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Литература - Закрученные потоки

Оглавление
Закрученные потоки
Предисловие
Список обозначений
Характеристики закрученных потоков
Формирование закрученных течений
Основные эффекты закрутки
Теоретические методы
Проблемы моделирования поля течения
Осесимметричные закрученные течения
Неосесимметричные закрученные течения
Экспериментальные методы
Измерение температуры
Лазерный спекл-метод
Закрученные течения в технике
Поршневые двигатели
Газотурбинные двигатели
Топки, горелки, циклоны
Стабилизация пламени
Стабилизация пламени в однородной смеси
Спектр энергии турбулентных пульсаций
Влияние турбулентности на горение и скорость распространения пламени
Стабилизация пламени плохообтекаемым телом
Стабилизация пламени закруткой
Стабилизация пламени в камерах сгорания газотурбинных двигателей
Закрученные струи
Пламена в закрученных потоках
Вихревые явления и огневые смерчи
Характеристики турбулентности в закрученных течениях
Расчет слабозакрученных течений
Характерные особенности закрученных потоков
Рециркуляционные зоны
Размер и форма рециркуляционной зоны
Потеря устойчивости, распад вихри и прецессирующее вихревое ядро
Горение в закрученном потоке
Моделирование потоков в вихревых горелках
Пределы срыва и устойчивость пламени
Математическое моделирование потоков в вихревых горелках
Выбросы загрязняющих веществ
Промышленные топки и камеры сгорания с вихревыми горелками
Расчет сильнозакрученных струй
Расчет сильнозакрученных факелов
Проектирование вихревых горелок
Общие представления о циклонных сепараторах и камерах сгорания
Циклонные сепараторы
Циклонные камеры сгорания
Структура пламени в циклонной камере сгорания
Циклоны, циклонные камеры сгорания, образование рециркуляционного вихря
Расчет течения в циклонной камере
Труба Ранка-Хилша
Вихревые топки
Камеры сгорания газотурбинных двигателей
Шум, вызываемый неустойчивостью горения
Литература

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173. Nuckley P. L., Craig R. R., Davis D L., Schwartzkopf К G., A1AA Paper No 80-1119, Harford, Connecticut, 30, June — 2, July, 1980.
К ГЛАВЕ 2
1. Lewis В., von Elbe G., Combuslion flames and explosion of Gases, Academic Press, 1951. [Имеется перевод: Льюис Б., Эльбе Г Горение, пламя и взрывы ь газах. — М.: ИЛ, 19Ь8.|
2. Bollinger L. М., Williams D. Т. Experiments on stability of Bunsen-burner flames for turbulent flow, NACA Report 913, 1948 (Supersedes NACA TN 1234).
3. Longwell J. P„ Chenevey J. E., Clark W. W., Frost E. E., 3rd Symposium on Combustion, Flame and Explosion Phenomena, p. 40, 1948. [Имеется перевод: Лоигвелл Дж., Шеиеви Дж„ Кларк В., Фрост Е. Устойчивость пламени в высокоскоростном газовом потоке. — В кн.: Вопросы горения. Ч. 1. М.. ИЛ, 1953. с. 65 ]
4. Wohl К. К., Карр N. М., Gazley С., 3rd Symposium on Combustion, Flame and Explosion Phenomena, p. 3, 1948. [Имеется перевод; Воль К., Капп Н., Гаслей К- Устойчивость открытых пламен. — В ки.: Вопросы горения. Ч. 1. М.: ИЛ, 1953, с. 5.]
5. Dugger G. L., Gerstein М., Flame stabilization, NACA Report 1300, Chapter VI, 1957.
6. Lewis B., Pease R. N , Taylor H S., Combustion processes, High Speed Aerodynamics and Jet Propulsion, Princeton University Press, 1956. [Имеется перевод: Процессы гореиия/Под ред Б Льюнса, Р. Н Пиза, X. С Тэйлора. — М.: Физматгиз, 1961 ]
7. Hirchfelder J. О., Curtiss С. F., 3rd Symposium on Combustion, Flames and Explosion Phenomena, p. 121, 1949.
8. Zeldovich Y B., Frank-Kamenetsky D. A., Ada Physicochim, USSR, 9, p. 341 (1938). In English — Compi Rend Acad. Sci., USSR, 19, p. 693 (1938). [См. также: Зельдович Я. Б., Франк Каменецкий Д. А. Теория теплового распространения пламени — ЖФХ, 1938, 12, № I, с. 100— 1051
9. Vulis L. A., Thermal regimes of combustion, McGraw-Hill, New York, 1961. [Имеется перевод: Вулис Л. А. Тепловой режим горения. — М. — Л.; Гос- эиергоиздат. I96L]
10. Mailord Е.. Le Chatelier Н., Ann. Mines, 8, Ser. 4, p. 274 (1883).
11. Danieli P. J., Proc. Roy. Soc. London, A 126, p. 393 (1930). See also: Joug- net E., Compi rend, 156, p. 1913 (1913), also 179, p. 454 (1924).
12. Lewis B., von Elbe G., I Chem. Phys., 2, p. 537 (1934).
13. Egerton A. C., Saunder O. A., Spalding D. B., Inst, of Mechanical Engineers. Joint Conference on Combustion, p. 14, 1955.
14. Lewis B., von Elbe G., Combustion, flames and explosion of gases. Academic Press, New York. 1971. [Имеется перевод: см. ссылку mi
15. Spakowski A. E., Pressure limits of flame propagation of pure hydrocarbon-air mixtures at reduced pressure, NACA RM E52HI5, 1952.
bustion, p. 21, 1949. [Имеется перевод: Вильямс Г.. Хоттел Г.. Скурлок А. Стабилизация и распространение пламени в газовом потоке большой скорости — В кн.: Вопросы горения. Ч 1. М: ИЛ, 1953. с. 31.1
17 Reed S. В.. Comb and Flame, М, р. t77 (1967).
18. Karlowitz В., Denniston D. W., Knapschaffer D. H., Wells F. E.. 4th Symposium on Combustion, p. 613, Williams and Wilkins, Baltimore, 1953. [Имеется перевод: Б. Карловии, Д. Денпистон, Д. Кнапсшефер, Ф. Уэллс. Исследование турбулентных пламен. — В кн.; Вопросы горения н детонационных волн. М.: Обороигиз, 1958. с. 420]
19 Edmondson Н , Heap М Р_ 12th Symposium (Int.) on Combustion, p. 1007, The Combustion Inst., 1969.
20. Suithenbank J„ Combustion fundamentals. Report No. HIC 150, Dept, of Chemical Engineering and Fuel Technology, Sheffield University. England, 1970.
21. Swithenbank J., Combustor design fundamentals. 14th Symposium (Int.) on Combustion, The Combustion Inst., 1973.
22. Swilhenbank J., The unknown fluid mechanics of combustion, Sheffield University Report No. HIC 220.
23. Damkohler G.. NACA Tech. Memo., Ill2, 1947.
24. Karlovitz B., A turbulent flame theory derived from the experiments, AGARD Selected Combustion Problems, p. 248, Butterworth, London, 1953.
25. Westenberg A. A., J. Chem. Physics, 22, p. 814 (1954).
26. Libby P. A., Williams F. A., Ann. Rev. Ft. Mech., 8, p. 351 (1976).
27. Andrews G E., Bradley D., Lwakabamba S. B., Comb, and Flame, 24, p 285 (1975).
28. Ballal D., Lefebvre A. H., Proc. Roy Soc. London, A 344, p. 217 (1975).
29. Klimov A. M., J. Appl. Mech. and Tech. Phys., 3, p 49 (1963). [См.: КЛИМОВ A. M Ламинарное пламя n турбулентном потоке. — ПМТФ, 1963, № 3, с 49.1
30. Summerfield М., Reiter S. Н., Kcbaly V., Mascolo R. W., Jet Prop., 25, 8, p. 377 (1955). [Имеется перевод: Саммерфилд, Рейтер, Кебели. Масколо. Структура н механизм распространения турбулентного пламени. — Вопросы ракетной техники. 1956, N« 4 |
31. Schetinkov Е. S., Combustion in turbulent flow, p. I, Khitrin L. H. (ed.), Moscow. 1959. English translation: IPST, Jerusalem, 1963.
32. Chomiak J.. Comb, and Flame, 18. p. 429 (1972).
33. Kovasnay L S. G., Jet Prop, 26, 6, p. 485 (1956).
34. Smith K. O., GouJdin F C. I7lh Aerospace Sciences Meeting, AIAA Paper No. 79-0016, New Orleans, Januarv, 1979.
35. Ballal D R., Proc. Roy. Soc., A 367, p 353 (1979).
36. Ballal D. R„ Proc Roy Soc., A 367, p. 485 (1979).
37. Andrews G. E., Bradley D , Lwakabamba S. В., 15th Symposium (Int.) on Combustion, p. 655, The Combustion Inst., 1975.
38. Shchelkin К. I., NACA Tech. Memo.. II10, 1947. [См Щепкин К И. Сгорание в турбулентном потоке. — ЖТФ, 1943, 13, № 5, с. 520.)
39. Wagner Р. NACA TN 3575, 1955.
40. Abdel-Gayed R G., Bradley D, I6th Symposium (Int.) on Combustion, p. 1725, The Combustion Institute. 1977.
41 Summerfield M„ Reiter S. H, Kebely V, Mascolo R. M . Jet Propulsion, 24, p. 254 (1954).
42. Vnlis L.A., Thermal regimes of combustion, McGraw-Hill, New York, 1961. [Имеется перевод; см ссылку 9.1
43 Mellnr А. М. Prog. Energy Combust. Set., 1, p. 1 (1976). See also: Poll I., Ph D Thesis. Sheffield University, England, 1972.
44. Clarke A. R., Odgers J., Ryan P., 8th Symposium (Int.) on Combustion, p 982, 1962.
to. LeieDvre л. π., i.ramieiu uunegc церии r*v. «его ιοσ, ι»οο. oee cusu: report No. PROP/PL898/AHL3DB.
47. Bespalov I. V., Physical principles of the working process in combustion
chambers of jet engines, p. 366, Clearinghouse for Federal Scienlific and
Technical Information, USA, AD058 372, May. 1967 (См.: Раушенбах Б. В., Белый С. А-, Беспалов И. В., Бородачев В. Я, Волынский М. С. Прудников А Г. Физические основы рабочего процесса в камерах сгорания ВРД.— М: Машиностроение, 1964-1
48. Herbert Μ. V., Progress in Comb. Sci. and Techn., Pergamon Press, I960.
49. Lefebvre A H., Ibrahim A. R. A. F., Benson N. C, Factors affecting air
entrainment in bluff body stabilized tlames. Combustion Institute Meeting, Cranfielrt. 1965.
50. Winterfeld G., I Oth Symposium (lnt.) on Combustion, p. 1265, The Combustion Inst., 1965.
51. Carmodv J., Trans. ASME, 86D, J. Basic Eng., 4, p. 869 (1964).
52. Davies T. \V„ Ph. D. Thesis, Sheffield University, England, 1969.
53. Raiishenbakh В V. et ah. Physical principles of the working process Ii> combustion chambers of jet engines. Foreign Technology Division, Wright Patterson АГВ, Ohio, 1967. [См. ссылку J47].|
54. Chigier N A.. Gilbert G L., J Inst. F„ 12, p. t05 (1968).
55. Patrick M. A.. Ph. D. Thesis, Sheffield University, 1965.
56. Bovina T. A., 7th Symposium (lnt) on Combustion, p. 692. The Combustion Inst., 1958. [См Бовина T А Исследование обмена между зоной рециркуляции за стабилизатором и внешним - потоком и некоторые вопросы стабилизации пламени.— В ки . Горение при пониженных данлеииях и некоторые вопросы стабилизации пламени М.: Изд. АН СССР, I960, с. 58.)
