Energy Conservation Through More Efficient Lighting
- 26 October 1984
- journal article
- other
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 226 (4673) , 435-436
- https://doi.org/10.1126/science.226.4673.435
Abstract
The efficiency of a mercury-rare gas electrical discharge, which forms the basis of a fluorescent lamp, can be increased about 5 percent simply by increasing the concentration of mercury-196 from 0.146 percent (natural) to about 3 percent. These findings can be implemented immediately without any significant change in the process of manufacturing of this widely used source of illumination, provided that mercury-196 can be obtained economically. The potential energy savings for the United States are estimated to be worth in excess of $200 million per year.Keywords
This publication has 12 references indexed in Scilit:
- Electron swarm parameters in rare gases and mixturesJournal of Applied Physics, 1984
- Investigation of Fluorescent Lamps with Altered Mercury Isotopic DistributionsJournal of the Illuminating Engineering Society, 1983
- Photochemical isotope separation of mercury-196 by reaction with hydrogen halidesThe Journal of Physical Chemistry, 1981
- Narrow-band UV radiation (250–260 nm) from intracavity doubling a single-mode ring dye laserOptics Communications, 1980
- Energy balance of the low-pressure mercury-argon positive columnPhysica, 1963
- Isotopic Effects and the Mechanism of Energy Transfer in Mercury PhotosensitizationPublished by Wiley ,1963
- Imprisonment of Resonance Radiation in Gases. IIPhysical Review B, 1951
- Imprisonment of Resonance Radiation in Mercury VaporPhysical Review B, 1949
- Imprisonment of Resonance Radiation in GasesPhysical Review B, 1947
- REVIEW: Resonance Radiation and Excited AtomsThe Astrophysical Journal, 1934