Page 247 - Lindens Handbook of Batteries
P. 247
ZINC-CARBON BATTERIES—LECLANCHÉ AND ZINC CHLORIDE CELL SYSTEMS 9.41
REFERENCES
1. Frost and Sullivan Inc., Global Battery Market, New York, 2009.
V. Sapru “Analyzing the Global Battery Market,” Battery Power, 14(4)(2010).
2. The Freedonia Group, Inc., Industry Study #1193, Primary and Secondary Batteries, Cleveland, Ohio,
December 1999. I. Buchmann, Battery University.com, after Freedonia (2005) and the Freedonia Group, Inc.
3. Samuel Rubin, The Evolution of Electric Batteries in Response to Industrial Needs, Chap. 5, Dorrance,
Philadelphia, 1978.
4. George Vinal, Primary Batteries, Wiley, New York, 1950.
5. N.C. Cahoon, in N. C. Cahoon and G. W. Heise (Eds.), The Primary Battery, Vol. 2, Chap. 1, Wiley, New
York, 1976.
6. Richard Huber, in K. V. Kordesh (Ed.), Batteries, Vol. 1, Chap. 1, Decker, New York, 1974.
7. D. Glover, A. Kozawa, and B. Schumm, Jr., (Eds.), Handbook of Manganese Dioxides, Battery Grade,
International Battery Material Association (IBA, Inc.), IC Sample Office, 1989.
8. R. J. Brodd, A. Kozawa, and K. V. Kordesh “Primary Batteries 1951–1976,” J. Electrochem. Soc. 125(7)
(1978).
9. B Schumm, Jr., in Modern Battery Technology, C. D. S. Tuck (Ed.), Ellis Horwood, Ltd., London, 1991,
pp. 87–111.
10. C. L. Mantell, Batteries and Energy Systems, 2d ed., McGraw-Hill, New York, 1983.
11. “American National Standards Specification for Dry Cells and Batteries,” ANSI C18.1M-2009, American
National Standards Institute, Inc., 2009.
12. Eveready Battery Engineering Data: information is available at www.Energizer.com; technical information
website. These data are frequently updated and current.
13. M. Dentch and A. Hillier, Polaroid Corp., Progress in Batteries and Solar Cells, Vol. 9 (1990).
