (ReaxFF MD) was used to simulate both steam pyrolysis and direct pyrolysis process of the kerogen at the temperature of 1600, 2000, 2400 and 2800 K. The results show that temperature is a critical factor affecting product distribution in steam pyrolysis, and 2000 K is a proper set temperature for studying steam pyrolysis via molecular simulation method. Besides that, adding the H2O molecule...
Two structural models for pyrolysis and hydrothermal treatment of lignite were constructed to invest...
Deep understanding of the detailed coal pyrolysis process is very important for clean coal utilizati...
Mechanisms investigation of coal pyrolysis will aid efficient and clean coal conversion and utilizat...
The product distribution and reaction mechanism of steam pyrolysis of Longkou oil shale kerogen was ...
The chemical mechanisms and product distribution in the process of oil shale kerogen pyrolysis wer...
The product distribution and organic sulfur removal during direct pyrolysis and hydropyrolysis of oi...
Kerogens are extracted from deep shales to study pyrolysis of deep shale samples. The 2D molecular m...
ABS T R A C T Kerogen is the most abundant source of natural organic matter in the world, and the re...
Kerogen, the insoluble fraction of sedimentary organic matter, is a complex mixing of organic macrom...
Oil shale, which is composed of abundant organic matter called kerogen, is a vast energy source. Pyr...
The hydrous thermo-simulation experiments on oil shale sample from Liushuhe basin have been performe...
Oil shales are sedimentary rocks containing organic matter in the form of Kerogen which accounts for...
Oil shale is one of the largest, relatively undeveloped natural fossil fuel resources in the world a...
International audienceThe process by which organic matter decomposes deep underground to form petrol...
A series of molecular dynamics simulations using the ReaxFF reactive force field was carried out to ...
Two structural models for pyrolysis and hydrothermal treatment of lignite were constructed to invest...
Deep understanding of the detailed coal pyrolysis process is very important for clean coal utilizati...
Mechanisms investigation of coal pyrolysis will aid efficient and clean coal conversion and utilizat...
The product distribution and reaction mechanism of steam pyrolysis of Longkou oil shale kerogen was ...
The chemical mechanisms and product distribution in the process of oil shale kerogen pyrolysis wer...
The product distribution and organic sulfur removal during direct pyrolysis and hydropyrolysis of oi...
Kerogens are extracted from deep shales to study pyrolysis of deep shale samples. The 2D molecular m...
ABS T R A C T Kerogen is the most abundant source of natural organic matter in the world, and the re...
Kerogen, the insoluble fraction of sedimentary organic matter, is a complex mixing of organic macrom...
Oil shale, which is composed of abundant organic matter called kerogen, is a vast energy source. Pyr...
The hydrous thermo-simulation experiments on oil shale sample from Liushuhe basin have been performe...
Oil shales are sedimentary rocks containing organic matter in the form of Kerogen which accounts for...
Oil shale is one of the largest, relatively undeveloped natural fossil fuel resources in the world a...
International audienceThe process by which organic matter decomposes deep underground to form petrol...
A series of molecular dynamics simulations using the ReaxFF reactive force field was carried out to ...
Two structural models for pyrolysis and hydrothermal treatment of lignite were constructed to invest...
Deep understanding of the detailed coal pyrolysis process is very important for clean coal utilizati...
Mechanisms investigation of coal pyrolysis will aid efficient and clean coal conversion and utilizat...