Affiliations: Department of Energy, Politecnico di Milano, Piazza
Leonardo da Vinci 32, 20133 Milan, Italy. E-mail: sergio.arosio@polimi.it | Department of Energy, Politecnico di Milano, Piazza
Leonardo da Vinci 32, 20133 Milan, Italy. E-mail:
manfredo.guilizzoni@polimi.it
Abstract: When considering the flow of a two-phase mixture, the complete
characterization of its behavior requires not only the evaluation of its
temperature and pressure evolutions, but also the description of the
distribution of the phases (the so-called "flow structure"). This is of great
importance in problems concerning the analysis of the solicitations undergone
by the containing ducts, both from a mechanical point of view and – even more
important – when heat transfer at fixed power is involved. In the present paper
the description and quantitative visualization of the structure of two-phase
flows in horizontal ducts with constant diameter and with section modifications
is proposed. The evolution of the flow along the duct is described in local
terms by means of section fields of void fraction, flow complexity and local
mean temporal length of the gaseous phase. These last are three local,
time-averaged quantities which can be easily calculated starting from
relatively simple experimental acquisitions of the phase density function.