Abstract
Dust explosions are dangerous events that still today represent a risk to all the industries that produce and/or handle combustible dust like the agro-alimentary, pharmaceutical and energy ones. When a dust cloud is dispersed in an oxidant gas, like air, it may reach the explosive concentration range. A model to predict the dust critical conditions, that can cause explosions, is a key factor for safety of operators and the security of the plants. The key point to predict this dust resuspension is to measure the velocity vectors of dust under the accidental conditions. In order to achieve this goal the authors have developed an experimental facility, STARDUST-U, which allow to obtain different conditions of temperature and pressurization rates characteristic of accidents in confined environment. The authors have developed also optical methods and software to analyse different dust resuspension phenomena under different conditions in confined environment. In this paper, the author will present how they measure the dust velocity vectors in different experimental conditions (and for different type of dusts) and how they have related the dust characteristics and positions inside STARDUST-U with the resuspension degree and the velocity values.
Highlights
Despite the phenomenon of dust explosion has been known for more than 100 years, still today it is a dangerous hazard in process, medical, pharmaceutical, food, energetic, agribusiness industries and in any industrial plant that handles, produces and/or stores combustible dust [1, 2, 3]
The authors showed the measurements of dust re-suspension in case of loss of vacuum accident replicated in experimental apparatus called STARDUST-Upgrade
Non-invasive diagnostics involving imaging techniques have been implemented by the authors to perform dust tracking experiments that produced data on dust velocity vectors comparable to the figures for air velocity, that was measured with pressure transducers
Summary
Despite the phenomenon of dust explosion has been known for more than 100 years, still today it is a dangerous hazard in process, medical, pharmaceutical, food, energetic, agribusiness industries and in any industrial plant that handles, produces and/or stores combustible dust [1, 2, 3]. Published under licence by IOP Publishing Ltd
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