Electrophysical Technologies for Heat Power Installations

1Tarelin, AA, 1Skliarov, VP, 1Surdu, NV
1A.M. Podgorny Institute of Mechanical Engineering Problems, NAS of Ukraine, Kharkiv
Nauka innov. 2008, 4(6):26-30
https://doi.org/10.15407/scin4.06.026
Section: Scientific and Technical Innovative Projects of National Academy of Sciences of Ukraine
Language: Russian
Abstract: 
Thermodynamic processes in the low-pressure part of steam turbines are considered. It was shown that using electrophysical technologies increases the turbine installation efficiency by 0,4-0,7 % due to reducing energy losses caused by electrization of wet steam and steam supercooling in the phase transition zone. A magnetic-vortex hydro gas dynamic activator is described. Its usage prevents scale formation on the surfaces of heat exchange apparatus.
Keywords: condensation nuclei, magnetic treatment, power plant efficiency, scale removal, steam electrisation, Steam turbine, super-cooling, TPPs
References: 
1. Jelektrofizicheskie javlenija v parovyh turbinah. A.A. Tarelin, V.P. Skljarov, O. Veres, N.V. Surdu. Prom. Teplotehnika. 1999, 4-5: 98-102 [in Russian].
2. Tarelin A.A. Osobennosti izmerenija obemnoj plotnosti zarjadov vo vlazhnom parovom potoke turbiny. A.A. Tarelin, V.P. Skljarov, V.P. Kryzhenko. Problemy mashinostroenija. 2000, 3(1-2): 11-16 [in Russian].
3. Opredelenie obemnoj plotnosti zarjadov v potoke kondensirujushhegosja para pri razlichnyh vodno-himicheskih rezhimah. V.N. Semenov, A.N. Troickij, A.A. Tarelin, V.P. Skljarov, B.R. Duli. Problemy mashinostroenija. 2001, 3(3–4): 12-22 [in Russian].
4. Skljarov V.P. Vplyv elektryzacii' vologoi' pary na procesy kondensacii' v teploenergetychnyh ustanovkah: Avtoref. dys. kand. tehn. nauk: 05.14.06. Instytut problem mashynobuduvannja NAN Ukrai'ny. Harkiv, 2001 [in Ukrainian].
5. Tarelin A.A. Vlijanie obemnogo zarjada na velichinu pereohlazhdenija parovogo potoka za poslednej stupen'ju turbiny. A.A. Tarelin, V.P. Skljarov, V.P. Orlovskij. Probl. mashinostroenija. 2004, 7(1): 4-11 [in Russian].
6. Skljarov V.P. Izmerenie temperatury vlazhnogo parovogo potoka v parovyh turbinah. Probl. mashinostroenija. 2005, 8(3): 8-16 [in Russian].
7. Gyarmathy G. Grundlagen einer Theorie der Nassdampfturbine. Zurich, 1962.
8. Issledovanie harakteristik vlazhnoparovogo potoka v protochnyh chastjah turbin. A.A. Dobkes, T.M. Zil'ber, Ju.Ja. Kachuriner, L.A. Fel'dberg. Teplojenergetika. 1992, 1: 56-60 [in Russian].
9. Pat. 74193 Ukrainy, MKI6 F01D5/28. Sposob uvelichenija KPD parovyh turbin. V.P. Skljarov, A.A. Tarelin (Ukraina). N 20030103319 [in Russian].
10. Patent 7,252,475 B2 US, Int.Cl. F01D25/32. Electrostatic method and device to increase power output and decrease erosion in steam turbines. A.O. Tarelin (UA), V.P. Skliarov (UA), O. Weres (US). N11/034,907.
11. Tarelin A.A. Razrabotka meroprijatij po povysheniju jeffektivnosti chasti nizkogo davlenija turbiny K-300-240 pri rabote v uslovijah jenergorynka. A.A. Tarelin, V.P. Skljarov. Nauka innov. 2007, 3(3):30-35 [in Russian].
https://doi.org/10.15407/scin3.03.030
12. Tarelin A.A. Vlijanie temperatury promperegreva na moshhnost' turboagregata T250/300-240. A.A. Tarelin, V.P. Skljarov, G.K. Voronovskij, T.I. Shvedova, A.V. Medvedovskij, A.Ju. Kozlokov. Probl. mashinostroenija. 2007, 10(2): 5-8 [in Russian].
13. Rezul'taty ispytanij nejtralizatora obemnogo zarjada za poslednej stupen'ju parovoj turbiny. A.A. Tarelin, V.P. Skljarov, G.K. Voronovskij, A.Ju. Kozlokov. Probl. mashinostroenija. 2006, 9(1): 19-24 [in Russian].
14. Patent N7082 Ukrai'ny, MKY S02F1/48. Prystrij dlja magnitnoi' obrobky ridyny. Je.F. Luk’janov, M.V. Surdu, M.M. Shoshyn, V.S. Prohorchuk, A.V. Nechajev, O.Je. Hinjevich (Ukrai'na). N 20040706074 [in Ukrainian].
15. Klassen V.I. Omagnichevanie vodnyh sistem. Moskva: Himija, 1978 [in Russian].
16. Jekologicheski chistaja tehnologija obrabotki vody. N.V. Surdu, A.V. Nechaev, A.E. Hinevich i dr. Biznes-most: Mezhdunar. inform.-tehn. zhurnal. Har'kov. 2004, 6-7: 70-73 [in Russian].