Name Card

Full name Familienname, Vorname
Elenkov, Martin
 
Main Affiliation Organisations­zuordnung
 

Own Publications Eigene Publikationen

Results 1-20 of 31 (Search time: 0.004 seconds).

PreviewAuthor(s)TitleTypeIssue Date
1Elenkov-2022-Applied Sciences-vor.pdf.jpgElenkov, Martin ; Lukitsch, Benjamin ; Ecker, Paul ; Janeczek, Christoph ; Harasek, Michael ; Gföhler, Margit Evaluation of Different Control Algorithms for Carbon Dioxide Removal with Membrane OxygenatorsArticle Artikel 1-Dec-2022
2Lukitsch-2021-Bioengineering-vor.pdf.jpgLukitsch, Benjamin ; Ecker, Paul ; Elenkov, Martin ; Janeczek, Christoph ; Jordan, Christian ; Krenn, Claus G. ; Ullrich, Roman ; Gföhler, Margit ; Harasek, Michael Suitable CO2 Solubility Models for Determination of the CO2 Removal Performance of OxygenatorsArticle Artikel Mar-2021
3Lukitsch, Benjamin ; Ecker, Paul ; Elenkov, Martin ; Janeczek, Christoph ; Jordan, Christian ; Krenn, Claus G. ; Ullrich, Roman ; Gfoehler, Margit ; Harasek, Michael Suitable CO₂ Solubility Models for Determination of the CO₂ Removal Performance of OxygenatorsArtikel Article 2021
4Ecker, Paul ; Pekovits, Markus ; Yorov, Tsvetan ; Haddadi, Bahram ; Lukitsch, Benjamin ; Elenkov, Martin ; Janeczek, Christoph ; Jordan, Christian ; Gfoehler, Margit ; Harasek, Michael Microstructured Hollow Fiber Membranes: Potential Fiber Shapes for Extracorporeal Membrane OxygenatorsArtikel Article 2021
5Elenkov, Martin ; Lukitsch, Benjamin ; Ecker, Paul ; Janeczek, Christoph ; Harasek, Michael ; Gföhler, Margit Non-parametric dynamical estimation of blood flow rate, pressure difference and viscosity for a miniaturized blood pumpArtikel Article 2021
6Lukitsch, Benjamin ; Koller, Raffael ; Ecker, Paul ; Elenkov, Martin ; Janeczek, Christoph ; Pekovits, Markus ; Haddadi, Bahram ; Jordan, Christian ; Gfoehler, Margit ; Harasek, Michael Water as a Blood Model for Determination of CO₂ Removal Performance of Membrane OxygenatorsArtikel Article 2021
7Ecker, Paul ; Sparer, Andreas ; Lukitsch, Benjamin ; Elenkov, Martin ; Seltenhammer, Monika ; Crevenna, Richard ; Gföhler, Margit ; Harasek, Michael ; Windberger, Ursula Animal blood in translational research: How to adjust animal blood viscosity to the human standardArtikel Article 2021
8Ecker, Paul ; Pekovits, Markus ; Lukitsch, Benjamin ; Elenkov, Martin ; Janeczek, Christoph ; Haddadi, Bahram ; Gföhler, Margit ; Harasek, Michael Micro- structured Hollow Fiber Membranes - Reducing the Main Transport Resistance in Membrane OxygenatorsKonferenzbeitrag Inproceedings 2021
9Janeczek, Christoph ; Lukitsch, Benjamin ; Ecker, Paul ; Elenkov, Martin ; Haddadi, Bahram ; Jordan, Christian ; Aloy, Alexander ; Harasek, Michael ; Gföhler, Margit O2-Enrichment Device Based on Membrane Separation for Early Phases of Respiratory InsufficiencyKonferenzbeitrag Inproceedings 2021
