E
Emmanouil Kakaras
Researcher at Mitsubishi
Publications - 22
Citations - 853
Emmanouil Kakaras is an academic researcher from Mitsubishi. The author has contributed to research in topics: Energy storage & Boiler (power generation). The author has an hindex of 10, co-authored 22 publications receiving 555 citations. Previous affiliations of Emmanouil Kakaras include National Technical University of Athens.
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Journal ArticleDOI
The CO2 economy: Review of CO2 capture and reuse technologies
Efthymia Ioanna Koytsoumpa,Efthymia Ioanna Koytsoumpa,Christian Bergins,Emmanouil Kakaras,Emmanouil Kakaras +4 more
TL;DR: In this paper, the potential of carbon capture and utilisation (CCU) is assessed focusing on the use of CO2 for fuel as well as for combined heat and power production.
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Report on comparison among current industrial scale lignite drying technologies (A critical review of current technologies)
Nikolaos Nikolopoulos,Ioannis Violidakis,Emmanouil Karampinis,Michalis Agraniotis,Christian Bergins,Panagiotis Grammelis,Emmanouil Kakaras +6 more
TL;DR: In this article, an overview of the currently existing drying technologies, including both evaporative and non-evaporative drying methods, is reported in the present paper, taking into account the significance of the subject and the usefulness of such an attempt.
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The Challenge of Energy Storage in Europe: Focus on Power to Fuel
Efthymia Ioanna Koytsoumpa,Christian Bergins,Torsten Buddenberg,Song Wu,Ómar Sigurbjörnsson,K. C. Tran,Emmanouil Kakaras +6 more
TL;DR: In this article, the integration of power to fuel concept in the energy storage sector with simultaneous emission reduction is addressed, where the use of surplus and/or low-cost electricity via water electrolysis to commute captured CO2 from industrial plants to versatile energy carriers such as methane and methanol is investigated.
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Numerical investigation of firing concepts for a flexible Greek lignite-fired power plant
TL;DR: In this paper, the behavior of a lignite boiler under both full and partial load conditions is investigated by means of CFD modeling, and the evaluation and optimization of different firing modes for the decrease of minimum load operation lower than 40%.
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Improved droplet breakup models for spray applications
Dionisis Stefanitsis,George Strotos,Nikolaos Nikolopoulos,Emmanouil Kakaras,Manolis Gavaises +4 more
TL;DR: In this article, the performance of two zero-dimensional aerodynamically-induced breakup models, utilized for the prediction of droplet deformation during the breakup process in the bag, multi-mode and sheet-thinning regimes, was examined.