Publications and responsibilities
Mapping the operating performance of a novel internally circulating fluidized bed reactor applied to chemical looping combustion
Chemical looping combustion is a promising technology for minimizing the energy penalty of CO2 capture. To accelerate the scale-up and commercialization of this technology for pressurized operation, the internally circulating reactor (ICR) was recently proposed. ICR integrates the two reactors, cycl...
An advancement in CO2 utilization through novel gas switching dry reforming
The swing adsorption reactor cluster for post-combustion CO2 capture from cement plants
The swing adsorption reactor cluster is a promising new method for post-combustion CO2 capture using a synergistic combination of temperature and pressure swings. The pressure swing is carried out by a vacuum pump and allows for 90% CO2 capture using only a small temperature swing, which is carried ...
Gas Switching Reforming for syngas production with iron-based oxygen carrier-the performance under pressurized conditions
Gas Switching Reforming (GSR) for syngas production with integrated CO2 capture using iron-based oxygen carriers
Internally circulating fluidized-bed reactor for hydrogen production with inherent CO2 capture using chemical looping reforming
Experimental Study of Chemical Looping Combustion in an Internally Circulating Reactor
Chemical looping combustion of natural gas is one of the most promising technologies for power production with inherent CO2 capture. Pressurized chemical looping systems promise the potential for increasing the power plant efficiency compared to atmospheric process, hence gas turbine can be used in ...