57. Zukoski Е. Е„ Marble F. Е., Combustion researches and reviews, D. 167, AGARD, Butterworths. London, 1955.
58. Davies T. W. Be£r J M., 13th Symposium (lnt.) on Combustion, p. 631. The Combustion Inst., 1971.
59. Winterfield G., 10th Symposium (lnt.) on Combustion, p. 1265. The Combustion Inst., 1965.
60. Syred N., Chigier N. A., Befer J. M.. 13th Symposium (Int.) on Combustion, p. 617, The Combustion Inst, 1971.
61. Swithenbank J., Chigier N. A., 12th Symposium (Int.) on Combustion, p. 1154. The Combustion Inst., 1969.
62. Gupta A. K., Ph. D. Thesis. Sheffield University, Sheffield, 1973.
63. Gupta A. K. et al.. Modulated Swirl Combustor, 2nd European Symposium on Combustion, p. 690, Orleans, France, September. 1975.
64. Rawe R., Kramer H., Proc. 18th Symposium (Int.) on Combustion, The Combustion Inst., 1981.
65. Vu В T.. Gouldfn F. C., AIAA Paper 80-0076. Pasadena, California, January, 1980.
66. Gupta А. К., Be£r J. M., Swithenbank, 16th Symposium (Int.) on Combustion, p. 79, The Combustion Inst., 1977.
67. Gupta A. K„ Be£r J M . Report No CEFT/102. Chemical Engineering and Fuel Technology; Sheffield University, 1975.
68. Chigier N. А., Веёг J. M., Grecov D., Bassindale K., Combust and Flame, 14. p. I7f (1970).
69. Kurzweg V. H., Z angen Math. Phys., 20, p. 141 (1969).
70. Prandtl L., Collected works. Springer-Verlag. Berlin. 2, p. 788 (1961). (Имеется перевод: Сполдинг Д. Б. Основы теории горения.— М. — Л.: Гос- энергоиздат. 1953.],
71. Веёг J. М., Chigier N. A., Davies Т. W., Bassindale К., Combustion and Пате, 16, р. 185 (1955).
72. Spalding D. В., Some fundamentals of combustion, ρ, 185, Academic Press, New York, 1955.
73. Khltrin L. N.. Goldenberg S. A.. 6th Symposium (lnt.) on Combustion* p. 545, Reinhold, 1957. [См.. Хитрин Л. H., Гольденберг С А. Влияние подогрева горючей смеси и давления окружающей среды на предгзы стабилизации пламени. — В ки.: Исследование процессов горении. М.: Изд. АН СССР. 1958. с. 39. |
74. Cheng S. L., Kovjz A. A., 7th Symposium (lnt.) on Combustion, p. 681, But- terworths, 1959. [См; Ченг. Ковитц Теория стабилизации пламени телом плохообтекаемой формы —В ки.: Вопросы зажигания и стабилизации пламени. М.: ИЛ. 1963 с 170.]
75. Loblich К. R. 9YH Symposium (lnt.) on Combustton, p. 949, Academic Press, 1963.
76. Jeffs R. A., 8th Symposium (lnt.) on Combustion, p. 1014, Williams and Wilkins, 1962
77. l.loyd P., Design and performance of gas turbine power plants, Princeton- University Press. I960.
78. Lefebvre A. H.. Design considerations in advanced gas turbine combustion chambers, in combustion in advanced gas turbine systems, p. 3, Smith L E. (ed.), Pergamon. London. 1968.
79. Lefebvre A. H., Gas turbine combustion short course at Cranford Inst, of Tech., Bedford. England, 14—18, May. 1973 Revised and repeated annually.
К ГЛАВЕ 3
1. Gartshore I S, Recent work in swirling incompressible flow, NRC (Canada) Aero. Rep LR-343, f962.
2. Hall M. G., The structure of concentrated vortex. Prog in Aero. Scl., T (1966).
3. Putnam A A . Swirl burning Paper presented to Amer. Flames Res. Comm., 18. January. 1967.
4 Murthy S N. B., Survey ot some aspects of swirling flows. ARL-71-0244 and NT1S AD37381. 1971.
5. Lewellen W. S.. A tevlew of confined vortex flow's, NASA CR-1772, 1971. 6 Chigier N. A., Astronaullca Ada t7, p. 387 (1972).
7. Bradshaw P, Effects of streamline curvature on turbulent flow, AGARD- ΛGO 169. August, 1973.
8 Syred N.. Beer J. M„ Combustion and Flame, 23, p 143 (1974).
9. Lilley D. G., AIAA /., t5, 8. August, p 1063 (1977). [Имеется перевод: Лилли Обзор работ по горению в закрученных потоках. — Ракетная техника и космонавтика. 1977. Afe 8, с. 119]
10 Beer J М.. Chigier N. A.. Combustion aerodynamics. Halsted* Wiley, New York. 1972
11 Stambuleanu A., Flame combustion processes in Industry, Abacus Press, Tunbridge Wells, England. 1976.
12. Rajaratnam N., Turbulent jets, Elsevier, Amsterdam, Netherlands, 1976. 13 Schetz J. A., Injection and mixing in turbulent flow. Prog, in Astro and Aero., 68. AIAA, New York (1980).
14. Ullrich H.. Forschungsberichte auf dem Gebicle fngeneur wesens, 26, 1, p. 19 (1960).
15. Rose W. G., J. of Applied Mechanics, 29, December, p. 616 (1972).
16. Gore R. W., Ranz W. E., American Institute of Chemical Engineers Journal, 10, I, p. 83 (1964).
17. Chfgier N. A., Beer J. M., J. of Basic Engineering, 86, 4, December, p. 788
(1964)
18. Kerr N. M., Fraser D„ J. Institute of Fuel, 38, 229, December, p. 519»
(1964) .
19. Drake P. F„ Hubbard E. H, J. Inst. Fuel, 39, p. 98 (1966).
20- Chigier J. M„ Chervinsky A., /. Applied Mechanics, 34, June, p. 44 (1967).
21. Pratte B. D.p Keffer J. F., Swirling turbulent jet flows, Part 1, The Sing] Swirling Jet, Rept. UTME-TP 6901, Dept, of Mechanical Enginering, Tc ronto University, Canada.
22. Beltagui S. A., Maccalum N. R. L„ J. Jnst. Fuel, 49, 401, December (1976
23. Loitsyanski L. G., Prikladnaya Matematica i Mekhanika, 17, p 3 (1933 [См : Лойиянский Л. Г. Распространение закрученной струи в безграии» ном пространстве, затопленном той же жидкостью — Прикладная мат« матика и механика, 1953. т. XVII, вып I, с. 3]
24. Gortler Η-, Revista Matematica Hispano Americanos, 14, 4 and 5, p. 14 (1954).
25. Stieger Μ. H., Bloom Μ. H.. Heat transfer and fluid mechanics fnstitub Stanford University Press, Stanford, Calif.. 1961.
26. Slieger Μ. H„ Bloom Μ. H., /. of Heat Transfer, Trans. ASME, Scries ( 83, p. 370 (1962).
27. Lee S.-L., I. of Applied Mechanics, 32, Trans. ASME. 87, Series, p. 25 (1965).
28. Ran S. T. R., Essenhigh R. H., 13th Symposium (Int.) on Combustior p 603, The Commbushon Inst., Pitsburgh, Pa., 1971
29 Steward F. R., Tennankore K. N., 16th Symposium on Combustion, p. 159' The Combustion Inst.. Pittsburgh, Pa.. 1977.
30. Craya A., Curtet R., Royai Academy of Science, Paris. 241. p. 621 (1955'
31. Curtet R., Combustion and Flame, 2, p. 383 (1958).
32. Gupta A. K., Lilley D. G., Flow field modeling and diagnostics. Abacu Press, England, 1983.
33 Chigier N. A., Gilbert J. L., J Jnst. Fuel, 4t, p. 105 (1968).
34 Owen F. K., Spadacini L. J., Bowman C. T„ 16th Symposium (Int.) о Combustion, p. 105, The Combustion Inst., Pittsburgh, Pa., 1977.
35 Owen F. K., 17th Symposium (Int.) on Combustion, The Combustion Inst Pittsburgh. Pa.. 1979.
36 Heap Μ. P., Lowes T. M„ Walmsley R., 14th Symposium (Int.) on Com hustion, p. 763. The Combustion Inst, Pittsburgh, Pa.. 1973
37. King C. F., PhD Thesis. University College. Cardiff.. University of Wales 1979.
38 Mathur M. L.. Maccalum N. R. L. J. Inst. Furl. 39. n 241 (1967)
39. Malhur M. L., Miccallum N. R. L„ J. Jnst. Fuel 40. p. 238 (1967).
40 Kerr N. M.. / Inst. Fuel 38, 229. p 527 (1965).
41. Chigier N. A., Chervinsky A.. Hth Symposium (Int.) on Combustior
p. 489, The Combustion Inst.. Pittsburgh Pa. 1967.
42. Maier P„ J. Inst Fuel, 4l, 334, p. 419 (1968)
43 Chervinsky A AIAA J 7, 10. October, p 1877 (1969).
44 Be0r J M., Chigier N A., J Inst. Fuel 42, 347. p 443 (1969)
45. Syred N.. Chigier N. A. Beei J. 4.. 13th Symposium (Int.) on Combus tion. p. 617. The Combustion Inst. Pittsburgh. Pa.. 1971.
46 Bafuwa G G. Maccallum N R L.. Turbulent swirling flames issuing Iron vane sw'irlers Paper presented at I8lh Meeting of Aerodynamics Panel International Flame Research Foundation. Paris. France, 1970.
47 Mestre A., Benoil A., 141b Symposium (Int.) on Combustion. The Combus tion Inst., Pittsburgh, Pa., 1973.
48 Sewartz 1 R., AIAA Paper 72-645, Boston, M. A., 1972.
49. Beer J. Μ., I Jnst. Fuel, 45, 378, p. 370 (1972)
50. Leuckel W„ Flicker N, J. Jnst. Fuel. 49, p 103 (1976).
51. Wu H. L„ Fricker N.. J. Inst. Fuel, 49, p 144 (1976)
52 Fricker W„ Leuckel W„ J. Inst. Fuel. 49, p. 152 (1976).
53. Pratte В D Keffer J. F., ASME Paper 72 WA/FE 17, New York, 26—30, November, 1972.
54. Allan R. A., Ph. D. Thesis, Dept, of Chem. Eng. and Fuel Tech., Sheffield Univ., England, 1970.
55. Apak G., Ph. D. Thesis, Dept, of Chem. Eng. and Fuel Tech., Sheffield Univ., England, 1974.
56. Chigier N. A., Apak G., 2nd European Symposium on Combustion, p. 684, Orleans, France, 1—5, September, 1975.
57. Lewis G. D., 14th Symposium (Int.) on Combustion, p. 413, The Combustion Inst., Pittsburgh, P, 1973.
58. Lewis G. D., AIAA Paper No. 73-1250, Las Vegas, Nevada, 5—7, November, 1973
59 Lewis G. D. Smith С. E., Investigation of centrifugal force and Reynolds number effects on combustion processes AFOSR-TR-75-1167, 1975.
