Daniel Sutter
ETH Zurich
25 Papers
23 Citations
Daniel Sutter is an academic researcher from ETH Zurich. The author has contributed to research in topics: Environmental science & Flue gas. The author has an hindex of 9, co-authored 25 publications. Previous affiliations of Daniel Sutter include Cornell University & École Polytechnique Fédérale de Lausanne.
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Papers
Comparison of Technologies for CO2 Capture from Cement Production—Part 2: Cost Analysis
Stefania Osk Gardarsdottir,Edoardo De Lena,Matteo Carmelo Romano,Simon Roussanaly,Mari Voldsund,José-Francisco Pérez-Calvo,David Olsson Berstad,Chao Fu,Rahul Anantharaman,Daniel Sutter,Matteo Gazzani,Marco Mazzotti,Giovanni Cinti +12 more
TL;DR: In this article, the authors presented an assessment of the cost performance of CO2 capture technologies when retrofitted to a cement plant: MEA-based absorption, oxyfuel, chilled ammonia based absorption (Chilled Ammonia Process), membrane assisted CO2 liquefaction, and calcium looping.
Comparison of Technologies for CO2 Capture from Cement Production—Part 1: Technical Evaluation
Mari Voldsund,Stafania Osk Gardarsdottir,Edoardo De Lena,José-Francisco Prez-Calvo,Armin Jamali,David Olsson Berstad,Chao Fu,Matteo Carmelo Romano,Simon Roussanaly,Rahul Anantharaman,Helmut Hoppe,Daniel Sutter,Marco Mazzotti,Matteo Gazzani,Giovanni Cinti,Aina Benedikte Kristin Jordal +15 more
TL;DR: In this paper, a technical evaluation of CO2 capture technologies when retrofitted to a cement plant is performed, where the focus of the evaluation is on emission abatement, energy performance, and retrofitability.
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The thermal spectrum of low-temperature energy use in the United States
TL;DR: In this paper, a detailed analysis of U.S. energy consumption was performed to determine the amount of primary energy consumed as a function of its utilization temperature from 0 to 260 °C.
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110th Anniversary: Evaluation of CO2-Based and CO2-Free Synthetic Fuel Systems Using a Net-Zero-CO2-Emission Framework
TL;DR: In this article, the authors analyzes quantitatively the energy and exergy efficiencies of storing intermittent renewable energy in chemical fuels and shows that chemical fuels provide a very effective alternative to renewable energy.
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Advanced configurations for post-combustion CO2 capture processes using an aqueous ammonia solution as absorbent
TL;DR: In this article, the authors developed advanced process configurations for solvent-based CO2 capture processes that use aqueous ammonia as absorbent, aiming at: (i) achieving in spec NH3 emissions in a controlled way; (ii) minimizing capital costs by avoiding redundant process components; and (iii) minimizing the energy demand of the capture process by minimizing the requirements of high temperature steam and by maximizing the possibilities for the use of excess heat from the CO2 point source.
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