ЛИТЕРАТУРА

1.

Мильман О.О.

,

Федоров В.А.

Воздушно-конденсационные установки. М.: Изд-

во МЭИ, 2002.

2.

Новое направление

в создании высокоэффективных конденсаторов паротур-

бинных установок / В.А. Федоров, О.О. Мильман, В.И. Артемов, Д.В. Федоров,

П.А. Ананьев, А.А. Кирюхина // Вестник МЭИ. 2010. № 3. С. 37–43.

3.

Теплогидравлические

процессы в воздушных конденсаторах паротурбин-

ных установок / В.А. Федоров, О.О. Мильман, П.А. Ананьев, С.Н. Дунаев,

Н.В. Колесников, Б.А. Шифрин // Вестник МЭИ. 2012. № 2. С. 5–12.

4.

Milman O.O.

,

Spalding D.B.

,

Fedorov V.A.

Steam condensation in parallel channels

with nonuniform heat removal in different zones of heat-exchange surface.

International Journal of Heat and Mass Transfer. 2012. Vol. 55. Iss. 21–22. P. 6054–

6059.

5.

Крюков Н.П.

Аппараты воздушного охлаждения. М.: Химия, 1983. 168 с.

6.

Xiufeng Gao

,

Chengwei Zhang

,

Jinjia Wei

,

Bo Yu

. Numerical simulation of heat

transfer performance of an air-cooled steam condenser in a thermal power plant /

China, Heat Mass Transfer. 2009. P. 1423–1433.

7.

Rogers J.A.

McDermott Technology, Inc., K.K.Won, Hudson products Corp.,

W. Stang, Argium Inc. Validation of CFD Models for Evaluating Hot-Air

Recirculation in Air–Cooled Heat Exchangers / Houston, Texas, McDermott

Technology Inc. No. 5. 1999. P. 65–79.

8.

Yang Li Jun

,

Du Xiao Ze

,

Zhang Hui

,

Yang Yong Ping

. Numerical investigation on

the cluster effect of an array of axial flow fans for air-cooled condensers in a power

plant / China, Engineering Thermophysics. 2011. No. 21. P. 2272–2280.

9.

Owen M.T.F.

and

Kr¨oger D.G.

Numerical Investigation of Air-Cooled Steam

Condenser Performance Under Windy Conditions. California Energy Commission,

PIER Energy-Related Environmental Research Program, 2011.

10.

Лойцянский Л.Г.

Механика жидкости и газа. М.: Дрофа, 2003.

11.

Chung T.J.

Computational fluid dynamics. Cambridge University Press, 2002. 1012 p.

12.

Абрамович Г.Н.

Прикладная газовая динамика. М.: Гос. изд-во технико-

теоретической литературы, 1953. 736 с.

13.

Patankar S.V.

Numerical Heat Transfer and Fluid Flow. New York. Hemisphere

Publishing Corporation, Taylor&Francis Group, 1980.

REFERENCES

[1] Mil’man O.O., Fedorov V.A. Vozdushno-kondensatsionnye ustanovki [Air-

condensing plant]. Moscow, MPEI Publ., 2002.

[2] Fedorov V.A., Mil’man O.O., Artemov V.I., Fedorov D.V., Anan’ev P.A.,

Kiryukhina A.A. A recent trend in developing high performance capacitors of the

steam-turbine plants.

MPEI Vestnik

, 2010, no. 3, pp. 37–43 (in Russ.).

[3] Fedorov V.A., Mil’man O.O., Anan’ev P.A., Dunaev S.N., Kolesnikov N.V.,

Shifrin B.A. Thermohydraulic processes in air-cooled condensers of the steam-turbine

plants.

MPEI Vestnik

, 2012, no. 2, pp. 5–12 (in Russ.).

[4] Milman O.O., Spalding D.B., Fedorov V.A. Steam condensation in parallel

channels with nonuniform heat removal in different zones of heat-exchange surface.

International Journal of Heat and Mass Transfer

, 2012, vol. 55, iss. 21–22, pp. 6054–

6059.

[5] Kryukov N.P. Apparaty vozdushnogo okhlazhdeniya [Air-cooled heat exchanger].

Moscow, Khimiya Publ., 1983. 168 p.

[6] Xiufeng Gao, Chengwei Zhang, Jinjia Wei, Bo Yu. Numerical simulation of heat

transfer performance of an air-cooled steam condenser in a thermal power plant.

China,

Heat Mass Transfer

, 2009, pp. 1423–1433.

ISSN 0236-3941. Вестник МГТУ им. Н.Э. Баумана. Сер. “Машиностроение” 2015. № 5 103