10Lukitsch-2020-Sustainability-vor.pdf.jpgLukitsch, Benjamin ; Ecker, Paul ; Elenkov, Martin ; Janeczek, Christoph ; Haddadi Sisakht, Bahram ; Jordan, Christian ; Krenn, Claus ; Ullrich, Roman ; Gföhler, Margit ; Harasek, Michael Computation of Global and Local Mass Transfer in Hollow Fiber Membrane ModulesArticle Artikel Mar-2020
11Elenkov, Martin ; Ecker, Paul ; Lukitsch, Benjamin ; Janeczek, Christoph ; Harasek, Michael ; Gföhler, Margit Estimation Methods for Viscosity, Flow Rate and Pressure from Pump-Motor Assembly ParametersArtikel Article 2020
12Harasek, Michael ; Lukitsch, Benjamin ; Ecker, Paul ; Janeczek, Christoph ; Elenkov, Martin ; Gföhler, Margit Computational Fluid Dynamics and Experimental Analysis of Blood Gas Transport in a Hollow Fiber ModuleKonferenzbeitrag Inproceedings2020
13Lukitsch, Benjamin ; Ecker, Paul ; Elenkov, Martin ; Janeczek, Christoph ; Haddadi, Bahram ; Jordan, Christian ; Krenn, Claus G. ; Ullrich, Roman ; Gföhler, Margit ; Harasek, Michael Predicting The Total Gas Exchange Of Hollow Fiber Membrane Oxygenators: An Upscaling Method Utilizing Computational Fluid Dynamics (cfd)Konferenzbeitrag Inproceedings 2020
14Elenkov, Martin ; Janeczek, Christoph ; Ecker, Paul ; Lukitsch, Benjamin ; Harasek, Michael ; Gföhler, Margit Estimation Methods for Viscosity, Flow Rate and Pressure from Pump-Motor Assembly ParametersKonferenzbeitrag Inproceedings 2020
15Thuerk Florian - 2019 - Influence of reconstruction settings in electrical...pdf.jpgThürk, Florian ; Elenkov, Martin ; Waldmann, Andreas Daniel ; Böhme, S. ; Braun, C. ; Adler, A. ; Kaniusas, Eugenijus Influence of reconstruction settings in electrical impedance tomography on figures of merit and physiological parametersArticle Artikel Sep-2019
16Ecker, Paul ; Janeczek, Christoph ; Lukitsch, Benjamin ; Elenkov, Martin ; Keck, Thomas ; Neudl, Susanna ; Jordan, Christian ; Haddadi, Bahram ; Ullrich, Roman ; Krenn, Claus-Georg ; Harasek, Michael ; Gföhler, Margit Hydraulic Characteristic of a Mixed Flow Blood Pump for an Intracorporeal Membrane OxygenatorBeitrag in Tagungsband Inproceedings Aug-2019
17Elenkov, Martin ; Janeczek, Christoph ; Lukitsch, Benjamin ; Ecker, Paul ; Keck, Thomas ; Harasek, Michael ; Gföhler, Margit Blood Flow Rate Estimation Method For An Intracorporeal Membrane OxygenatorArtikel Article Aug-2019
18Elenkov, Martin ; Janeczek, Christoph ; Lukitsch, Benjamin ; Ecker, Paul ; Keck, Thomas ; Harasek, Michael ; Gföhler, Margit Characterization Of A Pump-Cathethersystemfor Flow Control In An Intracorporeal Membrane OxygenatorKonferenzbeitrag Inproceedings2019
19Janeczek, Christoph ; Ecker, Paul ; Elenkov, Martin ; Lukitsch, Benjamin ; Keck, Thomas ; Harasek, Michael ; Gföhler, Margit Prototyping Of A Catheter Pump For The Minimally Invasive Liquid Lung CatheterKonferenzbeitrag Inproceedings2019
20Elenkov, Martin ; Janeczek, Christoph ; Lukitsch, Benjamin ; Ecker, Paul ; Keck, Thomas ; Harasek, Michael ; Gföhler, Margit Blood Flow Rate Estimation Method For An Intracorporeal Membrane OxygenatorPräsentation Presentation2019