Post-combustion CO2 capture from natural gas combined cycles by solvent supported membranes

AbstractAmong the CO2 separation technologies, CO2 membranes are currently receiving an increasing interest, largely thanks to the development of solvents such as ionic liquids and deep eutectic solvents, which are suitable for use in solvent supported membrane systems. The aim of this work is to perform a techno-economic analysis of a natural gas-fired combined cycle power plant integrating CO2 membranes. Such a configuration is based on a two-membrane system, the first one separating the CO2 for final sequestration, the second one used to generate a selective CO2-rich flue gas recycle. The techno-economic assessment uses three modelling tools: (i) process modelling of the complete power plant, performed with the in-house GS code and Aspen Plus, (ii) modelling of the membrane, performed with a finite difference method implemented in Matlab and (iii) economic modelling by a bottom-up approach. The final material balances show that using a moderate pressurization of the combined cycle flue gas results in the lowest energy loss and lowest capture cost

Priority projects for the implementation of CCS power generation with enhanced oil recovery in Mexico

In March 2014, Mexico launched its CCUS technology roadmap, outlining the actions to be taken up to 2024. One important action is the National Policy of Carbon Capture and Storage (CCS) ready and the identification of priority natural gas combined cycle (NGCC) with capture plants. This outcome could aid the creation of a technology roadmap for the design of new NGCC power plants and their operational requirements for EOR and for the reduction of CO 2 emissions. This article provides an overview of the opportunities for deploying CCS in new NGCC power plants in Mexico which were programed to begin operation throughout the period from 2016 to 2030. The attention is given to plants close to oil fields which are candidates for enhanced oil recovery (EOR), located in an inclusion zone suitable for storage. The Gulf of Mexico region, where potential EOR sites and the presence of industrial CO 2 sources are located, is within the inclusion zone for recommended sites for geological storage of CO 2 . After identifying new power plants in the inclusion zone, this article analyses which existing plants could be retrofitted and which new power plants could be designed to be ‘carbon capture ready’. In addition, the distance and the volumes of CO 2 are estimated