60. Clements T. R_, Effect of swirling flow on augmentor performance: phase 1 and II. NASA CR 134639. 1974. and NASA-CR-135024, 1976.
61. Mestre A., Proc. of ASME Fluid Mech. of Comb. Conf., p. 89. Montreal, 1974.
62. Mestre A., Benoit A , 14th Symposium (Int.) on Combustion, p. 413, The Combustion Inst.. Pittsburgh, Pa., 1973
63 Martin D. T, Gouldin F. C., Yetter R. A., Preliminary evaluation of vortex breakdown stabilized combustor, Paper presented at the ESS/C1 Fall Meeting, New York, 6—7. 1975.
64. Yetter R. A.. Gouldin F C.. Exhaust gas emission of a vortex breakdown stabilized combustor, Paper No. 76-33, presented at WSS/CI Fall Meeting, La Jolla, California, 18—20, 1976.
65. Syred N.. Beer J M„ 14th Symposium (Int.) on Combustion, p. 537. The Combustion Inst., Pittsburgh, Pa., 1973.
66 Syred N , Веёг J. M., Astronautica Acta. 17, p. 783 (1972).
67 Syred N.. Gupta A. K., Beer J. M„ 15 th Symposium (Int.) on Combustion, p. 587, The Combustion Inst., Pittsburgh, Pa., 1975.
68 Gupta A. K. Beer J. M. Swithenbank J.. 16th Svmposium (Int.) on Combustion, p. 79, The Combustion Inst.. Pittsburgh, Pa., 1977.
69 Chlgler N. A., Beer J. M., Grecov D„ Bassindale K., Combustion and Flame, 14, p 171 (1970).
70 Befcr J. M„ Chigier N. A.. Davies T. W.. Bassindale K., Combustion and Flame, t6, n. 39 (1971).
71. Penner S. S., Astronautica Acta, 17. p. 351 (1972).
72. Lee S. L„ /. Applied Mechanics, 33. p. 647 (1966).
73. Emmons H. W.. Ying S J., 11th Symposium (Int.) on Combustion, p. 475, The Combustion Inst., Pittsburgh. Pa.. f967
74 Muraszew A.. Fedele J R.. Kubv W. C., Combustion and Flame, 34, p. 29 (1979)
75. Schlichting H., Boundary Layer Theory, McGraw-Hill, New York. 1965. ГИмеется перевод- Шлихтинг Г Теория пограничного слоя.— М.: Наука. 19691
76. Syred N.. Royle J. К., Fluidics Quarterly. 14, p. 56 (1972).
77. King A. R.. Australian Meteorological Mapaznle, 54, March, p. 1 (1944).
78. Syred N., Веёг J M.. Chigier N. A. Proc. of Salford Svmp. on Internal Flows. Inst, of Mech. Eng., London. 1971
79. Chigier N. A., Dvorak K.. 15th Svmposium (Int.) on Combustion, p. 573, The Combustion Inst., Pittsburgh, Pa.. 1975 See also: Gupta et al.. Comb. Scl. and Tech.. 17. No. 5 and 6, p. 119 (1977)
80 Baker R J , Hutchinson P . Khalil E. E„ Whitelaw J. H., 15th Symposium (Int.) on Combustion, p 553. The Combustion Inst., Pittsburgh. Pa.. 1975.
81. Owen F K., Laser Velocimeter Measurements of a Confined Turbulent Diffusion Flame Burner, AIAA Paper No 76-33, Washington D. C . 1976.
82 Ribeiro Μ. M., Whftelaw J. H.. Coaxial iets w-ith and without swirl. Report No. FS/78/25, Dept, of Mech. Eng., IC, London, 1978.
83 Habib M. A., Whitelaw J. H„ ASME Paper 79-WA/FE 21, New York, 2—7,
December, 1979.
84. Launder В. E., Spalding D. B.t Mathematical models of turbulence. Academic Press, London, 1972.
85. Mellor G. L., Herring H. J., AIAA Journal, 11, 5, May, p. 590 (1973). [Имеется перевод: Меллор, Херниг Обзор моделей для замыкания уравнений осредненного турбулентного течения. — Ракетная техника и космонавтика, 1973, № 5, с. 17.J
86. Turbulence Transport Modeling, А1АА Selected Reprint Series Vol. XIV, Harlow F. H. (ed.), 1973.
87. AGARD, Turbulent Shear Flows. AGARD-CP-93, January, 1972.
88. Lilley D. G . Proc. of IMA Conf. on Computational Methods and Problems in Aeronautical Fluid Dynamics, held in Manchester, England, 24—26, Sept., 1974.
89. Launder В E., Reece G. J., Rodi W., Progress In the development of a Reynolds-stress turbulence closure, Report No. HTS/73/31, Dept, of Mech. Eng., IC, London, 1973.
90. Koosinlin M. L., Lockwood F. C., AIAA Journal, 12, 4, April (1974). [Имеется перевод: Кусинлин, Локвуд. Расчет осесимметричных турбулентных закрученных пограничных слоев. — Ракетная техника и космонавтика, 1974, № 4, с. 168.1
91. Fejer A., Lavan Z.f Wolf (Jr.) L., Study of swirling fluid flows, ARL-68- 0173, Aerospace Research Laboratories, USAF, Wright-Patterson AFB.Ohio, October, 1968.
92. Scott C. J., Rask D. R., ASME Paper No. 73-FE-16. Atlanta, Ga., June, 1973.
93. Lilley D. G-, A/AA Journal, 14. p. 547 (1976). [Имеется перевод: Лилли. Простой метод расчета скоростей и давления в сильно завихренных течениях. — Ракетная техника и космонавтика, 1976, № 6, с. 57-1
94 Lilley D. G , Chigier N. A., Int. J. Heat Mass Transfer, 14, p. 573 (1971).
95. Lilley D. G., Chigier N. A., /. Comp. Physics, 9, p. 237 (1972).
96. Lilley D. G.. Int J of Computers and Fluids, 4, p. 45 (1976)
97. Lilley D. G., AIAA Journal, II, 7, July, p. 955 (1973). [Имеется перевод: Лилли Расчет инертных закрученных турбулентных потоков. — Ракетная техника и космонавтика, 1973, № 7, с. 75-1
98. Bradshaw Р J , J. of Fluid Mechanics, 36. ρ. 177 (1969).
99 Siddhartha V., Ph. D Thesis. Dept, of Mech. Eng.. 1C, London, 1971
100. Rubei A., Some effects of swirl on turbulent mixing and combustion, NASA- CR-1956, Advanced Technology Labs., Inc., Hericho, N. Y., 1972.
101 Koosinlin M. L., Lockwood F. C. The prediction of turbulent boundary layers on rotating axially svmmetrical bodies. Report No. HTS/71/6. Dept, of Mech Eng.. IC. London, 1971.
102. Anasoulis R F., McDonald H„ A study of combustion flow computations and comparison with experiment. Report No. EPA-650/2-73-045, December, United Aircraft Research Labs., East Hartford, Conn., 1973.
103. Boccio J. L., Weiierstein G , Edelman R В, A mathematical model for jet engine combustor pollutant emissions, NASA-CR-121208, March, General Applied Science Labs., Inc., 1973
104. Lilley D. G . AIAA Journal, 13, No. 4. p. 419 (1974).
105. Roberts L. W., Turbulent swirling flows with recirculation, Ph. D Thesis, IC, London University, 1972.
106 Lilley D. G.. Acta Astronautica, 3, p. 919 (1976).
107. Wygnanski I., The Physics of Fluids. 13. 10, p. 2455 (1970).
108 Lavan Z., Nielsen K, Fejer A. A., The Physics of Fluids, 12, 9, p. 1747 (1969)
109. Khalil E. E., Spalding D. B.. Whitelaw J. H., Int. J. Heat Mass Trans, 18, p. 775 (1975).
110. Morse A., Ph. D. Thesis, 1C. London, 1977.
111. Launder В. E., Morse A., Paper at Symp. on Turbulence Shear Flows, p. 421, Univ. Park, Penn., 18-20, April, 1977. [Имеется перевод: Лаундер Б. Е., Морс А Численный расчет осесимметричных свободных сдвиговых течений с использованием замыканий для напряжений. Турбулентные сдвиговые течения—1. — М. Машиностроение, 1982. с. 291]
112. Lilley D. G-, AIAA Journal, 12, February, p. 219 (1974). [Имеется перевод: Лиллн. Расчет пламени в турбулентном закрученном потоке. — Ракетная техника и космонавтика, 1974, № 2, с. 117.]
113. Lumley J. L., Prediction methods for turbulent flow, VKI Lecture Series, No. 76, 1975.
114. Sislian J. P., Analysis of swirling jet turbulent mixing and combustion, UT1AS Report No. 249, Univ. of Toronto, Canada, March, 1981.
115. Saffman P. G., Proc Royal Soc., London, A317, p. 417 (1970).
116. Wilcox D. C., Traci R. Μ., A1AA Paper 76-351, Washington D. C., January, 1976.
117. Wilcox D. C., Chambers T. L., Streamline curvature effects on turbulent boundary layers. Report DCW-R-04-01, DCW Industries, L. A., 1975.
К ГЛАВЕ 4
1. Chemical Engineers’ Handbook, Perry R. H.t Chilton С. H (ed ), 5th edn„ McGraw-Hill, New York, 1973
2. Beer J. M., Chigier N. A., Combustion Aerodynamics, Applied Science, London and Halsted Wiley, New York, 1972.
3. Stambuleanu A., Flame combustion processes in industry. Abacus Press, Tunbridge Weils, Kent., England, 1976.
4. Gas Tumine Combustor Design Problems, Lefebvre A. H. (ed.)p Hemisphere — McGraw-Hill, New Vork, 1980.
5. Chigier N. A., Astronautica Acta, 17, p. 381 (1972).
6. Syred N.. Beer J. M., Combustion and Flame, 23, p. 143 (1974).
7. Lilley D. G, AIAA Journal, 15, No. 8, August, p. 1063 (1977). [Имеется перевод; Лилли. Обзор работ по горению в закрученных потоках. — Ракетная техинча и космонавтика, 1977, № 8, с. 12.]
8. Drake Р. F., Hubbard Е. F., / Inst. Fuel, 39, р. 98 (1966)
9. Kerr Ν. Μ, Fraser D„ /. Inst. Fuel, 38, p. 519 (1965)
10. Mather M. L., Maccallum N R. L.. J. Inst. Fuel, 40, p. 214 (1967).
11. Afrosimova V. N., Thermal Eng., 14, 1, p. 10 (1967) [См.: Афросимо-
ва В. Н. Исследование аэродинамики топочного пространства. — Теплоэнергетика, 1967. № 1, с. 9.]
12. Syred N.. Chigier N. A., Beer J M., 13th Symposium (Int.) on Combustion, p. 563. The Combustion Inst., Pittsburgh, Pa., 1971.
13. Cassidy J J., Falvey Η. T., J. Fluid Mechanu s, 41. 4, p 727 (1970).
14. Вебг J. M., Leuckel W., Paper No. 7, North American Fuels Conference, Ottawa, Canada. May 1970, organized by the Canadian Combustion Inst.. ASME and the Institute of Furl.
