1,7 • CITED REFERENCES 



function of the pyrometric efficiency concept is its use in fitting heat 

 transfer theory to heat transfer data on combustion chambers. In other 

 systems not too different in design, the same pyrometric efficiency can 

 profitably be used. 



The derivation of many of the relations presented in this section has 

 been prevented by the space limitation. These derivations, together with 

 an application of some of the principles to the solution of numerical prob- 

 lems, will be found in [5, Chap. 4]. 



1,7. Cited References. 



1. Foote, P. D. /. Wash. Acad. Sci. 5, 1 (1915). 



2. Schmidt, H., and Furthmann, L. Mitt. Kaiser-Wilhelm-Inst. Eisenforsch. 

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3. Michaud, M. Sc.D. Thesis, Univ. Paris, 1951. 



4. de Corso, S. M., and Coit, R. L. Mech. Eng. 76, 682 (1954). 



5. McAdams, W. H. Heat Transmission, 3rd ed. McGraw-Hill, 1953. 



6. Binkley, E. R. Heat transfer. Am. Soc. Mech. Engrs. 40-46, 1933-1934. 



7. Sieber, W. Z. tech. Phys. 22, 130-135 (1941). 



8. Person, R. A., and Leuenberger, H. Union Carbide Co. -private communication, 

 1955. 



9. Hottel, H. C. Trans. Second World Power Conf. 18, Sec. 32-243, 1930. 



10. Hottel, H. C. Mech. Eng. 52, 699-704 (1930). 



11. Hottel, H. C. Trans. Am. Soc. Mech. Engrs. FSP 53, 265-273 (1931). 



12. Seibert, O. Warme 54, 737-739 (1931). 



13. Hooper, F. C, and Juhasz, I. S. Fall Meeting Am. Soc. Mech. Engrs. Paper 

 52F19, Sept. 1952. 



14. Hamilton, D. C, and Morgan, W. R. Radiant-interchange configuration 

 factors. NACA Tech. Note 2836, 1952. 



15. Intern. Comm. on Flame Radiation. J. Inst. Fuel London 24, S (1951) ; 25, S (1952). 



16. Intern. Comm. on Flame Radiation. JournSe d' Etudes sur les Flammes, Mar. /June, 

 1953. 



17. Sherman, R. A. Trans. Am. Soc. Mech. Engrs. 79, 1727-41 (1957). 



18. Hottel, H. C, and Broughton, F. P. Ind. Eng. Chem., Anal. ed. 4, 166-175 

 (1932). 



19. Senftleben, H., and Benedict, E. Ann. physique 60, 297 (1919). 



20. Yagi, S. /. Soc. Chem. Ind. Japan 40, 50B (1937); 40, 144 (1937). 



21. Wolfhard, H. G., and Parker, W. G. Proc. Phys. Soc. London B62, 523 (1949). 



22. Hottel, H. C., and Mangelsdorf, H. G. Trans. Am. Inst. Chem. Engrs. 31, 

 517-549 (1935). 



23. Hottel, H. C, and Smith, V. C. Trans. Am. Soc. Mech. Engrs. 57, 463-470 

 (1935). 



24. Howard, J. N., et al. Near-infrared transmission through synthetic atmospheres. 

 Air Force Cambridge Research Center Geophys. Research Paper 40, 1955. 



25. HoLeong, E. Mass. Inst. Technol. Chem. Eng. Dept. Internal Rept., Feb. 1957. 



26. Wu, W. Mass. Inst. Technol. Chem. Eng. Dept. Internal Rept., June 1957. 



27. Schmidt, E. Forsch. Gebiete Ingenieurw. 3, 57 (1932). 



28. Schmidt, E., and Eckert, E. Forsch. Gebiete Ingenieurw. 8, 87 (1937). 



29. Hottel, H. C, and Egbert, R. B. Trans. Am. Inst. Chem. Engrs. 38, 531-565 

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30. Hottel, H. C. Trans. Am. Inst. Chem. Engrs. 19, 173 (1927). 



31. Hottel, H. C. Ind. Eng. Chem. 19, 888 (1927). 



32. Port, F. J. Sc.D. Thesis in Chem. Eng., Mass. Inst. Technol., 1940. 



33. Cohen, E. S. M.S. Thesis in Chem. Eng., Mass. Inst. Technol., 1951. 



34. Hottel, H. C. Notes on radiant heat transmission. Mass. Inst. Technol. Chem. 

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