With the proliferation of technologies and underground systems, analysis of thermal fields in soil has become a topic of great interest in the developing technology of buried structures. In this work, we have investigated the steady state temperature field (from linear heat sources - buried cable -) in a different type of soil and excavation geometry. In a laboratory, a physical model was built on scale, which reproduces an "undisturbed" area containing a linear thermal source. This scale model was produced for experimental activity. A measuring chain was made to analyze the thermal field in various types of soils, by varying the electrical current through the line source. The physical model was recreated using a finite volume calculation software. Analysis of the different field system configurations were completed and we have studied a model for the improvement of the design method.
A MODEL FOR THE EVALUATION OF HEAT LOSS FROM UNDERGROUND CABLES IN NON-UNIFORM SOIL TO OPTIMIZE THE SYSTEM DESIGN / Salata, Ferdinando; DE LIETO VOLLARO, Andrea; DE LIETO VOLLARO, Roberto. - In: THERMAL SCIENCE. - ISSN 0354-9836. - ELETTRONICO. - 00(2013), pp. 119-119. [10.2298/tsci120528119s]
A MODEL FOR THE EVALUATION OF HEAT LOSS FROM UNDERGROUND CABLES IN NON-UNIFORM SOIL TO OPTIMIZE THE SYSTEM DESIGN
SALATA, FERDINANDO;DE LIETO VOLLARO, Andrea;DE LIETO VOLLARO, ROBERTO
2013
Abstract
With the proliferation of technologies and underground systems, analysis of thermal fields in soil has become a topic of great interest in the developing technology of buried structures. In this work, we have investigated the steady state temperature field (from linear heat sources - buried cable -) in a different type of soil and excavation geometry. In a laboratory, a physical model was built on scale, which reproduces an "undisturbed" area containing a linear thermal source. This scale model was produced for experimental activity. A measuring chain was made to analyze the thermal field in various types of soils, by varying the electrical current through the line source. The physical model was recreated using a finite volume calculation software. Analysis of the different field system configurations were completed and we have studied a model for the improvement of the design method.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
