TUIT väljaanded ja artiklid
Selle kollektsiooni püsiv URIhttps://hdl.handle.net/10062/62579
Sirvi
Sirvi TUIT väljaanded ja artiklid Autor "Malgin, Vladislav" järgi
Nüüd näidatakse 1 - 2 2
- Tulemused lehekülje kohta
- Sorteerimisvalikud
Kirje Development and computational fluid dynamics (CFD) simulation of cryostat thermal shielding for a portable high purity germanium (HPGe) gamma spectrometer(Taylor&Francis, 2020) Malgin, Vladislav; Tkaczyk, Alan H.; Yakovlev, Oleg; Jeltsov, Marti; Priimägi, PriitThe effect of vacuum degradation in cryostat of a gamma spectrometer on the steady-state temperature of thermal shield and its efficiency are analyzed in this study. Considering the thermal load due to radiation, the thermal conductivity of residual gases and shield supports, the steady-state temperature of the shield is determined based on the differential energy balance equation for a simplified thermal model of the cryostat. A more complex model corresponding to the design of a real cryostat is simulated using computational fluid dynamics. The obtained temperature distribution is presented. The simulated results are compared with experimental data measured on an operating cryostat with a cryocooler in the temperature stabilization mode. The same measurements were carried out for a cryostat with and without a thermal shield, as well as with multilayer insulation. The obtained results confirm that the thermal shield provides decreasing heat transfer even for a vacuum degradation in a cryostatKirje Development and validation of a CFD-enabled digital twin of a portable HPGe gamma spectrometer(IOP Publishing, 2020-01-22) Jeltsov, Marti; Priimägi, Priit; Malgin, Vladislav; Takovlev, Oleg; Tkaczyk, Alan H.This paper presents the design of an easily portable spectrometer using high purity germanium (HPGe) detector – HandSpec. The key challenge in the design of a lightweight spectrometer is to minimize its heat losses so that efficient electric cooling could be used instead of bulky dewars. The design process has been largely based on experimental investigations. In this study, a digital twin of the HandSpec cryostat using computational fluid dynamics (CFD) method is developed to support the design and optimization of the physical prototype.