15. Akhmedov R. B., Rashidov F. K-, Thermal Eng., 16, 4, p. 130 (1969) [См.: Ахмедов P. Б., Рашидов Ф. К Гидравлические характеристики воздушных регистров вихревых горелок с акснльно-тангеицнальным подводом воздуха. — Теплоэнер1етнка, 1969. № 4, с. 90 ]
16. Akhmedov R. В., Rashidov F. К., Thermal Eng., 16, 8, р. 78 (1969). [См.: Ахмедов Р. Б., Рашидов Ф К- Аэродинамические характеристики вихревых горелок с аксиально-тангеициальиым лопаточным аппаратом. — Теплоэнергетика, 1969, № 8, с. 52 ]
17. Syred N.. Beer J. М., Chigier Ν. A., Proceedings Conference on Internal Flow's, held at Satford University, 1971, organized by the Institute of Mechanical Engineers and Salford University, p. B27.
18. Syred N.. Всбг J. M., Astron. Acta, 17, 4/5, p. 783 (1972)-
19. Ustimenko B. P., Bukhman M A., Thermal Eng., 15, 2, p. 90 (1968). (См.: Устименко Б. П-, Бухмаи Μ. А. Турбулентная структура потока в циклонной камере — Теплоэнергетика, 1968, № 2, с. 64.]
20. Allen R. A., Ph. D. Thesis, Department of Fuel Technology and Chemical Engineering, Sheffield University, 1970.
21. Chigier N. A., Beer J. M_, Trans. ASME 86D, J. Basic Eng., 4, p. 788
(1964) . [Имеется перевод: Хигнр H. А., Бэр Дж. М. Область течения двойных концентрических струй вблизи сопла. — Труды американского общества иижеиеров-механикоа Серия Д. Теоретические основы инженерных расчетов, 1964, № 4, с. 195.]
22. Smithson I. К-, Ph. D. Thesis, Department of Fuel Technology and Chemical Engineering, Sheffield University, 1969.
23. Dvorak K., Department of Chemical Engineering and Fuel Technology. Sheffield University, Private Communications, 1973.
24. Chigier N. A., Gilbert J. L., A Inst. Fuel, 41, p. 105 (1968).
25. Chigier N. A., Dvorak K-, 15th Symposium (Int.) on Combustion, p. 573, The Combustion Inst., Pittsburgh, Pa., 1975.
26. Wu H. L.p Fricker N., An investigation of the behavior of swirling jet flames in a narrow cylindrical furnace, Doc. No. K20/a/61, 2nd Member’s Conference, Inst. Flame Res. Fdn., ljmuiden, Holland, 1971.
27. Syred N.. Beer J. M., Nth Symposium (Int.) on Combustion, p. 523, The Combustion Inst., Pittsburgh, Pa., 1973.
28. Beer J. M., Monnot G A., Principaux Recultats de deux nouvelles series d’essaiS sur les bruleours a pulverization mechanique, J. Et. Flammes, 5, November (1963).
29. Leuckel W., Swirl intensities, swirl types and Energy losses of different swirl generating devices, Doc. No. G02/a/16. of the Int. Flame Res. Fdn., ljmuiden, Holland, 1967.
30. Ivanov A. G., Thermal Eng., 15, 5, p. 44 (1968). [См.: Иванов А Г. Методика оценки проточной части вихревых горелок. — Теплоэнергетика, 1968, № 5, с. 35.]
31. Romadin V. Р., Shagalova S. L., Reznik V. A., Zhukov I., Shnitzer 1. N., Thermal Eng., 15, 3, p. 113 (1968). [См.: Рекомендации no проектированию закручивающих устройств в вихревых пылеугольиых горелках. — Теплоэнергетика. 1968. № 3, с. 77 ]
32- Sarpkaya Т., J. Fluid Mech.. 45, pt. 3, р. 545 (1971).
33. Harvey J. К., J. Fluid Mech., 14, pt. 4, p. 585 (1962).
34. Lambourne N. C. Biver D. №.. The bursting of leading edge vortices — some observation and discussions of the phenomenon, Aeronautical Research Council, Great Britain, R. and M. 3282, 1962.
35. So K. L., AIAA J., 6, 5, p 1072 (1967). [Имеется перевод: Coy К- Л. Явление завихрения в коническом диффузоре. — Ракетная техника и космонавтика, 1967. № 6, с. 20.]
36. Werle Н., Oncra, Le kecherche Aeronautique, (74), р. 23 (1960).
37. Mager А., 1. Fluid Mech., 55, pt. 4, p. 609 (1972).
38. Faier J. H.p Leibovich S., The Physics of Fluids, 20, 9, September, p. 138) (1977).
39. Olsen J. H., Goldburg A., Rogers M., Several papers in aircraft wake turbulence and its detection. Plenum Press, New York, 1971.
40. Brooke-Benjamin T., J. Fluid Mech., 14, p. 593 (1962).
41. Channaud R. C, J. Fluid Mech., 21, pt. 1, p. Ill (1965).
42. Spruyt A. G., Nederlands Akoetisch Genootschap, gehouden op 2, November, te Utrecht, 1972.
43. Syred N.. Beer J. M.. Proc. Combustion Institute. European Symposium, p. 542, Sheffield University. September, 1973
44 Syred N.. Gupta A. K., Beei J. M., 15th Symposium (Int.) on Combustion, p. 587, The Combustion Inst., Pittsburgh, Pa., 1975.
45. Syred N.. Beer J. M., Proc. 2nd JSME Symposium on Fluid Machinery and Fluidics, p ltl Tokyo, September, 1972.
46. Dorrestein W. R., J Inst Fuel, 41, p. 387 (1968).
47. Rayleigh J. W. S., Proc. Royal Soc., London, 93, p. 148 (1916).
48. Beer J. M., Chigier N. A., Davies T. W.. Bassindale K., Combustion and Flame, 16, p. 39 (1971).
49. Sturgess G-, Comment on Ref. 27 in the Proc 14th Symposium (Int.) On Combustion, p. 550. The Combustion Inst., Pittsburgh, Pa., 1973.
50. Beer J. M., Chigier N. A., J Inst. Fuel, 42, p. 443 (1969).
51. Syred N.. Hanby V 1. Gupta A. K, /. Inst. Fuel., 46, p. 402 (1973)
52. Gupta A. K-, Syred N.. Beer J. M., Gas Warme International, 23, 2, p. 39 (1974).
53 Bafuwa G. G., Maccallum N R. L., Turbulent Swirling Flames issuing from vane swirles, Paper presented to the 18th Meeting of the Aerodynamics Panel, Int. Flame Res. Fdn.t Paris, September, 1970.
54. Bellagui S. A., Maccallum N. R. L., Proc. Combustion Institute European Symposium, p. 599. Sheffield University, 1973-
55. Bafuwa G. G., Maccallum N. R. L., Proc. Combustion Institute European Symposium, p. 565, Sheffield University, 1973.
56 Baker R. J., Hutchinson P, Whitelau' J. H., Proc. Combustion Institute European Sumposium, p. 583, Sheffield University, 1973.
57. Manhcimer-Timnat Y., Segal A., Wolfshtein M., Proc. Combustion Institute European Symposium, p. 571, Sheffield University, 1973.
58. Gupta A. K•, Syred N.. Веёг J. M , 15th Symposium (Int.) on Combustion,
&I367, The Combustion Inst., Pittsburgh, Pa., 1975.
wen F. K-, Spadacine L. J., Bowman С. T, 16th Symposium (Int.) on Combustion, p. 105, The Combustion Inst., Pittsburgh, Pa., 1977.
See also. Ow'en F. K., AIAA Paper 76-33, Washington D. C., 1976.
See also: BowTnan С. T. and Cohen L. S.. Report EPA-650/2-75-061a, East Harford, Connecticut, July, 1975.
60. Gupta A. K-, Beer J. M., Swithcnbank J., 16th Symposium (Int.) on Combustion, p. 79, The Combustion Inst., Pittsburgh, Pa., 1977.
61. Baker R. J., Hutchinson P.. Khalil E. E., Whitelaw' J., 15th Symposium (Int.) on Combustion, p 553, The Combustion Inst., Pittsburgh, Pa., 1975.
62. Syred N.. Dahmen K. R., J. of Energy, 2, 1, p. 8 (1978).
63. Becker N. A., Browii A P. G., Response characteristics of pitot and static pressure probes with application to measuring turbulence intensity. Report 1-71, Dept. Mech. Eng., Queen’s University, Kuneston, Ontario, Canada, September, 1971.
64. Lenze A., Ph. I). Thesis, Turbulenzverhalten und ungemischiteit von strah- len und strahlflammen, Karlsruhe University, 1971.
65. Beltagui S. A., Maccallum N. R. L„ /. Inst. Fuel, 49, 401, December, p. 183 (1976).
66. Beltagui S. A., Maccallum N. R. L.. J. Inst. Fuel, 49, 401, December, p. 193 (1976).
67. Wu H. L., Fricker N.. J. Inst. Fuel, 49, 400, September, p 144 (1976).
68. Khalil К• H., El-Mahaliawy F. M., Moneib H. A., 16th Symposium (Int.) on Combustion, p. 135, The Combustion Inst., Pittsburgh, Pa., 1977. See also: Syred N.. Dahmen K. R•» Styles A. C., Najim S. E., J. Inst. Fuel, 50, 405, December, p. 195 (1977).
69. Vranos A., Knight B. A., Eabielski M. F., Combustton and Flame, 1982 (in print).
70. Syred N., Dahmen K. R-, 2nd European Symposium on Combustion, The Combustion Inst., Orleans, France, September, 1975.
71. Dahmen K. R-, Syred N.. Aerodynamic flame stabilization processes wilh small swirling waste gas burners. Paper presented at the Fluid Mechanics of Combustion Symposium organized by the Combustion Institute, NASA Lewis Research Center, Cleveland, Ohio, USA, March, 1977.
72. Iverne! A., Karlnthl P., Bertrand C, MicheHelder S., Role de 1'oxygene dans {’amelioration des performances de combustion du gaz de hauf-four- neau, Paper presented at the 9th French Flameday, Paris, October, 1977, Doc. no. K20/a/98 of the International Flame Research Foundation.
73. Grant J. R., Rice J. G., Thomas W. C.t An experimental study of the combustion of low heating value gas in a swirl burner, presented at the Fluid Mechanics of Combustion Symposium organized by the Combustion Institute, NASA Lewis Research Center, Cleveland, Ohio. USA, March, 1977.
74. Shagalova S. L., Shnitser I N., Gromov G. V., Thermal Eng., 12, .3, p. 7.
(1965) . [См.: Шагалова С Л., Шиицер И. H., Громов Г. В. Характеристики потока в цилиндрических каналах за улиткой и лопаточным завих- рителем.—Теплоэнергетика, 1965, № 3, с. 7.]
75. Shagalova S. L., Rubin Μ. М., Katsnelson В. D., Shnitser I. N., Parpa- rov D. I., Patychenko V. S., Barbyshev B. N.. Zaraiski S. I., Foshko L. S., Madoyan A. A. and Kulchitskii A. I., Thermal Eng., 14, 1, p. 16 (1967). [CM . Результаты испытаний мощных пылеугольиых горелок производительностью 10 т/ч по АШ —Теплоэнергетика, 1967, № 1, с. 13.]
