Title :
Computer-Based Study of Secondary Emission Cell (SEC) Efficiency Compared to That of a Vacuum-Type Direct Collection Cell
Author :
Romer, Michael ; Miley, George H. ; Luo, Nie
Author_Institution :
Illinois Univ., Urbana
fDate :
3/1/2008 12:00:00 AM
Abstract :
The concept of directly collecting secondary electrons created by beta emission through an electrical insulator has been proposed as an attractive low-voltage nuclear battery termed a secondary emission cell (SEC). In this paper, a MATLAB computer simulation of an SEC is conducted using Mott scattering, the Penfold-Katz slowing approximation, Bethe´s ionization loss expression, and energy and momentum conservation. The goal of the simulation is to compare the efficiency of an SEC to that of a vacuum direct collection cell. It is found that the SEC efficiency is typically les1%. Energy losses in the insulator prevent it from having an efficiency advantage over a vacuum direct collection cell which offers higher efficiencies, especially at high voltages. However, operational simplicity and ease of construction still make the SEC attractive for some applications.
Keywords :
computer aided analysis; energy conservation; insulators; nuclear power; power engineering computing; secondary cells; secondary emission; Bethe ionization loss expression; MATLAB computer simulation; Mott scattering; Penfold-Katz slowing approximation; SEC; beta emission; electrical insulator; energy conservation; momentum conservation; nuclear power generation; secondary emission cell; vacuum-type direct collection cell; Batteries; Computational modeling; Computer simulation; Dielectrics and electrical insulation; Electron emission; Elementary particle vacuum; Energy loss; Ionization; MATLAB; Scattering; Batteries; computer-aided analysis; energy conversion; nuclear power generation;
Journal_Title :
Energy Conversion, IEEE Transactions on
DOI :
10.1109/TEC.2007.914396
