Influence of asphalt composition upon the thermodynamics performance of a mixing plant
HUCHET ; LE GUEN ; RICHARD ; PITON ; CAZACLIU ; SEMELLE ; MATHEUS ; RICHE ; TAMAGNY
Type de document
ARTICLE A COMITE DE LECTURE REPERTORIE DANS BDI (ACL)
Langue
anglais
Auteur
HUCHET ; LE GUEN ; RICHARD ; PITON ; CAZACLIU ; SEMELLE ; MATHEUS ; RICHE ; TAMAGNY
Résumé / Abstract
Pavement material production requires a highly intensive energy processing related to the drying and the heating of granular materials within a rotary kiln. Thus, a better prediction of thermophysical parameters of bituminous concrete materials during their transformation is required to improve the processes in order to reduce their environmental impact. The present paper deals with accurate thermodynamics balance in a mix-asphalt plant.We report input and output mass flows captured within an instrumented flight rotary kiln devoted to a large range of asphalt materials. Hot-mix (Tmaterials <170°C), warm-mix (Tmaterials <120°C) and Recycled Asphalt Products (so-called RAP) are compared. Computation of the macroscopic energy balance exhibits an averaged energy flux source equal to about 7MW, the major amount being connected to the power gas burner. The heat sink related to the drying is different according to the formulation, RAP particles having non-negligible moisture content. In situ temperature sensors are used to validate an advanced thermodynamics model involving RAP feeding rate. The thermal degradation of the RAP particles emphasises significant heat release measured at the RAP injection position which is captured by the theoretical model.
Source
Road Materials and Pavement Design, num. 1, pp.104-119 p.
Editeur
Taylor & Francis Ltd