76. Romadin V О., Shagalova S. L., Reznik V. A., Zhukov I. Т. and Shnitser I. N.. Thermal Eng., 15, 2. p. 114 (1968). [См.: Рекомендации no выбору, расчету и проектированию вихревых пылеугольных горелок дл» сжигания АШ, ПА и тощих углей в открытых и полуоткрытых топках. — Теплоэнергетика, 1968, Λ'® 2, с. 81.]
77. Akhmedov R В., Rashedov F. К•, Thermal Eng., 16, 4, р, 130 (1969). [См. ссылку [15].]
78. Shagalova S. L., Schnitser I. N.. Parparov D. 1., Thermal Eng., 16, 6, p- 39 (1969).
79. Shagalova S. L., Katsman V. M., Balikhina T. 1., Parparov D. I., Yu- rev L. V., Ivanov V. S.. Dubrovskli V. D., Samchenko B. N., Thermal Eng., 17, 7, p. 123 (1970). [См.: Определение параметров закрутки н коэффициентов гидравлического сопротивления горелочных устройств с различными завихригелями.— Теплоэнергетика, 1970, № 7, с. 88]
80 Ivanov A. G., Gromov G. V., Thermal Eng., 17, 9, р. 75 (1970). [См.: Иванов А. Г., Громов Г. В. Коэффициент сопротивления вихревой горелки с поворотными тангенциальными лопатками. — Теплоэнергетика, 1970, № 9, с. 50.]
81. Tager S. A., Thermal Eng., 18, 7, р. 120 (1971). [См.: Тагер С. А. Расчет аэродинамического сопротивления циклонных камер сгорания —Теплоэнергетика, 1971, № 7, с. 88 ]
82 Hakluytt J. Р. D., North В. D., J. Inst. Fuel, 41, р. 195 (1968).
83 Beer J. М., Lee К. В., 10th Symposium (Int.) on Combustion, p. 1187, The Combustion Inst., Pittsburgh, Pa., 1965.
84. Rao S. T. R., Essenhelgh R. H., 13th Symposium (Int.) on Combustion, p. 603, The Combustion Inst., Pittsburgh, Pa., 1972.
85. Thring M W., Newby Μ. P., 4th Symposium (Int.) on Combustion, p. 789, The Combustion Inst., Pittsburgh, Pa., 1953.
86. Fricker N.. Flow and combustion phenomena in swirl stabilized gas and oil diffusion flames. Paper VIII, Members* Conference, Int. Flame Res. Fdn., Ijmuiden, May, 1971
87. Faler J. H., Leibovich S., /. Fluid Mech., 86, 2, p. 313 (1978).
88. Leibovich S., Annual Rev. Fluid Mech., 10, p. 221 (1978).
89. Sozou C. J , Swithenbank J., Journal of Fluid Mechanics, 38, (4), p. 657 (1969). See also. Sozou C. J., Journal of Fluid Mechanics, 36, p. 605 (1969).
90 Suzuki M., Theoretical and experimental studies on the vortex tube. Scientific Papers Institute Physics and Chemistry Research, Tokyo, 54, !. p. 44 (1960).
91. Jones R. E.f Prog, in Energy and Comb. Scl., 4, p. 73 (1978).
92. Heap M P., Lowes T. M.. Walmsley R., 1st European Symposium on Combustion, Sheffield, England, 16—21, September, 1973, p. 493, F. J. Weinberg (ed.), Academic Press, London, 1973.
See also 14th Symposium (Int.) on Combustion, The Combustion Inst., p. 883. Pittsburgh, Pa., 1973.
93. Leuckel W„ Fricker N.. J. Inst. Fuel, 49, 399, June, p 103 (1976).
94. Fricker N., Leuckel W., J. Inst. Fuel, 49, 400, September, p. 152 (1976).
95. McEwan, Hot and cold studies on an oil-fired burner with swirler fitted in a refinery oil heater. Paper presented at the 2nd Members’ Conference on the Int. Flame Res.. Ijmuiden, Holland, 1971
96. Breen В P., 16th Symposium (Int.) on Combustion, p. 16, The Combustion Inst., Pittsburgh. Pa.. 1977-
97. Schoppe F., Ol und Gasfeuerung, 4, p. 4i4 (1969).
98. Beer J. M„ British Patent No. 1099959, 1968.
99. Gupta A. K., Jhawar P., Beer J. M., Combustion and emission characteristics of a multi-annular swirl burner. Proceedings of the 85th AlChE Meeting, Paper No. 44a, June, 1978.
100. Gupta A. K-, Khan H., Beer J. M., Lilley D. G., 19th AIAA Meeting, St. Louis, Missouri, January, 12—15, Paper 81-0044, 1981. See also: AIAA J. of Energy, 6, p. 289 (1982).
101. Gupta A. K., Beer J. M., Louis J. F., Busnaina A. A., Lilley D. G-, Symposium on Fluid Mechanics of Combustion Systems, Boulder, Colorado, 22— 24, June, 1981. See also: ASME J. of Fluids Eng., 104, p. 385 (1982)
102. Meier J. G., Vollerin B. L., 16th Symposium (Int) on Combustion, p. 63. The Combustion Inst., Pittsburgh, Pa., 1977.
103. Wroblewska V-, Velkowski J., Wojeicki S., 16th Symposium (Int.) on Combustion, p. 401. The Combustion Inst., Pittsburgh, Pa., 1977
104. Gupta A. K., Tippetts J. R., Swithenbank J., 2nd European Combustion Symposium, p. 690, Orleans, France, September, 1975.
105. Lilley D. G., AIAA Paper No. 74-527, Palo Alto, California, 17—19. June, 1974.
106. Lilley D G-, AIAA Journal, 14, June, p. 749 (1976). (Имеется перевод: Лилли. Простой метод расчета скоростей и давления в сильно завихпеи- иых течениях. — Ракетная техника н космонавтика, 1976, Ns 6, с. 57 ]
107. Mather М. L., McCallum N. R. L., Part 2: Enclosed Jets, /. Inst. Fuel, 40, June, p. 238 (1967).
108. Gosman A. D, Pun W. M., Runchal A. K•, Spaiding D. B., Wolfstein M. W., Heat and mass transfer in recircuiating flow's, Academic Press, London, 1969. (Имеется перевод: Численные методы исследования течений вязкой жидкости. — М.: А4ир, 1972 — 325 с.]
109. Khalil Е. Е., Spalding D В.. Whitelaw J. Н., Int. J. Heat Mass Trans., 18, p. 775, (1975)
110. Yoon H. K., Lilley D. G., AIAA Paper 83-0315, Reno, Nevada, 10—13, January, 1983. See also: Abujelala Μ. T . Lilley D. G., AIAA Paper 83 0316, Reno, Nevada, 10—13, January, 1983. Rhode D L.. Lilley D. G.. McLaughlin D. K., ASME J of Fluids Eng., 104, p 378 (1982). Rhode D. L., Lilley D. G., McLaughlin D K„ AIAA Paper 82-0177, Orlando, Florida, 10— 12. January, 1982.
111. Lilley D G.. Rhode D. L., A computer code for swirling turbulent axi- symmetric recirculating flows in practical isothermal combustor geometries, NASA CR-3442. February, 1982.
112. Ramos J. I. A numerical study of turbulent swirling flow's. Report CO/81/2, Dept, of Mech. Eng., Carnegie-Mellon Univ., Pittsburgh. Pa . 1981.
113. Sturgess G. L., Sycd S. A., Paper AIAA 82-0113, Orlando, Florida. 11—14, January, 1982
114. Khalil E. E„ Modeling of furnaces and combustors, Abacus Press, Tunbrld- ge-Wells, England, 1982.
115. Pun W. M., Spalding D. B., 18th International Astronautical Congress, Poland, 1967, Proceedings, Pergamon Press/PWN Polish Scientific Publications, p. 3, 1968.
116. Roberts L. W., Turbulent swirling flows with recirculation, Ph. D. Thesis, Imperial College, London University, 1973.
117. Schorr C. J., Worner G. A., Schimke J., 14th Symposium (Int.) on Combustion, p. 567, The Combustion Inst., Pittsburgh, Pa., 1973.
118. ELMahallawy F. M., Lockwood F. C., Spalding D. B., Combustion and Flame, 23 (1974).
119. Lilley D. G., Acta Astronautica, 1, p. 1129 (1974).
120. Scaccia C., Kennedy L. A., AIAA Journal, 12, 9, September, p. 1268 (1974). [Имеется перевод: Скассия К•, Кеннеди Л. А. Расчет двумерных химически реагирующих течений. — Ракетная техника и космонавтика, 1974, № 9, с. 130.]
121. Anasoulis R. F., McDonald Н., Buggeln R. C, Development of a combustor flow analysis. Part 1: Theoretical Studies, Tech. Report No. AFAPL-TR- 73-98, Part 1, Air Force Aero Prop. Lab., Air Force Systems Command, Wright-Patterson AFB, Ohio, January, 1974 (see also Part 2 and 3).
122. Kubo I., Gouldin F. C., J. of Fluids Eng., September, p. 310 (1975).
123. Netzer D. W., Modeling solid fuel ramjet combustion, Presented at 13th JANNAF Combustion Meeting, Naval Postgraduate School, Monterey, California, 13—17, September, 1976.
124. Schulz R. J., Ph. D. Thesis, University of Tennessee, June, 1976.
125. Peck R. E., Samuelsen G. S., 16th Symposium (Int.) on Combustion, p. 1675, The Combustion Inst., Pittsburgh, Pa., 1977
126. Beltagui S. A., McCallum N. R. L.. J. Inst. Fuel, 49, p. 193 (1976).
127. Emissions from Continuous Combustion Systems, Cornelius W., Ag- new W. G. (eds.), Plenum Press, New York, 1972.
128. Gibson Μ. M„ Morgan В В , /. Inst of Fuel, 43, p. 517 (1970).
129. Crowe С. T., Pratt D. T., Gross characterization of mixing in combustion chambers based on a fluid dynamical mode], Paper at CI/ESS Fall Tech. Meeting, 5—6, November, 1970.
130. Harlow F. H„ Amsden A. A., /. of Comp. Phys, 8, p. 197 (1971).
131. Wieber P. R., Numerical studies of unsteady two-dimensional subsonic flows using the ICE method, TM X-68288. NASA, August. 1973, (N73- 31240).
132. Novick A. S., Miles G. A., Lilley D. G., J. of Energy 3, 2, March —April, p. 95 (1979).
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141. Ross D. H.. An experimental study of secondary flow in Jet driven vortex chambers, Aerospace Corporation, Report No. ATN 64(9227) -1, Clearing House for Federal, Scientific and Technical Information of the US Dept, of Commerce. Unclassified Report No. AD433052.
142. Gyarmathy B., AIAA Fluid and Plasma Dynamics Conference, Paper No. 68-694, Los Angeles, 1968.
143 Holman J. P., Moore G. D , Trans. ASME. J. Basic Eng.. Series D-J, 83, 4. P 632 (1961)
144. Trotter C, Secondary flow in vortices. Dept, of Fuel Tech, and Chem. Eng., Sheffield Univ., Report No. HIC 79, 1966.
145 Travers A., Experimental Investigation of radial Inflow' vortex in fet injection and rotating peripheral wall w'ater vortex tubes. Report No. F- 910091-14 by the United Aircraft Corporation under Contract No. NASW-
847 for NASA, Available from the Clearing House for Federal. Scientific and Technical Information.
