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Karl Erik Artur Lindqvist

Master of Science

Karl Erik Artur Lindqvist

Master of Science

Karl Erik Artur Lindqvist
Phone: 968 29 629
Mobile:
Department: Gas Technology
Office: Trondheim

Publications and responsibilities

Publications

Publication

CO2 Capture in Natural Gas Production by Adsorption Processes

http://www.sintef.no/en/publications/publication/?pubid=CRIStin+1489442

Natural gas (NG) is the fossil fuel with the lowest emissions of CO2 per kilowatt of energy produced. In the case of transporting the natural gas through pipelines, the CO2 specifications depend on each country but are around 2-4%, so in case that the natural gas contains more than this percentage, ...

Year 2017
Type Journal publication
Publication

Multi-stage membrane processes for CO2 capture from cement industry

http://www.sintef.no/en/publications/publication/?pubid=CRIStin+1190192

Capture conditions for cement plant flue gas differ substantially from other industrial flue gases due to the high partial pressure of CO2, presenting an opportunity for polymeric membranes to compete with other capture technologies. In this work, two membrane processes are designed by applying a re...

Year 2014
Type Journal publication
Publication

A Systematic Method for Membrane CO2 Capture Modeling and Analysis

http://www.sintef.no/en/publications/publication/?pubid=CRIStin+1190184

This work presents a new systematic methodology for the design and optimization of membrane systems for CO2 capture integrating both technical and cost models. In this methodology, graphical solutions to the separation problem are generated to design a cost-optimal membrane system (process configura...

Authors Roussanaly Simon Lindqvist Karl Anantharaman Rahul Jakobsen Jana Poplsteinova
Year 2014
Type Journal publication
Publication

Integration aspects of reactive absorption for post-combustion CO2 capture from NGCC (natural gas combined cycle) power plants

http://www.sintef.no/en/publications/publication/?pubid=CRIStin+1172026

Reactive absorption of CO2 with MEA (monoethanolamine) has been established as the preferred reference technology in benchmark studies of novel post combustion CO2 capture technologies. However, recent advances in solvents tailored for CO2 capture warrant an updated reference for consistent performa...

Year 2014
Type Journal publication
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