Method for separating isotopes
First Claim
Patent Images
1. A method for separating a mixture of heavy and light isotopes comprising:
- introducing a gaseous feed stock mixture containing light and heavy isotopes under sufficient pressure and temperature into an elongated cylindrical vortex tube in a circumferential fashion so as to impart a swirling action of said mixture within said tube around the longitudinal axis thereof which separates said mixture into a warmer outer, radial portion and a cooler inner, radial portion;
drawing off said outer radial portion of said swirling mixture which comprises about 60% of the feed stock mixture adjacent the cylindrical walls of said tube through an outer opening spaced radially outwardly from the longitudinal axis of said tube;
drawing off the inner radial portion of said whirling mixture which comprises about 40% of the gaseous feed stock mixture through an axial outlet located approximately along the longitudinal axis of said tube, said inner radial portion exiting from said axial outlet being enriched with heavy isotopes and said outer radial portion exiting from said outer opening being enriched in light isotopes.
0 Assignments
0 Petitions
Accused Products
Abstract
The present invention utilizes a vortex tube for separating isotopes. A gas mixture containing the isotopic molecules enters the vortex tube under pressure and is separated into a hot discharge flow stream and a cold discharge flow stream. The hot discharge is enriched in lighter isotopic molecules whereas the cold discharge flow stream is enriched in the heavier isotopic molecules. The vortex tube can be used in a single stage or multistage isotope separation apparatus.
-
Citations
5 Claims
-
1. A method for separating a mixture of heavy and light isotopes comprising:
-
introducing a gaseous feed stock mixture containing light and heavy isotopes under sufficient pressure and temperature into an elongated cylindrical vortex tube in a circumferential fashion so as to impart a swirling action of said mixture within said tube around the longitudinal axis thereof which separates said mixture into a warmer outer, radial portion and a cooler inner, radial portion; drawing off said outer radial portion of said swirling mixture which comprises about 60% of the feed stock mixture adjacent the cylindrical walls of said tube through an outer opening spaced radially outwardly from the longitudinal axis of said tube; drawing off the inner radial portion of said whirling mixture which comprises about 40% of the gaseous feed stock mixture through an axial outlet located approximately along the longitudinal axis of said tube, said inner radial portion exiting from said axial outlet being enriched with heavy isotopes and said outer radial portion exiting from said outer opening being enriched in light isotopes. - View Dependent Claims (2, 3, 4, 5)
-
Specification