146. Roschke E. J., Flow-Visualization studies of a confined jet-driven water vortex, Jet Propulsion Lab., Pasadena, Ca., TR32-1004. 15, September, 1966. See also Report No. TR32-982, 15, October, 1966.
147. Gupta Λ. K., Styles A. C., Beer J. M., Evaporation-Combustion of fuels, Advances in Chemistry Series, 166, p 93 (1978).
148 Anderson O. L., Theoretical effect of Mach number and temperature gradient of primary and secondary flows in a jet-driven vortex. Tech. Report No. RTD-TDR 63-1098, Research and Technology Division Edwards AFB, Ca. Prepared by the United Aircraft Corporation Research Laboratories.
149. Ranque G. J., J. Phijs Radium, 4, Series Vfl, 6, (No. 342, Bulletin Bi-men- sual), p. 1125 (1933).
150. Eckert E. R.G., Harnett J. P., Trans. ASME, 79, I, p. 751 (1957).
151. Metcalf T. B., British Chem. Eng., 11, p. 584 (1966).
152. Bruun Η. H., J. Mech. Eng. Sci., II, p. 567 (1969).
153. Van Deemter J. J., Applied Sci. Res., 3, sec. A., p. 174 (1972).
154. Deissler R. G., Permulter M., An analysis of the energy separation in laminar and turbulent compressible vortex flow, p 40, Heat Transfer and Fluid Mechanics Institute, Univ. of California, Berkeley, June. 1958.
155. Lay J. E., /. Heat Transfer, Trans. ASME, Series C. 81, 3, p. 202 (1959).
156. Bruun Η. H„ Ph. D. Dissertation (in Danish), Fluid Mechanics Dept,Technical University, Denmark, 1967.
157. Metenin V. I., Soviet Physics—Tech. Phys., 5, February, p. 1025 (I96i).
158. Romadin V. P., Thermal Eng., 20, 7, p. 79 (1973). [См.: Ромадин В Π. Топки с угловыми тангенциальными горелками. — Теплоэнергетика, 1973, Ms 7, с. 55.1
159. Buetters К. A., Cogoli J. G., Habclt W. W , 15th Symp. (lnt.) on Combustion, p. 1245, The Combustion Inst., Pittsburgh. Pa., 1975.
160. Lowe A., Wall T. F., McStewart I., 15th Symp. (Int.) on Combustion, p. 1261, The Combustion Inst., Pittsburgh, Pa., 1975.
161. Sittig M., Incineration of industrial hazardous wastes and sludges, Noyes Data Corp., Park Ridge, New Jersey, USA, 1979.
162. Toxic and hazardous waste disposal, R. B. Pojasek (ed.), 4 and 6, Ann Arbor Science Publishers, Ann Arbor, Mf, 1980
163. Kiang Y. H_, Hazardous w'aste processing technology, Ann Arbor Science Publishers, 1982.
164. Senkan S., Tech. Rev., December, 1981
165. Senkan L., Gupta A. K-, Valeiras H., ACS Meeting, Las Vegas, March/Ap- ril, 1982.
166. Senkan S., Gupta A. K., Robinson J M„ Combustion and Flame (1983).
167. Haynes B. S., Wagner H., Prog. Energy and Combust. Sci., November (1981)
168. Wray S. W. Warwick M. G., US Patent 4043280. 23, August, 1977
169. Dahmen K. R., US Patent 4154567, 15, May, 1979.
170. Bernadiner M. N. et al., US Patent 3974021, 10, August, 1976.
171. Syrcd N.. Dahmen K. R., 2nd European Combustion Symposium, p. 414, The Combustion Inst., Orleans, France, 1975.
172. Powers P. W., How to dispose of toxic substances and industrial wastes, Noyes Data Corp,, Park Ridge. HJ, 1976.
173- Scheifley J C., Shields O. R., Bushby D. E., Dow Chemical Company, US Patent 4125593, 14, November, 1978.
К ГЛАВЕ 6
1 Веёг J Μ.. /. Inst. Fuel, July, p. 370 (1972). .
2. Combustion Fossil Power Systems, Singer J, G. .(ed,), Combustion Engineering Inc., Windsor, CT, 1981.
3. Patankar S. V, Spalding D. B., J Inst Fuel, September, p. 279 (1973).
4. Liliey D. G., AIAA Journal, 15, August, p. 1063 (1977). [Имеется перевод: Лилли. Обзор работ по горению в закрученных потоках. — Ракетная техника н космонавтика, 1977, №8, с. 119 ]
5. Davis R. М. Оерреп В., /. Inst. Fuel, July, р. 383 (1972).
6. Fossil fuel fired industrial boilers — background information for proposed standards, US Environment Protection Agency Report Research Trian- ge Park, NC, June, 1980.
7. Beer J. M., Chigier N. A., Combustion Aerodynamics, Applied Science Publishers, London, i972.
8. Godridge A. M., Read A. W.. Prog, in Energy and Combust. Sd., 4, p. 83 (1976)
9. Anson D., Boiler House Rev. Supplement, May, 1963.
10. Anson D., Modern powei station practice, Pergamon, 1971.
11. How Μ. E., Energy World, 13, p. 7 (1975).
12. McKenzie E. C. J. Inst Fuel, 44, p 468 (1971).
13. Anson D., Tindali D„ J. Inst Fuel, 40, p. 551 (1967)
14. Johnson T. R., Beer J M., J. Inst. Fuel, September, p. 301 (1973).
15. Beer J. M., Howarth C. R., 12th Symposium (Int.) on Combustion, The Combustion Inst., 1968.
16. Beer J. Μ., J. Inst. Fuel, 35, p. 3 (1962).
17. Mok L.. B. S. Thesis, Μ. 1. T.. May, 1980.
18. Hawthorne W. R., Weddei D S-, Hottel H. C., 3rd Symposium on Combustion, p. 266, Baltimore, MA, 1949. [Имеется перевод: Гаусори В., Унд- дел Д., Хоттел Г Смешение и горение в турбулентных газовых струях.— В кн.: Вопросы горения, Ч 1. М.: ИЛ. 1953, с. 146.]
19. Syred N.. Beer J. А\. Comb, and Flume, 23, p. 143 (1974).
20 Beer J. M., Lee К. В., 10th Symposium (Int.) on Combustion, p. 1187, The Combustion Inst., 1965. See also: Gupta et ai., ASME Symposium on Fiuid Mechanics of Combustion Systems, Boulder, CO, 22—24, June, 1981.
21. Zuber I., Koneeny V., Proc. of the 4th Symposium of Flames in Industry: Predictive Methods for Industrial Flames, p. 19 (organized by British Flame Research Commitee and Institute of Fuel), Imperial Coliege, London, 19—20, September, 1972.
22. Caretto L. S., Gosman A. D., Patankar S. V., Spaiding D. B., Proc. of 3rd Internationa] Conference on Numerical Methods in Fluid Mechanics, 2, p. 60, H. Cabanes, R. Teman (eds.). Springer-Verlag, W. Germany, 1973.
23. Patankar S V., Spaiding D B., Paper in Proceedings of 4th Symposium of Flames in Industry: Predictive Methods for Industrial Flames, organized by British Flame Research Commitce and Institute of Fuel, p. 13, Imperial College, London. 19 -20, September, 1972.
24. Patankar S. V-, Spalding D. B., 14th Symposium (Int.)) on Combustion, p. 604, The Combustion Inst., Pittsburgh, Pa., 1973.
25. Patankar S. V., Spalding D. B., Simultaneous predictions of flow pattern and radiation for three dimensional flames. Paper in Heat Transfer in Fiames, Afgan N. H., Beer J. M. (eds.), p. 73, Scrlpta Book Company (Hemisphere Wiley), Washington D. C., 1974.
26. Patankar S. V., Numerical prediction of three-dtmensional flows, In Studies in Convection, Launder В. E. (ed), p. 1, Academic Press, London. 1975.
27. Patankar S. V., Spalding D. B., Int. J. of Heat Mass Transfer. 15, p. 1787 (1972).
28. Caretto L. S., Prog, in Energy and Comb. Sd., 1, p. 47 (1976).
29. Abou Ellail Μ. Μ. M., Gosman A. D., Lockwood F. C., Megahed I. E. A., Description and validation of a three-dimensional procedure for combustion chamber flows turbulent combustion, L. A. Kennedy (ed.), Progress In Astronautics and Aeronautics. 58, p. 163, AIAA, New York. t978.
30. Pai В. R., Bartelds H., Michelielder S., Report on the М 3 Trials, Part A, Cold Heat Sink, An experimental investigation of the influence of operational and design variables on heat iransfer to the furnace hearth, Inter- natinoal Flame Research Foundation, Document No. F36/a/b, 1975.
31. Pai B. R.f Michelfeider S., Spalding D. B., Ini. J. of Heat Mass Transfer, 21, p. 571 (1978)
32. Petrash D. At Diehl L. A., Jones R. E., Mularz E. J., Paper in Aeropro- pulsion 1979 Conference, NASA-Lewis Research Center, Cleveland, Ohio, 15—16, May. 1979.
33. Stewart W. L. (Conference Chairman). Aeropropulsion 1979 Conference, NASA Lewis Research Center, Cleveland, Onio, 15—16, May, 1979.
34. Lefebvrc A. H., 15th Symposium (Int.) on Combustion, p. 1169, The Combustion Inst., 1975.
35 Mellor A. M., Prog, in Energy and Comb. Set., 1, p. Ml (1976)
36. Jones R. E., Prog, in Energy and Comb. Sci., 4, p. 78 (1978). See also: Jones R. E., NASA TM 82627 and A1AA Paper No. A1AA-8I 1392, Colorado Spring, Co., 27—29, July, 1981
37. Bahr D. W.t AIAA Paper No. 79-1197, Las Vegas, Nevada, 18—20, June, 1979.
38. Jones В., AIAA Paper No. 79-1196, Las Vegas, Nevada. 18—20, June, 1979.
39. Mularz E. J., AIAA Paper No. 79-1318, Las Vegas, Nevada, 18—20, June, 1979.
40 Odgers J., 15th Sysposium (Int.) on Combustion, p. 1321, The Combustion Inst., 1975.
41. Fundamentals of gas turbine combustion, A Workshop held at Lewis Research Center, Cleveland, Ohio, 6 — 7, February, 1979.
42. Vincent M. W.t Ph. D. Thesis, Sheffield University, England, 1973.
43. Felton P., Swithenbank J.. Turan A., Archiwum Termodynamikl i Spala- nia, 9, 2, p. 315 (1978).
44. Sturgess G. J., AIAA/SAE/ASME 16th Joint Propulsion Conference, 30 June — 2 July, 1980, Harford, Connecticut, Paper No. ΑΙΛΑ-80-Ι285.
45. Odgers J., Kretschmer D., Gas turbine fuels and combustion, Text in preparation, Energy and Engineering Science Series, Abacus Press, England, 1983.
46. Odgers J., Problems in future gas turbine combustors, Universite (.aval, Faculte Des Siences, Laboratoire de Combustion, Report No. J. O. 82, March, 1979.
47. Blazowski W. S., Maggitti L., Future fuels in gas turbine combustors. Prog in Astronautics and Aeronautics, 62, p. 21 (1977).
48. Lefebvre A H., Mellor A. M., Peters J. E., Prog, in Astronautics and Aeronautics, 62, p. 137 (1977).
49.. Odgers J., J. of Can. Aero and Space, October, p. 339 (1970).
