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2012 №03 (05) 2012 №03 (07)

Автоматичне зварювання 2012 #03
«Автоматическая сварка», 2012, № 3, с. 35-39  
 

ИСПОЛЬЗОВАНИЕ СВАРОЧНЫХ ТЕХНОЛОГИЙ ПРИ РЕАЛИЗАЦИИ ЕВРОПЕЙСКОЙ ПРОГРАММЫ ПО НОВЫМ ИСТОЧНИКАМ ВОЗОБНОВЛЯЕМОЙ ЭНЕРГИИ


 
 
Автор
А. КЛИМПЕЛЬ, д-р техн. наук (Силез. политехн. ин-т, г. Гливице, Польша)
 
 
Реферат
Проведен анализ стратегии Европейского Союза, содержащейся в программе «The European Strategic Energy Technology Plan» (SET-Plan). Описано строение ветрогенераторов большой мощности для использования на суше и на море, а также современные конструкционные материалы и конструктивные решения башен, лопастей и несущей конструкции гондол. Предложены направления исследований современных сварочных технологий, которые должны применяться при изготовлении ветряных генераторов мощностью до 20 МВт.
 
 
Ключевые слова: сварные конструкции, возобновляемая энергия, ветряные генераторы, европейский план, новые конструкционные материалы, новые технологии сварки, монтажные работы


