The temperarure on the outer cladding surface of a light water reactor four-cusp channel hasbeen analytically determined at steady stare and with a linear variation of the coolant/claddingheat transfer coefficient along the curvilinear coordinate. The heat balance equation is transformed into a Sturm-Liouville problem and is solved by the Green's function. The general solution is provided in closed form by using Airy functions of the first and second kinds; hence, the azimuthal temperature distribution is easily amenable to a monodimensional integral of Airy functions. Numerical results are plotted, and the influence of geometric and physical parameters is discussed.
An Approach To the Prediction of Cladding Azimuthal Temperature in a Light Water Reactor Four-Cusp Channel / E., Lorenzini; M., Spiga; Corticelli, Mauro Alessandro. - In: NUCLEAR SCIENCE AND ENGINEERING. - ISSN 0029-5639. - STAMPA. - 100 Number 1:(1988), pp. 16-20. [10.13182/NSE88-A29010]
An Approach To the Prediction of Cladding Azimuthal Temperature in a Light Water Reactor Four-Cusp Channel
CORTICELLI, Mauro Alessandro
1988
Abstract
The temperarure on the outer cladding surface of a light water reactor four-cusp channel hasbeen analytically determined at steady stare and with a linear variation of the coolant/claddingheat transfer coefficient along the curvilinear coordinate. The heat balance equation is transformed into a Sturm-Liouville problem and is solved by the Green's function. The general solution is provided in closed form by using Airy functions of the first and second kinds; hence, the azimuthal temperature distribution is easily amenable to a monodimensional integral of Airy functions. Numerical results are plotted, and the influence of geometric and physical parameters is discussed.
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