Plasma Enhancement Gases (PEGs) are a set of gaseous elements studied for converting plasma thermal energy and mitigating the heat load on the plasma-facing components of a tokamak fusion power plant. In particular, PEG separation is part of the Plasma Exhaust Processing System of EU-DEMO. This work addresses issues related to the purification of Deuterium-Tritium fusion fuel, introducing ceramic membranes having a low specific area to process and purify unburned streams throughout the fuel cycle. A commercial microporous mono-channel α-Alumina membrane was considered for the evaluation of its efficacy in separating binary mixtures of H2 with a PEG (Ar and N2), D2, or He. Several tests were carried out, feeding equimolar streams of H2-Ar, H2-N2, D2-Ar, and He-Ar, and the separation factor (SF) of the aforementioned binary mixtures was experimentally assessed. Finally, based on the results from the experimental campaign, the separation factors of several gas mixtures that had not been experimentally investigated were theoretically calculated and proposed.
Experimental Analysis of PEGs Separation at Mono–Channel Ceramic Membranes in DEMO Plasma Exhaust Processing / Farina, Luca; Cortese, Gessica; Pietrogiacomi, Daniela; Campa, Maria Cristina; Tosti, Silvano. - In: SEPARATIONS. - ISSN 2297-8739. - 13:4(2026). [10.3390/separations13040102]
Experimental Analysis of PEGs Separation at Mono–Channel Ceramic Membranes in DEMO Plasma Exhaust Processing
Pietrogiacomi, Daniela;
2026
Abstract
Plasma Enhancement Gases (PEGs) are a set of gaseous elements studied for converting plasma thermal energy and mitigating the heat load on the plasma-facing components of a tokamak fusion power plant. In particular, PEG separation is part of the Plasma Exhaust Processing System of EU-DEMO. This work addresses issues related to the purification of Deuterium-Tritium fusion fuel, introducing ceramic membranes having a low specific area to process and purify unburned streams throughout the fuel cycle. A commercial microporous mono-channel α-Alumina membrane was considered for the evaluation of its efficacy in separating binary mixtures of H2 with a PEG (Ar and N2), D2, or He. Several tests were carried out, feeding equimolar streams of H2-Ar, H2-N2, D2-Ar, and He-Ar, and the separation factor (SF) of the aforementioned binary mixtures was experimentally assessed. Finally, based on the results from the experimental campaign, the separation factors of several gas mixtures that had not been experimentally investigated were theoretically calculated and proposed.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