Поступила в редакцию 10.01.2012
Опубликовано 22.02.2012


1. Global gaps in clean energy R&D: Update and recommendations for international collaboration // IEA Report for the Clean Energy Ministerial, 2010.
2. Fichaux N. Delivering today the energy of tomorrow. http://www.windplatform.eu/fi-leadmin/ewetp_docs/Events/Europ ean_Wind_Initiati-veJP.pdf.
3. Energy 2010 // Ann. report 2010 on public grants from energy research programmes ForskEL, EDDP/ERP, ELforsk, DSCR energy and environment and energy projects of the Danish National Advanced Technology Foundation, 2010.
4. Beurskens J. Developing offshore wind energy now and in the future: http://www.we-at-sea.org/leden/docs/conference2010/l.pdf.
5. TPWind: The way forward // 6 Frame Work Programme. — March 2009.
6. Profile of the Danish wind industry. http://www.epages.dk/windpower/21/
7. RenewableUK (BWEA).http://www.bwea.com/pdf/publications/CapReport.pdf.
8. Doing business with wind turbine manufacturers. http://www.bvgassociates.co.uk/LinkClick.aspx?fileticket=YcePA-zeHDQc%3D&tabi- d=101.
9. American wind power surmounted challenges in 2010.http://www.awea.org/rn_release_0 1-06-l l.cfm.
10. AWEA 3rd Quarter 2010 Market Report. http://www.awea.org/documents/r eports/2010_third_quarter_report.pdf.
11. Winds of change. A manufacturing blueprint for the wind industry. http://www.awea.org/ la_pubs_reports.cfm. 12. WindVision 2025. A strategy for Quebec. — Canadian Wind Energy Ass., 2010.
13. VESTAS V 112 3.0 MW offshore. pdf.www.vestas.com
14. ENERCON wind energy converters. Products overview.pdf.www.enercon.de.
15. GAMESA G128-4,5 MW. pdf. www.gamesacorp.com
16. SIEMENS wind turbine. New dimensions. pdf.www.siemenswindpower.com.
17. Repower system. The 5 MW megawatt power plant with 126meter rotor diameter: Technical data. pdf. www.repower.com.
18. GE power & water. pdf. www.gewindenergy.com.
19. Ruukki wind towers. Reaching the heights with Ruukki. RuukkiEngineering-Wind-tower-reaching-the-heights.pdf.
20. Acona D., Weigh J. Mc. Wind turbine materials and manufacturing fact sheet. US Dep. of Energy, 2011. — P. 1–8.
21. Aldeman M. Building the wind turbine supply chain: The next steps workshop. http://renewableenergy.illinoisstate. edu/wind/conferences/.
22. Gudmestad О. T., Sarkar A. Offshore deployment and marine operation for offshore wind turbines // NORCOWE WP3 Meeting (7 June 2010).
23. Fischer T., Kuhn M. Importance and mitigation of loading on offshore wind turbines on monopiles support structures in cases of non-availability // Proc. of 20th intern. offshore and polar energy conf. (Beijing, 2010, June 20–25). — P. 644.
24. Chou J.-S., Tu W.-T. Failure analysis and risk management of a collapsed large wind turbine tower // Eng. Failure Analysis. — 2011. — 18. — P. 295–313.
25. Innovative composite hub for wind turbines. http://cordis.europa.eu/data/PROJ _FP5/ACTIONeq DndSESSIONeqll2362005919ndDOCeql021ndTBLeq EN_PROJ.htm.
26. RAPORT // Energetyka wiatrowa w Polsce. — 2010. — Nov.
27. 166 Sprawozdafi projektow wykonanych w ramach funduszy badawczych Unii Europejskiej — programu WIND ENERGY. http://cordis.europa.eu/.
28. RFSR-CT-2006-00031. High-strength steel tower for windturbine: Final Report, 2010.
29. Paschold R., Dirksen D. Submerged arc welding of steels for offshore wind towers // Svetsaren. — 2005. — 60, № 1. — P. 13–17.
30. Torstensson B., Ivarson P. ESAB welding solutions for windmill tower production. Processes and equipment for increased productivity // Ibid. — 2005. — 60, № 2. — P. 14–19.
31. Efficient welding in the wind tower manufacturing industry // ESAB Brochure XA00126920.
32. Man E., Lafleur W. SIF Group at the foundation of Dutch wind energy // Svetsaren. — 2008. — 63, № 1. — P. 18–22.
33. Sharpe M. Robotic fabrication of wind turbine power generators // Welding J. — 2009. — 88, № 8. — P. 40–44.
34. Wind turbine welding system uses linear motion modules // Ibid. — 2009. — 88, № 8. — P. 50–51.
35. Wind energy. An Oerlikon market solution // Brochure Air. Liquid. Welding.
36. RFSR-CT-2005-00042. Fatigue behavior of high strength steels welded joints in offshore and marine systems: Final Report, 2009.
37. RFSR-CT-2006-00029. Improvement in steel utilization and manufacturing by recent break-through in high-power fibre laser welding: Final Report, 2009.
38. Industrial implementation of laser/GMA welding and mechanical properties of the welds / C. Thorny, G. Sepold, T. Seefeld et al. // Proc. of supermartensitic stainless steels 2002 conf. — Brussels: KCI Publ., 2002. — P. 147–155.
39. Sepold G., Thorny C., Seefeld T. et al. CO2-laser GMA hybrid welding — Aspects of research and industrial application // Proc. of lasers in manufacturing 2003 conf. — Stuttgart: AT-Fachverlag, 2003. — P. 149–156.
40. Staufer H.: Laser hybrid welding of ships // Welding J. — 2004. — 83, № 3. — P. 39–43.
41. Thorny C., Seefeld Т., Vollertsen F. Application of highpower fibre lasers in laser and laser-MIG welding of steel and aluminium // Proc. of IIW Ann. Assembly conf. (Prague, Czech Republic, 10–16 July, 2005). — P. 88–98.
42. Staufer H., Graf Т. Laser hybrid welding drives VW improvements // Welding J. — 2003. — 82, № 1. — P. 42–48.
43. Joining pipe with hybrid laser-GMAW process: Weld test results and cost analysis / E. W. Reutzel et al. // Ibid. — 2006. — 85, № 6. — P. 66–71.
44. Staufer H. Laser hybrid welding and laser brazing at Audi and VW // Welding in the World. — 2006. — 50, № 7/8.
45. Ozden H. Investigating fiber lasers for shipbuilding and marine construction // Welding J. — 2007. — 86, № 5. — P. 26–29.
46. Staufer H. Laser hybrid welding in the automotive industry // Ibid. — 2007. — 86, № 10. — P. 36–40.
47. Defalco J. Practical applications for hybrid laser welding // Ibid. — 2007. — 86, № 10. — P. 47–51.
48. Stridh L-E. Welding of 13 % Cr-steels using the laser-hybrid process // Svetsaren. — 2007. — 62, № 1. — P. 34–36.
49. Ohlsen F. Hybrid laser arc welding. — Cambridge: Woodhead publ., 2009.
50. Fiber laser-GMA hybrid welding of commercially pure titanium / C. Li, K. Muneharua, S. Takao et al. // Materials and Design. — 2009. — № 30. — P. 109–114.
51. Using hybrid laser arc welding to reduce distortion in ship panels / S. M. Kelly et al. // Welding J. — 2009. — 88, № 3. — P. 32–36.
52. Wind tower consumable selection guide. www.lincolnelectric.com.
53. http://content.lincolnelectric.com/pdfs/products/literature/mc05114.pdf.
54. http://www.bernardwelds.com/articl es/article4.htm http.
55. http://weldingdesign.com/process es/news/wdf_ 11004/.
56. http://www.hobartbrothers.com/aboutus/fillermetals_highstrength_pipe/.
57. Friction stir welding studies on mild steel / T. J. Linert et al. // Welding J. — 2003. — 82, № 1. — P. 1–9.
58. A microstructural study of friction stir welded joints of carbon steels / A. Ozekcin et al. // Intern. J. Offshore and polar eng. — 2004. — 14, № 4. — P. 284–288.
59. Friction stir welding — process variants and recent industrial developments / I. M. Norris, W. M. Thomas, J. Martin et al. // Proc. of 10th intern. Aachen welding conf. on welding and joining, key technologies for the future (Aachen, 24–25 Oct. 2007).
60. Defalco J., Steel R. Friction stir process now welds steel pipe // Welding J. — 2009. — 88, № 5. — P. 44–48.
61. Santos T. F. A Friction stir welding of UNS S32205 duplex stainless steel // LNLS Activity 2009. Report.
62. EBSD investigation of friction stir welded duplex stainless steel / T. Saeidet al. // World Academy of Sci., Eng. And Techn. — 2010. — 61. — P. 376–379.
63. Friction stir spot welding of advanced high-strength steels — A feasibility study / Z. Feng et al. // SAE Intern. Report 2005-01-1248.