Implementing CO2 Capture Process in Power Plants: Optimization Procedure and Environmental Impact

The experience in the research and design of a 2 million tons/year flue gas CO2 capture project for coal-fired power plants

(2021) Shijian Lu et al.   International Journal of Greenhouse Gas Control

Optimization of post combustion CO2 absorption system monoethanolamine (MEA) based for 320 MW coal-fired power plant application – Exergy and exergoenvironmental analysis

(2021) Fayza Yulia et al.   Case Studies in Thermal Engineering

Analytical Review of Life‐Cycle Environmental Impacts of Carbon Capture and Utilization Technologies

(2020) Guillermo Garcia‐Garcia et al.   ChemSusChem

Optimization of energy requirements for CO2 post-combustion capture process through advanced thermal integration

(2020) Julio Bravo et al.   FUEL

Product Biodiversity Footprint – A novel approach to compare the impact of products on biodiversity combining Life Cycle Assessment and Ecology

(2019) Anne Asselin et al.   JOURNAL OF CLEANER PRODUCTION

Inherently Safer Design and Optimization of Intensified Separation Processes for Furfural Production

(2018) G. Contreras-Zarazúa et al.   INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH

Dynamic operation and modelling of amine-based CO2 capture at pilot scale

(2018) Mai Bui et al.   International Journal of Greenhouse Gas Control

A techno-economic case study of CO2 capture, transport and storage chain from a cement plant in Norway

(2017) Jana Jakobsen et al.   JOURNAL OF CLEANER PRODUCTION

Use of monoethanolamine (MEA) for CO 2 capture in a global scenario: Consequences and alternatives

(2016) Patricia Luis   DESALINATION

Reactive distillation: A review of optimal design using deterministic and stochastic techniques

(2015) Juan Gabriel Segovia-Hernández et al.   CHEMICAL ENGINEERING AND PROCESSING

Optimization of the various modes of flexible operation for post-combustion CO2 capture plant

(2015) Muhammad Zaman et al.   COMPUTERS & CHEMICAL ENGINEERING

Simulation and optimization of multi-component organic Rankine cycle integrated with post-combustion capture process

(2015) Ung Lee et al.   COMPUTERS & CHEMICAL ENGINEERING

Model verification and analysis of the CO 2 -MEA absorber–desorber system

(2015) Tibor Nagy et al.   International Journal of Greenhouse Gas Control

Can Carbon Dioxide Capture and Storage from Power Plants Reduce the Environmental Impact of Electricity Generation?

(2014) Fontina Petrakopoulou et al.   ENERGY & FUELS

A NGCC power plant with a CO2 post-combustion capture option. Optimal economics for different generation/capture goals

(2013) P.L. Mores et al.   CHEMICAL ENGINEERING RESEARCH & DESIGN

An improved multi-objective differential evolution with a termination criterion for optimizing chemical processes

(2013) Shivom Sharma et al.   COMPUTERS & CHEMICAL ENGINEERING

Chemical Process Engineering Principles of Combustion Turbines

(2013) William L. Luyben   ENERGY & FUELS

Modeling, Simulation, and Optimization of Postcombustion CO2 Capture for Variable Feed Concentration and Flow Rate. 1. Chemical Absorption and Membrane Processes

(2012) M. M. Faruque Hasan et al.   INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH

Meta-Analysis of Life Cycle Assessment Studies on Electricity Generation with Carbon Capture and Storage

(2012) Andrea Schreiber et al.   JOURNAL OF INDUSTRIAL ECOLOGY

The environmental impact of post-combustion CO2 capture with MEA, with aqueous ammonia, and with an aqueous ammonia-ethanol mixture for a coal-fired power plant

(2011) R. Strube et al.   ENERGY

CO2 capture and separation technologies for end-of-pipe applications – A review

(2010) Abass A. Olajire   ENERGY

Ionic-liquid materials for the electrochemical challenges of the future

(2009) Michel Armand et al.   NATURE MATERIALS