ANALYSIS OF THE SHELL-IN-TUBE CONDENSER CHARACTERISTICS FOR ENERGY CON-SERVATION
DOI:
https://doi.org/10.15673/0453-8307.1/2014.32648Keywords:
Heat exchanger – Water cooled condenser – Characteristics – Method of the minimization entropy generation – Energy conversation.Abstract
In this paper an analysis of the basic characteristics of heat exchangers by the method of the minimization entropy generation for energy conservation is presented. The specific examples of analysis for a real shell-in-tube condenser in order to assess its energy efficiency are studied. The results of condenser main characteristics theoretical studies: heat flow density, the second refrigerant (water) velocity and hydraulic diameter as well as their comparison with experimental data are showed.
References
REFERENCES
1. Bazarov I.P. Termodinamika/ I.P. Bazarov. – M.:Vysshaya shkola,1991. – 376 s.
Boshnyakovich F. Tehnicheskaya termodinamika/ F. Boshnyakovich. – L. – M.: Gosenergoizdat, 1956. – 256 s.
Vukalovich M.P. Termodinamika / M.P. Vuka-lovich, I.I. Novikov. – M.: Mashinostroenie, 1972. – 672 s.
Gogolin A.A. O sopostavlenii i optimizacii teploobmennyh apparatov holodil'nyh mashin/ A.A. Gogolin // Holodil'naya tehnika. – 1979. – 12. – S. 23‑27.
Gohshtein D.P. Sovremennye metody termo-dinamicheskogo analiza energeticheskih ustanovok: na pravah rukopisi / D.P Gohshtein. – Odesskii Tehnologicheskii Institut im. M.V. Lomonosova, 1967. – 333 s.
Danilova G.N. Teploobmennye apparaty ho-lodil'nyh ustanovok/ G.N. Danilova [i dr.]. – L.: Mashinostroenie, 1986. – 303 s.
Kalnin' I.M. O vybore parametrov holo-dil'nyh mashin na osnove optimizacii i analiza harakteristik / I.M. Kalnin', A.A Lebedev, S.L Serova. // Holodil'naya tehnika. – 1981– 8. – S. 19-25.
Martynovskii V.S. Cikly, shemy i harakte-ristiki termotransformatorov/ V.S. Martynov-skii. – M.: Energiya, 1979. – 288 s.
Maake V. Uchebnik po holodil'noi tehnike: per. s fr. / V. Maake, G.YU. Ekkert, ZH.L. Koshpen. – MGU.: 1988. – 1142 s.
Nikul'shin R.K. Metod analiza raboty appa-ratov s promezhutochnymi teplonositelyami / R.K. Nikul'shin, L.I. Morozyuk, V.V. Sokolovskaya // Holodil'naya tehnika i tehnologiya. – Odessa: ODAH, 2000. – 67. – S. 29-34.
Sokolovskaya V.V. Metody prikladnoi termo-dinamiki v analize zagryazneniya teploobmennoi poverhnosti /Sokolovskaya V.V. //Sb. nauch. trudov KGPI. – Kremenchug: KGPI, 2003. – 2(19). – S. 175‑178.
Tsatsaronis D. Vzaimodeistvie termodina-miki i ekonomiki dlya minimizacii stoimosti energopreobrazuyuschei sistemy: per. s angl. / D. Tsatsaronis; pod red. T.V. Morozyuk. – Odessa: Studiya «Negociant», 2002. – 152 s.
Uginchus A.A. Gidravlika. / A.A. Uginchus, E.A. CHugaeva. – L.: Stroiizdat, 1971. – 350 s.
Sokolovskaya V., Morosuk L. Proizvodstvo en-tropii odnofaznym potokom v teploobmennike energopreobrazuyuschei ustanovki // In: Humboldt-Kolleg «Energy Challenges of the 21st Century: Science, Technology, Economy, Society», August 24-27, 2007, Odessa, Ukraine.
Shargut YA. Eksergiya: per. s pol'skogo. /YA.S.Hargut, R. Petela; pod red. V.M. Brodyanskogo. – izd., pererab. i dop. – M.: Energiya, 1968-279 s.
Bejan A. Thermal Design and Optimization / A. Bejan, G. Tsatsaronis, M. Moran. – New York: John Wiley & Sons, 1996. – 540 p.
Bejan A. Entropy Generation through Heat and Fluid Flow / A. Bejan. – New York: John Wiley & Sons, 1982. – 264 p.
