SSRN Author: R SinhaR Sinha SSRN Content
http://www.ssrn.com/author=2899629
http://www.ssrn.com/rss/en-usTue, 13 Feb 2018 06:59:58 GMTeditor@ssrn.com (Editor)Tue, 13 Feb 2018 06:59:58 GMTwebmaster@ssrn.com (WebMaster)SSRN RSS Generator 1.0New: Effect of Boundary Condition on Heat Losses From Solar Cavity ReceiverThe solar cavity receivers used for high temperature applications were generally modeled as plain walls with isothermal boundary conditions, where radiation and conduction was observed to be constant and independent of cavity inclination. The recent experimental investigations on model receiver have studied the heat loss from a cylindrical cavity receiver, subjected to a range of constant heat flux boundary conditions. In constant heat flux boundary condition, the temperature distribution along the cavity walls is seen to vary, and is a function of cavity inclination.
This paper presents the effect of boundary condition on heat loss through solar cavity receiver. Paper presents mathematical analysis of heat losses from model cylindrical cavity receiver subjected to isothermal wall condition and compare the heat loss from wall condition subjected to a range of constant heat flux boundary conditions. The convection heat loss is maximum at zero inclination and decreases greatly with ...
http://www.ssrn.com/abstract=3101297
http://www.ssrn.com/1666333.htmlMon, 12 Feb 2018 09:30:24 GMTNew: Effect of Boundary Condition on Heat Losses From Solar Cavity ReceiverThe solar cavity receivers used for high temperature applications were generally modeled as plain walls with isothermal boundary conditions, where radiation and conduction was observed to be constant and independent of cavity inclination. The recent experimental investigations on model receiver have studied the heat loss from a cylindrical cavity receiver, subjected to a range of constant heat flux boundary conditions. In constant heat flux boundary condition, the temperature distribution along the cavity walls is seen to vary, and is a function of cavity inclination.
This paper presents the effect of boundary condition on heat loss through solar cavity receiver. Paper presents mathematical analysis of heat losses from model cylindrical cavity receiver subjected to isothermal wall condition and compare the heat loss from wall condition subjected to a range of constant heat flux boundary conditions. The convection heat loss is maximum at zero inclination and decreases greatly with ...
http://www.ssrn.com/abstract=3101297
http://www.ssrn.com/1666308.htmlMon, 12 Feb 2018 09:30:24 GMT