50 Gupta A. K., Swithenbank J., Веёг J. M., The potential application of multi-annular swirl burner to a gas turbine combustor. Paper presented at the A. R. C. Comb. Sub-Commitee Meeting A. R. C. 36468, Comb. 186, London, December, 1975.
51. Patankar S. V., Numerical heat transfer and fluid flow', Hemisphere- McGraw-Hill, New York, 1980. [Имеется перевод: Патанкар С Численные методы решения задач теплообмена и динамики жидкости. — М-: Эиергоатомиздат, 1984 ]
52. Spalding D В., Paper presented at AGARD Propulsion and Energetics Panel, Liege, Belgium, 1—2, April, 1974, AGARD-CP 164, 1974.
53. Patankar S. V., Numerical prediction of three-dimensional flow's, paper in Studies in Convection, Launder В. E. (ed.), 1, p. 1, Academic Press, London, 1975.
54. Briley W. R., McDonald H., An implicit numerical method for the multidimensional compressible Navier — Stokes equations. United Aircraft Research Laboratories, Report M911363-6, November, 1973.
55. Gibeling H. J., McDonald H., Briley W. R., Development of a three-dimensional combustor flow analysis, Vol. II, Theoretical Studies, United Technologies Research Center, Report AF APL-TR-75-59, Vot. II. East Harford, Connecticut, October, 1976.
56. Mongia H. C, Smith K. F., AIAA Paper 78-998, Las Vegas, Nevada, 25— 27, July, 1978.
57. Mongia H. C, Reynolds R. S., Combustor design criteria validation, Vol. Ill —User's Manual, Report USARTL-TR-78 55C, US Army Research and Technology Laboratory, Ft. Eustis, Virginia, February, 1979. See also: Vols. I and II
58. Reynolds R. S., Kuhn T. E., Mongia H C, An advanced combustor analytical design procedure and its applications in the design and development testing of a premix/prevaporized combustion system, 1977 Spring Tech. Meeting Central States Section of the Combustion Institute, NASA Lewis Research Center, 28—30, March, 1977.
59. Patankar S V., Spalding D B., Heat and mass transfer in boundary layers, 2nd edn., Intertext, London, 1970. [Имеется перевод: Патанкар С. Сполдинг Д. Тепло- и массообмен в пограничных слоях. — М.: Энергия, 1971.J
60. Serag-Eldin М. A., Ph. D. Thesis, Imperial College, London, 1978.
61. Serag-Eldin M. A., Spalding D. B~, Trans. ASME, J. of Eng. for Power, 101, July, p. 326 (1979).
62. Jones W. P., Priddin C. Η., 17th Symposium (Int.) on Combustion, The Combustion Inst., Pittsburgh, Pa., 1979.
63. Swithenbank J., Turan A., Felton P G., Paper in Gas Turbine Combustor Design Problems (a Project SQUID Workshop), Lefebvre A. H. (ed), Hemisphere— McGraw-Hill, New York, 1980
64. Swithenbank J., Poll L, Vincent M. W., Wright D. D., 14th Symposium (Int.) on Combustion, p. 627, The Combustion Inst., Pittsburgh, Fa., 1973.
65. Baker A. J., Zelazny S. W., COMOC: three-dimensional boundary region variant, theoretical manual and users guide, NASA CR 132450, 1974.
66 Combustor Modeling, AGARD Conference Proceedings No. 275, February, !980.
67. Turbulent Reacting Flow, Libby P. A., Williams F. A. (eds ). Topics in Applied Physics, 44, Springer-Verlag, 1980.
68. May M., US Patent 4000722, 4, January, 1977.
69. Dyer T. M., Witze P. O., Johnson S. C., Smith J. R., AIAA 20th Aerospace Sciences Meeting, Paper 82-0235, Orlando, Florida, 11—14, January, 1982 Sec also: Witze P. O., Paper at SAE Congress, Detroit M. 1., February, 1982.
70. Hcywood J. B., Prog. Energy and Combust. Sci., 1, p. 135 (1976).
71. Gat N., Kauffman C. W., Central States Section/Combuston Institute Meeting, Purdue University, West Lafayette, Indiana, 3—4, April, 1978. See also: Wheeler R. W., Central States Section/Combustion Institute Meeting, Purdue University, West Lafayette, Indiana. 3—4, April, 1978.
72. Date T., Yagi S , Ishizuya A., Fujii I., Research and development of the honda CVCC engine, SAE West Coast Meeting, Anaheim, California, 12— 16, August. 1974.
73. Overington Μ. T.. Haslett R. A.. British Inst. Mech. Eng., Stratifield Charge Conference, Paper C253/76, London, England, November, 1976.
74. Gupta A. K., Lilley D. G., Flowfield modeling and diagnostics, Abacus Press, Tunbridge Wells, England, 1983.
75. Henein N A., rrog. Energy and Combust. Scl., I, p. 165 (1976)
76. Shahed S. M., Flynn P. F.. Lyn W. T., Central States Section/Combustion Institute Meeting, Purdue University, West Lafayette, Indiana, 2—3, April, 1976.
77. Walder C. J., SAE Automotive Engineering Congress, Detroit, Michigan, Paper 730214, January, 1973.
78. Wilson R. P., Muir E. B.f Pelliciotti F. A., SAE Automotive Engineering Congress, Detroit, Michigan, Paper 740123. February, 1974.
79. Torpey P. M., Whitehead M. J., Wright M , Inst. Mech. Eng. Conference on Air Pollution in Transport Engines, Paper Cl24/7, Soiihull, England. 9—11, November, 1971.
80. Austen A. E. W., Priede T.: SAE International Automotive Engineering Congress, Paper 1000A, Detroit, Michigan, January, 1965.
81. Anderton D., Baker J., SAE International Automotive Engineering Congress, Detroit, Michigan, Paper 730241, January, 1973.
82. Savery C. W., Matula R. A., Asmus T., SAE Automotive Engineering Congress, Detroit, Michigan, Paper 740213, February — March, 1974.
83. Kendall D. A., Levins P. L., Leonards G-. SAE Automotive Engineering Congress, Detroit, Michigan, Paper 740215, February — March, 1974.
84. Somers J. H., Kittredge G. D., Review of federally sponsored research on Diesel exhaust odors, EPA, Ann Arbor, Michigan, Report No. 71-75, for presentation at the 64th Annual Meeting of the Air Pollution Control Aso- ciation, Atlantic City, New Jercy, 27 June — 2 July, 1971.
85. Springer K- J., Emissions from Diesel and stratified charge powered cars, Report by Southwest Research Institute to EPA Contract No. PH 22-68-23, Report 460/3-75-00-a, December, 1974.
86. Behrens H„ 4th Symposium (Int.) on Combustion, p. 538, Williams and Wilkens, 1952. [Имеется перевод: Беренс Г Неустойчивость пламени и механизм горения. — В кн : Вопросы горения и детонационных воли.— М.: Оборонгиз, 1958. с. 375 ]
87. Peters J. A., Deangelis D A., Hughes Т. W., An environmental assessment of РОМ emissions from residential wood-fired stoves and fire places, 5th International Symposium on Polynuciear Aromatic Hydrocarbons, Battle- Columbus Laboratories, October, 1980.
88. Boni A. A., Chapman A., Schneyer G. P., 5th International Colloquium on Gasdynamics of Explosions and Reactive Systems, Bourges, France, September, 1975. Also: Acta Astronautics, 3. p. 281, March -April (1976).
89. Hirt C. W., Amsden A. A. Cook J L., /. of Computational Physics, t4, March, p. 227 (1974).
90. Boni A. A., Chapman M, Cook J L., Schneyer G. P., Ifilh Symposium (Int.) on Combustion, p. 1527. The Combustion fust., Pittsburgh, Pa., 1977.
91. Boni A. A., Chapman M., Schneyer G. P., ASME Paper No 75-WA/DGP-l, 1975.
92. Griffin M D., Diwaker R., Anderson J .D. (Jr.), Jones E, \1AA Paper 78-57, Huntsville. Alabama, 16—16, January, 1978
93. Gosman A D , Walkins A. P.t Paper presented at ASME/Pcnnsvlvania Stale University Symposium on Turbulent Shear Flows, p. 523, Held at Lhiiversity, Pa., 18—30, April, 1977
94. Ramos J. L, Sirignano W. A., SAE Technical Paper No. 800284. Detroit, 25—29, February, 1980. See also Ramos J. 1 . Sirignano W A., SAE Technical Paper No. 800286, Detroit. 25—29, February, 1980. See also: Ramos J 1., Ganv A., Sirignano W A.. Study of turbulence in a motored four-slroke internal combustion engine, AIAA Journal, 19, May, p. 595 (1981) [Имеется перевод: Рамос Дж М„ Гейни А.. Сирнньяио В А Исследование турбулентности в цилиндре четырехтактною двигателя внутреннего сгорания. — Ракетная техника н космонавтика, 1981. № 7, с 65 -1
95. Dyer Т. М., Witze Р. О., Johnston S. С., Smith J. R., Paper AfAA-82- 0235, Orlando. Florida, 11—14, January, 1982.
96. Diw'akar R., Anderson J D. (Jr.). Griffin M. D„ Jones E.. AIAA Journal. 14, December, p. 1667 (1976). [Имеется перевод: Дивакар, Андерсон, Грнффии, Джойс. Невязкие решения, описывающие поле течения в
двигателе внутреннего сгорания. — Ракетная техника н космонавтика, 1976, № 12, с. 4 1 See also: Griffin М. D., Anderson J. D. (Jr.), DiwakarR., AIAA Paper No. 76-403, July, 1976. See also: AIAA Journal, 14, December, p. 1665 (1976).
97. SAI/NSF(RANN) Workshop on the Numerical Simulation of Combustion for Application to Spark and Compression Ignition Engines, Boni A. A. (Chairman), La Jolla, Ca., 23—25, April, 1975.
98. Combustion modeling in reciprocating engines, Mattavi J. H., Amann Ch. A. (eds ), Pienum Press, 1980
99. Prediction of turbulent reacting flows in practical systems, Morel T. (ed.), ASME Conference, Boulder, Co.. 22—24, June, 1981. See also: Fluid mechanics of combustion systems. Morel T., Lohmann R. P., Rackley J. M. (eds.), ASME Conference, Boulder, CO, 22 -24, June, 1981.
100. Hinze J. O., Turbulence, McGraw-Hill, New York, 1975. [Имеется перевод: Хинце Дж. Турбулентность. — М.. Физматгиз, 1963.]
101. Morse Р. М., Ingard К. U., Theoretical Acoustics, McGraw-Hlil, 1968.
102- Beranek L. L, Acoustics, McGraw-Hill, 1954.
103. Rayleigh, The theory of sound, Dover Publications, 1945. [Имеется перевод: Рэлей. Теория звука.— М.: Гостехиздат, 1955.]
104. Fisher М. J., Lush P. A., Review of Aerodynamic Sources of Sound, Noise and the Industrial use of Fuel Symposium, Inst, of Fuel, Southampton, 7, January, 1972.
105. Lighthili M. J., Proc. Roy. Soc., A211, p. 504 (1952)- See also vols A222, p. 1 (1954) and A267, p. 147 (1962)
106. Lighthili M. J., Jet noise, AIAA J., 1, p. 1507 (1963)
107. Laurence J. C, Intensity, scale and spectra of turbulence In the mixing region of a subsonic jet, NACA Report No. 1292, 1956.
