Company Filing History:
Years Active: 2014
Title: Innovations of Jianwei Huang in Carbonaceous Solid Fuel Liquefaction
Introduction
Jianwei Huang is a notable inventor based in Taiyuan, China. He has made significant contributions to the field of energy transformation, particularly in the liquefaction of carbonaceous solid fuels. His innovative methods aim to enhance the efficiency and quality of fuel production from various carbonaceous materials.
Latest Patents
Huang holds a patent for a method and equipment for multistage liquefying of carbonaceous solid fuel. This method involves transforming carbonaceous solid fuel into oil through a series of steps. It includes mixing solid fuel with heavy oil to create a fuel-oil slurry, followed by heating and dehydrating the slurry. The liquefaction process utilizes hydrogenation under low to medium pressure to produce light oil and heavy oil-residue slurry. The light oil is then hydrorefined to obtain refined oil, while the heavy oil-residue slurry is gasified to generate syngas. This syngas is further processed to produce F-T synthesis oil, which is also hydrorefined and hydrocracked to yield high-quality refined oil with low sulfur and low ammonia content. The method is versatile and can be applied to various types of coals and biomass, particularly lignite and biomass.
Career Highlights
Jianwei Huang is associated with Synfuels China Technology Co., Ltd., where he continues to develop innovative solutions for energy production. His work focuses on improving the efficiency of fuel production processes and reducing environmental impacts.
Collaborations
Huang collaborates with several professionals in his field, including Minli Cui and Xu Hao. Their combined expertise contributes to the advancement of technologies related to carbonaceous solid fuel liquefaction.
Conclusion
Jianwei Huang's innovative methods for liquefying carbonaceous solid fuels represent a significant advancement in energy technology. His contributions are vital for the development of sustainable fuel production processes.