Carbon Power & Chemicals Economy "CPCE", is the first-of-its-kind technologically feasible process for mid-size and large scale commercial plants, yet producing great profit in terms of revenue and shortest ROI for removal of carbon dioxide and re-use of captured CO2 as a new fossil energy resource.
The transformational capability of CPCE includes the upgrading of existing plants with immediate execution, as well as for the new technology for the new plants to build. Therefore, the CPCE is facilitated in five fields of applications, whereas three applications are designated to upgrade the five types of the Stationary sources of CO2 emissions, thus these currently operational plants can be upgraded to Zero CO2 Emission fossil energy plants. While, the other two applications are facilitated for the new plants, leading to a new generation of environmentally benign and net-zero CO2 plant, referred to super-efficient hydrogen-based fossil power plants with a gross thermal efficiency over 90%.
The fundamentals of CPCE is grounded on Advanced Combustion in the post-combustion carbon capture, two new thermodynamic cycles (1. and 2. Bairamijamal Cycle) and the HPLTE-SG, the high pressure, low temperature electrochemical syngas generator for the electrolyte -liquid carbon dioxide and water to cathodic syngas (CO/2H2) and anodic oxygen, eventually both as GOX as well as LOX. These features can be implemented in five groups of existing industrial plants (referred to as Stationary Carbon emitting plants) for pre-combustion and/or post-combustion applications of CPCE. The Stationary sources of CO2 encompasses a potential of about 65% of U.S. CO2 and up to 75% of CO2 globally (according to annual report of IEA International Energy Agency). It shall be highlighted that the re-use of CO2 from those Stationary sources is nearly tantamount to 2.4 times equivalent carbon balance to all imported crude oil in United States.
