Abstract
Results obtained from putting of membrane and finned convective surfaces into practical use in gas-and-oil-fired hot-water boilers are described. It is shown that their use, taken in combination with other technical solutions, will constitute a basis for developing improved hot-water boilers.
Similar content being viewed by others
References
N. I. Zhirnov, L. B. Krol’, and E. A. Kachura, “Hot-Water Boilers for Covering Peak and Seasonal Heat Loads,” Elektr. Stn., No. 11, 31–35 (1974).
I. I. Nadyrov and V. P. Dumnov, “Improving the Reliability, Economic Efficiency, and Environmental Indicators of Gas-and-Oil-Fired Hot-Water Boilers,” Elektr. Stn., No. 11, 24–27 (2004).
G. P. Gladyshev, N. D. Sergeeva, R. E. Barak, et al., “Testing a KVGM-100 Boiler,” Elektr. Stn., No. 3, 29–33 (1977).
I. D. Liseikin, T. B. Efendiev, V. A. Didura, et al., “Investigation of a KVGM-100 Boiler,” Elektr. Stn., No. 7, 16–19 (1982).
V. S. Nazarenko, Yu. A. Len’kov, V. K. Migai, et al., RTM (Guidelines) 108.031.113-84: Calculation of and Recommendations on Designing Membrane Platen and Convective Heating Surfaces for Stationary Boilers (NPO TsKTI, Leningrad, 1984) [in Russian].
V. K. Migai, P. G. Bystrov, P. V. Belov, et al., RTM (Guidelines) 108.030.140-87: Calculation of and Recommendations on Designing Transversely Finned Convective Heating Surfaces for Stationary Boilers (NPO TsKTI, Leningrad, 1987) [in Russian].
G. I. Levchenko, I. D. Liseikin, A. M. Kopeliovich, et al., Finned Heating Surfaces of Steam Boilers (Energoatomizdat, Moscow, 1986) [in Russian].
V. A. Lokshin, I. D. Liseikin, I. A. Sotnikov, et al., “The Effect from Using Membrane Convective and Platen Heating Surfaces in Boilers,” Teploenergetika, No. 6, 43–48 (1973).
M. M. Dzhanelidze and I. D. Liseikin, “Membrane Tube Panels for the Heating Surfaces of Peaking Hot-Water Boilers,” Teploenergetika, No. 1, 67–70 (1981).
Yu. V. Petrov, “ZiO-Podolsk-Labeled Heat-Recovery Boilers for Combined-Cycle Plants,” Tyazh. Mashinostr., No. 11, 9–13 (2001).
Yu. P. Enyakin, N. A. Zroichikov, B. N. Glusker, et al., “Results Obtained from Integrated Tests of the TGMP-314 Boiler at OAO Mosenergo’s Cogeneration Station TETs-23 after Retrofitting,” Elektr. Stn., No. 2, 10–16 (2002).
N. S. Galetskii, Yu. P. Enyakin, A. L. Shvarts, et al., “The Results of Comprehensive Tests of the E-160-39-440GM Boiler at OAO Mosenergo’s Power Station GES-1 Equipped with Horizontal Gas Ducts,” Teploenergetika, No. 9, 8–13 (2004) [Therm. Eng., No. 9 (2004)].
E. K. Chavchanidze, N. S. Shestakov, N. G. Zhmerik, et al., “Development of Low-Toxic Gas-Oil Burners and Putting Them in Use in Power-Generating Boilers,” Teploenergetika, No. 2, 58–63 (2003) [Therm. Eng., No. 2 (2003)].
M. E. Shitsman, “A Review of Experimental Data on the Corrosion Rate and Formation of Deposits in the Heating Surfaces of KVGM-180 and KVGM-100 Hot-Water Boilers,” Teploenergetika, No. 1, 28–32 (2000) [Therm. Eng., No. 1 (2000)].
M. E. Shitsman, N. A. Zroichikov, V. F. Panchenko, and T. V. Zroichikova, “An Analysis of Factors Causing the Formation of Iron Oxide Deposits in the Heat-Transfer Surfaces of Hot-Water Boilers at Cogeneration Stations,” Elektr. Stn., No. 4, 17–24 (1998).
I. M. Blonchevskii, “The Mechanism Governing the Formation of Scale during Nucleate Boiling,” Inzh. Fiz. Zh. 9(2), 143–147 (1965).
N. B. Tarasova and V. M. Orlov, “Investigation of Hydraulic Drag during Surface Boiling of Water in a Tube,” Teploenergetika, No. 6, 48–52 (1962).
V. A. Lokshin and B. A. Saraf, “Temperature Operating Conditions of Hot-Water Boilers,” Teploenergetika, No. 10, 63–65 (1980) [Therm. Eng., No. 10 (1980)].
N. V. Kuznetsov, Working Processes in the Convective Surfaces of Boilers Units and Problems of Their Improvement (Gosenergoizdat, Moscow-Leningrad, 1958) [in Russian].
R. A. Petrosyan, N. D. Sergeeva, L. S. Zelenov, and E. M. Semina, “Corrosion of the Heating Surfaces of Peaking Hot-Water Boilers,” Teploenergetika, No. 11, 48–50 (1971).
G. P. Gladyshev and N. D. Sergeeva, “The Reliability the Heating Surfaces of KVGM-100 Hot-Water Boilers Have during Operation on Fuel Oil,” Elektr. Stn., No. 2, 21–23 (1979).
A. F. Gavrilov and B. M. Malkin, Contamination and Cleaning of the Heating Surfaces of Boiler Units (Energiya, Moscow, 1980) [in Russian].
I. D. Liseikin, A. M. Kopeliovich, M. Z. Kravets, and V. A. Didura, “A Study of Heat Transfer and Aerodynamic Drag in Membrane Staggered Bundles with Transverse Fins,” Teploenergetika, No. 2, 38–41 (1984).
G. I. Levchenko, I. D. Liseikin, A. M. Kopeliovich, et al., “An Experimental Investigation of a Test Sample of a Membrane-Petal Convective Heating Surface,” Teploenergetika, No. 5, 194 (1986).
M. M. Dzhanelidze, I. D. Liseikin, M. E. Kapshidze, and S. S. Beidin, “An Investigation of a PTVM-50 Hot-Water Boilers with Membrane Convective and Platen Heating Surfaces,” Teploenergetika, No. 7, 62–65 (1981).
I. D. Liseikin, G. A. Kon’shin, T. I. Gologudina, et al., “A New Convective Heating Surface for Hot-Water Boilers,” Energetik, No. 1, 8–11 (2001).
Author information
Authors and Affiliations
Additional information
Original Russian Text © I.D. Liseikin, 2008, published in Teploenergetika.
Rights and permissions
About this article
Cite this article
Liseikin, I.D. Making hot-water boilers more efficient through the use of membrane and finned heating surfaces. Therm. Eng. 55, 755–765 (2008). https://doi.org/10.1134/S0040601508090061
Published:
Issue Date:
DOI: https://doi.org/10.1134/S0040601508090061