Publikasjoner | ||
Niazi, Sepideh; Olsen, Espen; Nygård, Heidi S | Hydrolysis of eutectic compositions in the ZnCl2:KCl:NaCl ternary system and effect of adding ZnO | Journal of Molecular Liquids 2020, 317, 114069. |
Grøtan, Åshild; Olsen, Espen; Nygård, Heidi S | Carbon Capture with Metal Oxides in Molten Salts: MgO, SrO and CaO as Sorbents | SINTEF proceedings 2019 (4) s. 63-75. |
Nygård, Heidi S.; Meyer, Julien; Di Felice, Luca; Eldrup, Nils Henrik; Haug, Alf Tore; Olsen, Espen | Techno-economic study of the CCMS Technology for CO2 capture from ferro-silicon production | SINTEF proceedings 2019 (4) s. 63-75. |
Nygård, Heidi S; Hansen, Maria; Alhaj-Saleh, Yasen; Palimaka, Piotr; Pietrzyk, Stanislaw; Olsen, Espen | Experimental evaluation of chemical systems for CO2 capture by CaO in eutectic CaF2-CaCl2 |
AIMS Energy 2019. 7. p. 619-633. |
Olsen, Espen; Hansen, Maria; Nygård, Heidi S | Hydrolysis of molten CaCl2-CaF2 with additions of CaO | AIMS Energy 2017; 5, (6), p. 873-886. |
Nygård, Heidi S.; Tomkute, Viktorija; Olsen, Espen | Kinetics of CO2 absorption by calcium looping in molten halide salts | Energy Procedia 2017; 114, p. 250-258. |
Tomkute, Viktorija; Solheim, Asbjørn; Sakirzanovas, SImas; Olsen, Espen | Reactivity of CaO with CO2 in molten CaF2–NaF: formation and decomposition of carbonates | Energy Science & Engineering 4.3 (2016): 205-216. |
Nygård, Heidi S.; Olsen, Espen | Molten salt pyrolysis of milled beech wood using an electrostatic precipitator for oil collection | AIMS Energy 2015; 3 (3), p. 284-296 |
Nygård, Heidi S.; Olsen, Espen | Effect of salt composition and temperature on the thermal behavior of beech wood particles in molten salt pyrolysis. | Energy Procedia 2014; 58, p. 221-228. |
Tomkute, Viktorija, Solheim, Asbjørn; Sakirzanovas, SImas; Øye, Bjarte; Olsen, Espen | Phase equilibria evaluation for CO2 capture: CaO–CaF2–NaF, CaCO3–NaF–CaF2, and Na2CO3–CaF2–NaF | Journal of Chemical & Engineering Data 59.4 (2014): 1257-1263. |
Olsen, Espen, and Viktorija Tomkute | Carbon capture in molten salts | Energy Science & Engineering 1.3 (2013): 144-150. |
Tomkute, Viktorija, Asbjørn Solheim, and Espen Olsen | Investigation of high-temperature CO2 capture by CaO in CaCl2 molten salt | Energy & Fuels 2013, 27, 9: pp. 5373-5379. |
Nygård, Heidi S.; Danielsen, Filip; Olsen, Espen | Thermal History of Wood Particles in Molten Salt Pyrolysis | Energy & Fuels 2012; 26 (10) p. 6419-6425. |
Westerhof, R. J. M.; Nygård, Heidi S.; Swaaij, W. P. M. van; Kersten, S. R. A.; Brilman, D. W. F. | Effect of Particle Geometry and Microstructure on Fast Pyrolysis of Beech Wood | Energy & Fuels 2012; 26 (4) p. 2274-2280. |
Nygård, Heidi S.; Olsen, Espen | Review of thermal processing of biomass and waste in molten salts for production of renewable fuels and chemicals | International Journal of Low-Carbon Technologies 2012; 7 (4) p. 318-324. |
Previous PhD theses | ||
Viktorija Tomkute | Carbon capture by CaO in molten halide salts | 2014 |
Heidi S. Nygård | The potential of molten salts as heat transfer media in fast pyrolysis of wood | 2015 |
Master thesis | ||
Helene Flakke | Electrochemical Removal of Impurities in Molten ZnCl2-NaCl-KCl Helene Flakke | 2021 |
Petter Nygård Lerøen | Carbon Capture in Molten Salts: An extensive survey of chemical systems with MgO as sorbent | 2020 |
Åshild Grøtan | Carbon Capture with Metal Oxides in Molten Salts: MgO, SrO and CaO as sorbents | 2019 |
Nils Amund Rusås Ruud | Carbon Capture in Molten Salts: The Effect of Sulfation Nils Amund Rusås Ruud | 2018 |
Maria Hansen | arbon Capture in Molten Salts: The Effect of Hydrolysis Maria Hansen | 2017 |
Yasen Alhaj-Salah | Carbon Capture in Molten Salts: Absorption and Desorption of CO2 by CaO-sorbent in Eutectic CaF2/CaCl2-melt | 2014 |
Ana Korvald | Carbon Capture in Molten Salts: Absorption and Desoprtion of CO2 by CaO in Molten NaF/CaF2 | 2012 |