Probable causes of damage of heat-exchange tubes of low-pressure-exchanges of PND-3 type and repair methods

Autor:	Yu. G. Sukhorukov, T. G. Sintsova, F. A. Svyatkin, N. N. Trifonov, E. K. Nikolaenkova, S. B. Esin, V. S. Modestov
Rok vydání:	2017
Předmět:	Materials science business.industry Energy Engineering and Power Technology Thermal power station 02 engineering and technology Structural engineering Mechanics 01 natural sciences Turbine 010305 fluids & plasmas Volumetric flow rate 020401 chemical engineering Nuclear Energy and Engineering Mass transfer 0103 physical sciences Heat exchanger Thermal Tube (fluid conveyance) 0204 chemical engineering business Shell and tube heat exchanger
Zdroj:	Thermal Engineering. 64:568-573
ISSN:	1555-6301 0040-6015
DOI:	10.1134/s0040601517080109
Popis:	The structures of low-pressure heaters (LPH), which are installed at nuclear power plants with the K-1000-60/1500 type turbine plants are considered. It was revealed that only the PND-3 type low-pressure heaters have the damages of the heat exchange tubes. For a short operation life, the number of the damaged heat-exchange tubes of PND-3 is approximately 50 pcs for Kalinin NPP and 100–150 pcs for Balakovo NPP. The low-pressure heaters were manufactured at AO Ural Plant of Chemical Machine-Building “Uralkhimmash,” OAO Taganrog Boiler-Making Works “Krasny Kotelshchik,” and Vitkovice Machinery Group, but the damage nature of the heat-exchange tubes is identical for all PND-3. The damages occur in the place of passage of the heat exchange tubes through the first, the second, and the third partitions over the lower tube plate (the first path of the turbine condensate). Hydraulic shocks can be one of the possible causes of the damage of the heat-exchange tubes of PND-3. The analysis of the average thermal and dynamic loads of the tube systems of PND-1–PND-4 revealed that PND-3 by the thermal power are loaded 1.4–1.6 times and by the dynamic effects are loaded 1.8–2.0 times more than the remaining LPHs. Another possible cause of damage can be the cascaded drain of the separate into PND-4 and then through the drainage heat exchange into PND-3. An additional factor can be the structure of the condensate drainage unit. The advanced system of the heating steam flow and pumping scheme of the separate drain using the existing drainage pumps of PND-3 for K-1000-60/1500 turbine plants for Balakovo and Kalinin NPPs were proposed. The considered decisions make it possible to reduce the flow rate of the heating steam condensate from PND-3 into PND-4 and the speed of the heating steam in the tube space of PND-3 and eliminate the occurrence of hydraulic shocks and damages of the heat exchanger tubes.
Databáze:	OpenAIRE
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