108. Putnam A. A., J. Acous Soc. Am., 43. 4, p. 890 (1968).
109. Giammer R. D., Putnam A. A., A. G. A. Catalog No. 00080, 1971.
110. Swithenbank J., AlChE Journal, 18, 3, p. 553 (1972)
111. Gupta A. K., Ph. D. Thesis, Sheffield University, Sheffield, 1973.
112. Syred N.. Hanby V. I., Gupta A. K., J. Inst. F., December, p. 402 (1973).
113. Gupta A. K, Syred N., Beer J. M.. App. Acoustics. 9, p. 151 (1976). See
also: 11, p. 35 (1978).
i 14. Powell A , Aircraft Eng , 26, p. 2 (1954).
115. Gupta A. K.. Be6r J M., Proc. Intemoise 77, International Noise Control Engineering Conference, p. B229. F.TH, Zurich, March, 1977.
116. Strahle W G, Shivashankara В N.. 15th Symposium (Int.) on Combustion, p. 1379, The Combustion Inst., 1975
117. A. G. A., Research in the elimination of noise in industrial gas burner, A. G. A Communication on Industrial Gas Eurners, Report No. 692, 1932. See also: Report No. 724, 1933
118. Roberts J. P, Ph. D Thesis, London University, 1972.
119. Smith T J. B., Kiiham J K., J. Acous Soc. Am., 35, p. 715 (1963).
120. Thomas A., Williams G T, Proc. Roy. Soc., 294, p. 449 (1966)
121. Hurle I R., Price R B., Sugden Г M., Thomas A.. Proc. Roy. Soc , A303, p. 409 (1968).
122. Hurle I R, Sugden T M„ Nutt G В 12th Symposium (Int.) on Combustion, p 387, The Combustion Inst., 1969
123. Powell A., J. Acous. Soc. Am., 35, p 405 (1963).
124. Gupta A. K., Syred N , Beer J M.. 15th Symposium (Int.) on Combustion, p. 1367, The Combustion Inst, 1975.
125. Gupta A. K., Syred N.. Beer J- M.. Gas Warme International, 23, No. 2, p 39 (1974).
126. Bragg S. L., Combustion noise, J. Inst. Fuel, 26, p. 12. (1963).
127 Strahle W C, J. F Mech., 49, 2, p. 399 (1971)
128. Kotake S., Hatta K-, Bulletin JSME (Japan), 8, 30, p. 261 (1965).
129. Smithson R. N, Foster B. J., Combustion and Flame, 9, p. 426 (1965).
130. Bertrand C.t Michelfelder S, 16th Symposium (Int.) on Combustion, p. 1757, The Combustion Inst., 1977.
131. Gupta A. K-, Cos War me Iпет national, January, p. 55 (1979).
132. Gupta A. K, International Symposium on the Protection of Workers Against Noise, Dresden, DDR, November, 1979.
133. Kilham J. K, Smedley C., 2nd European Symposium on Combustion, p. 444, Orleans, France. 1975.
134. Harris С. M., Handbook of noise control, McGraw-Hill Book, Co, New York, 1975.
135. Poll I, Ph. D. Thesis, Sheffield University, 1972.
136 Gupta A. K, Sured N.. Beer J. M, J Inst. Fuei, March, p. 119 (1973).
137 Briffa F. E. J, Romaine D. R, Comb. Sci and Tech., August (1973).
138. Flicker N, Flow and combustion phenomena in swirl stabilized gas and oil diffusion flames. Paper VIII, IFRF Members Conference, Ijmuiden, May, 1971.
139. Storey D. N, M. Sc. Dissertation, Sheffield University, 1976.
140. Gupta A. K, Be£r J. M, Swithenbank, 16th Symposium (Int.) on Combustion, The Combustion Inst, 1977.
141. Palmer C. G, Oil combustion noise, Ph. D. Thesis, London University, 1971.
142. Mehta G. K, Ramachandra Μ. K, Strahle W. C.f 18th Symposium (Int.) on Combustion, The Combustion Inst, 1981.
143. Putnam A. A, Fischer R. D, Abrishaman M, ASME Paper No. 76- WA/FU-1, 1976.
144 Barrere M, Wiliiams F. A, 12th Symposium (Int.) on Combustion, p. 165, The Combustion Inst, 1969.
145. Briffa F. E. J, Clark C. J, Williams G. T, Combustion noise, Institute of Fuel Symposium, Noise and the Industrial Use of Fuel, University of Southampton, January, 1972.
146. Gaydon A. G, Wolfhard H. G, Flames, their structure, radiation and temperature, p. 167, Chapman and Hall, London, 1970. [Имеется перевод Гей- дои А. Г, Вольфгард X. Г. Пламя, его структура, излучение и температура.— М.: Металлургиздат, 1959.]
147. Hall D. R, Diederichsen J, 4th Symposium (Int.), on Combustion, p. 837, The Combustion Inst, 1953. [Имеется перевод: Холл Я, Дилериксен Ж- Экспериментальное исследование горения одиночных капель топлива & воздухе при давлении до 20 атм. — В ки.: Вопросы горения и детонационных волн М.: Оборонгиз, 1958 с 594 ]
148. Kaskan W. Е, 4th Symposium (Int.) on Combustion, p. 575, The Combustion Inst, 1953 [Имеется перевод: Кэскаи В Исследование вибрирующих пламен. — В кн.: Вопросы горения н детонационных воли М.: Обо- роигиз, 1958, с. 399 ]
149 Putnam A. A, Non-steady flame propagation. Chapter F, General Considerations of Autonomous Combustion Oscillations, p. 183, Pergamon Press, 1964.
150. Toepler A, Ann. Phys., Llepzig, 128, p. 126 (1866).
151. Rayleigh J. W. S, Proc. Royal Soc, (London), 93, p. 148 (1916)
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154. Dorrestein W R, J Institute Fuel, 41, p 387 (1968).
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156 Chow C. J, /. Fluid Mcth., 38, Pt. 4, p. 843 (1969).
157 Bossel Η. Η., AJAA Journal, 11, 8. p 1161 (1973) (Имеется перевод: Воссел X. X- Закрученные течения в трубках тока переменного сечения.— Ракетная техника и космонавтика, 1973, №8. s 132.]
158. Nishi M.f Senoo Y., Bull. JSME, 17, 105, March, p. 326 (1974).
159. Jacobs J., Dr. Ing. Diss, Universitat Karlsruhe, 1974.
160. Jacobs J., Gumthei R., Forsch. Ing-Wes.t 41, 3, p. 85 (1975)
161. Rhode D. L., Lilley D. G., McLaughlin D K., ASME Fluid Mechanics of Combustion System, p. 257, Boulder, Co.. 22—24, June, 1981.
162. Chen Y. N.. Verbrennungsinstabilitat infolge Gegenseitiger Von Drall- stromungen, DVY'-Kolloquium. Schwingungen ni Feuerramen, October, Bochum, Germany, 1978.
163. Trien H A., A. R. S Journal, 22, p. 256 (1952).
164. Marble F E„ Sox D. W., A. R. S. Journal, 23, p. 63 (1953).
165. Lee Y. C, Gore M. R.. Ross C C.. A. R. S. Journal, 23, p. 75 (1953).
166. Ansoff Η I , /. Applied Mech., 71, p. 158 (1949).
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168. Hadvig S., /. Inst. Fuel, October, p. 550 (1971).
169. Gupta A. K., Taylor D S„ Beer J. M.t Symposium on Turbulent Shear Flows, Pennsylvania State University, April, 1977.
170. Gupta A. K., Tippetts J. R., Swittienbank J., 2nd European Combustion Symposium, p. 690, France, 1975.
171. Syred N., Dahmen K., 2nd European Symposium on Combustion, organized by the European Section of the Combustion Inst., p. 414, Orleans, France. 1975.
172. N&jim S. A., Ph. D. Thesis, University College, Cardill, Wales, United Kingdom, August, 1979.
173 Suzuki M., Scientific Papers, Institute Physics and Chemical Research, Tokyo, 54, 1, p. 44 (1960).
ДОПОЛНИТЕЛЬНАЯ ЛИТЕРАТУРА
1. Гидродинамика и теплообмен закручеиных потоков: Библиографический указатель/Сост. Т. В. Сорокина. — Новосибирск: Инст. теплофизики СО АН СССР, 1976.
2. Теория турбулентных струй/Под ред Г Н. Абрамовича. — М.: Наука. 1984.
3. Абрамович Г. Н., Крашенинников С Ю., Секундов А. Н. Турбулентные течения при воздействии объемных сил и неавтомодельностн. — М.: Машиностроение, 1975.
4. Вулис Л. А. Ярин Л. П. Аэродинамика факела. — Л: Энергия, 1978.
5. Пчслкии Ю М Камеры сгорания газотурбинных двигателей. — М.: Машиностроение, 1984.
6. Талантов А. В Горение R потоке —М.: Машиностроение, 1978.
7. Баев В. К., Головичев В. М., Ясаков В. А Двумерные турбулентные течения реагирующих газов. — Новосибирск: Наука. 1976.
8. Баев В К- Головичев В И. Третьяков П К и др Горение в сверхзвуковом потоке — Новосибирск: Наука. 1984.
9. Компанией В. 3.. Овсяиииков А А Пол так А С- Химические псакиии в турбулентных потоках газа и плазмы — М: Наука, 1979
10. Устименко Б. П Процессы турбулентного переноса во вращающихся течениях. — Алма Ата: Наука. Каз ССР 1977
11 Шлкин В К. Халатов А А. Теплообмен, массообмеи и гидродинамика закроенных потоков в осесимметричны» каналах — М Машиностроение, 1982
12 Потапов О П. Kponn Л Д Батарейные циклоны — М.; Энергия, 1977.
13. Пнрумов А И Обеспыливание воздуха.— М Стройиздат, 1974.
14. Мунин А. Г., Кузнецов В М„ Леонтьев Е. А. Аэродинамические источники шума —М.: Машиностроение. 1981.
15. Аэродинамика закрученной струи/Под ред. Р. Б. Ахмедова. — Москва, Энергии, 1977.
16. Гольдштик М. А. Вихревые потоки — Новосибирск: Наука, 1981.
17 Третьяков В- В., Ягодкин В. И. Расчетное исследование турбулентного закрученного течения е трубе —ИФЖ, 1979, т. 37, № 2, с. 254—259.
18. Кныш Ю. А О влиянии автоколебаний на гидравлическое сопротивление вихревой трубки — ИФЖ, 1979, г. 37. № 1, с. 59—64.
19. Лукачев С В. Исследование неустойчивых режимов течения в вихревой трубе Ранка — ИФЖ, 1981. т. 41, № 5, с. 784—790.
20. Кныш Ю А., Урывский А. Ф. Модель прецессии вихревого ядра закрученной струи. — Из в вузов. Авиационная техника, 1984, № 3, с. 41—44.
21. Свириденков А. А., Третьяков В. В.. Ягодкин В И О эффективности смешения коаксиальных потоков, закрученных в противоположные стороны. — ИФЖ, 1981, т 41, № 3, с 407—413.
22. Свириденков А А., Третьяков В. В Распределение пульсаций скорости в канале при смешении противоположно закрученных потоков. — ИФЖ, 1984, т. 47, № 1, с 47—53.



 
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