Contents 1 Background 2 Experimental section 3 Results and discussion 4 Conclusions 5 Future work 6 Acknowledgements Background Technology options for CO2 reduction Potential candidates of CO2 sorbent
R&D Calcium Looping Process Roadmap Process Simulation & Cost Calculations Hawthorne et al.,Poboss et al.,Abanades et al.TGA Sorbent Characterisation Grasa et al.
Introduction Zero emission coal (ZEC) process based on calcium looping in which CO2 is captured via a cyclic carbonation/calcination process is a promising technology for H2 production.
Outline of Presentation Introduction Experimental Results and Discussion Conclusions Outline of Presentation Background Oxy-fuel combustion is one of the most promising technologies of CCS Specific co
1.INTRODUCTION 1.1 Importance Volatility(→)Persistence (→)Bioaccumulation(→)Toxicity Coal-fired power plant is one of the largest anthropogenic source of mercury emission to the atmosphere
It means that NO can be controlled with variable measures if we can adopt the staging air technology in oxy-fuel.Above all,we have done some investigations to explore the effects of staging gas on NO
1.1.Calcium looping technology one of the most promising CO2 capture technology for large-scale industrial applications potentially renewable and low cost sorbents,relatively energy-efficiency,high CO
Oxy-fuel CFB is a promising CCS technology in China.The total power capacity of CFB boiler is more than 10 %of total Chinese coal fire power installation.
Lasing emissions are obtained in a dye-doped two-dimensional Penrose photonic quasicrystal fabricated by all organic materials of holographic polymer dispersed liquid crystals.The linear polarization
Liquid crystal(LC)lens had been widely used in many applications,such as 3D display and image capturing.However,most of the LC-lens technologies are currently developed for consumer electronics.For 3D