The aim of this work is to characterize an aromatic thermal oil against its maximum working temperatures with a preliminary laboratory scale oil stability characterization, to study the oil behavior under thermal stress. At this purpose, a dedicated laboratory scale set-up was built-up to undergo an oil sample to thermal stress tests. A mixture of C13-C20 alkyl substitute benzene was chosen as a representative aromatic oil to be studied.
Oil testing for intense use in CSP applications / Mansi, E.; Sau, S.; Balog, I.; Cemmi, A.; Ciotti, M.; Corsaro, N.; Caputo, G.; Filippi, F.; Panza, F.; Ratto, N.; Simonetti, A.; Spadoni, A.; Tiranti, G.; Tizzoni, A. C.; Annesini, M.. - (2021). (Intervento presentato al convegno Solar Paces tenutosi a Online).
Oil testing for intense use in CSP applications
E. Mansi
;A. C. Tizzoni;M. Annesini
2021
Abstract
The aim of this work is to characterize an aromatic thermal oil against its maximum working temperatures with a preliminary laboratory scale oil stability characterization, to study the oil behavior under thermal stress. At this purpose, a dedicated laboratory scale set-up was built-up to undergo an oil sample to thermal stress tests. A mixture of C13-C20 alkyl substitute benzene was chosen as a representative aromatic oil to be studied.| File | Dimensione | Formato | |
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