Draft:Leon Mishnaevsky Jr.

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Submission declined on 26 December 2018 by AngusWOOF (talk). This submission is not adequately supported by reliable sources. Reliable sources are required so that information can be verified. If you need help with referencing, please see Referencing for beginners and Citing sources. This draft's references do not show that the subject qualifies for a Wikipedia article. In summary, the draft needs to meet any of the eight academic-specific criteria or cite multiple reliable, secondary sources independent of the subject, which cover the subject in some depth Make sure your draft meets one of the criteria above before resubmitting. Learn about mistakes to avoid when addressing this issue. If the subject does not meet any of the criteria, it is not suitable for Wikipedia. Declined by AngusWOOF 5 years ago.

• Comment: check for citations to the person's papers and books DGG ( talk ) 09:48, 22 May 2022 (UTC)

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Leon Mishnaevsky Jr. (born in Kyiv, Ukraine..^[1]) is a Danish and German materials scientist. He is Senior Researcher at the Technical University of Denmark, Department of Wind Energy. His research interests include computational materials science and its application in renewable energy ^[2].

Life

Mishnaevsky received his diploma in electromechanics from the Kyiv National University of Construction and Architecture, and his PhD from Mining Institute at North in Yakutsk, USSR. In 2005 he received his Dr. habil. (Habilitation) degree in mechanics from Darmstadt University of Technology, Germany. Since 2006, he is a Senior Researcher at the Risø National Laboratory and later at Technical University of Denmark.

Work

Mishnaevsky is an author of the books “Computational Mesomechanics of Composites” ^[3], and “Damage and Fracture of Heterogeneous Materials” ^[4], and co-author of “Micromechanics and Nanosimulation of Metals and Composites” ^[5].

In 2011-2014, Mishnaevsky managed the European project “VINAT/Virtual Nanotitanium” ,^[6] , devoted to the development of extra-durable titanium materials for dental implants ^[7]. The project involved also collaboration with scientific partners from Russia ^[8]. In this project, a prototype of a small diameter dental implant from extra-strong ultrafine-grained titanium material was developed and tested ^[9].. Mishnaevsky also managed Sino-Danish collaborative project devoted to development of new nanoengineered materials for wind energy ^[10], ^[11]. The result of this work was new understanding of microscale mechanisms of degradation of wind turbine blades ^[12].

Mishnaevsky coordinated testing and introduction of low-cost timber based wind turbines for independent energy generation in remote villages in Nepal in the framework the Danida development project "Development of wind enegy in Nepal" ^[13]. The technology of low cost, locally producible small wind turbines for decentralized energy generation was developed, and applied in Nepal^[14] . The new low cost wooden wind turbines were installed at the Kusheswor secondary school, Dumja, Nepal, and in Phakhel site in Makawanpur district, Nepal ^[15]

In 2019, Mishnaevsky initiated a new project, directed to solve the problem of surface erosion of large offshore wind turbines ^[16], which represents a critical challenge for the development of wind energy in Europe ^[17]. The erosion of wind turbine blades can reduce the energy generation by several percents, and thus increases the costs of renewable energy for end users ^[18]. The project is carried out together with leading industrial manufacturers of wind turbines, Vestas, Siemens Gamesa and LM Wind Power^[19]. An international symposium on the leading edge erosion of wind turbine blades, which took place in Denmark in 2020, attracted participants from around the world ^[20]. In 2020, Mishnaevsky initiated a collaboration with several Indian laboratories and institutions (IIT Delhi, CSIR-NAL, NIWE) and Indian wind turbine service companies, to optimize the technology of maintenance and repair of wind turbines ^[21], ^[22]

Awards

In 2003, he received Heisenberg Fellowship of German Research Council (Deutsche Forschungsgemeinschaft, DFG) ^[23] , ^[24]. In 2003, he was invited to Ecole Nationale Superieure d’Arts et Metiers (ENSAM, Paris, France), as Professeur invite. In 2016, Mishnaevsky was Guest Professor, at the China University of Mining and Technology/CUMT, in the Programme of Introducing Talents of Discipline to Universities. He was also awarded by Japan Science and Technology Agency (STA) Fellowship, Japan Society for the Promotion of Science Invitation Fellowship and A. v. Humboldt Fellowship.

Selected publications

• L. Mishnaevsky Jr, Computational Mesomechanics of Composites, John Wiley and Sons, 2007, 280 pp. ISBN: 978-0-470-02764-6

• S. Schmauder, L. Mishnaevsky Jr, Micromechanics and Nanosimulation of Metals and Composites, Springer, 2008, 420 pp., ISBN 978-3-540-78678-8

• L. Mishnaevsky Jr., Nanostructured interfaces for enhancing mechanical properties of materials, Composites Part B, Vol. 68, 2015, pp. 75–84, https://doi.org/10.1016/j.compositesb.2014.08.029

• L. Mishnaevsky Jr, Damage and Fracture of Heterogeneous Materials, Taylor & Francis, 1998, 230 pp, ISBN-13: 978-9054106999, ISBN-10: 9054106999

• L. Mishnaevsky Jr. R. Valiev, E. Gutmanas et al. Nanostructured titanium based materials for medical implants: Modeling and development, Materials Science & Engineering R: Reports.Vol. 81, 2014, pp. 1–19, https://doi.org/10.1016/j.mser.2014.04.002

• H.W. Wang, H.W. Zhou, R.D. Peng, L.Mishnaevsky Jr., Nanoreinforced polymer composites: 3D FEM modeling with effective interface concept, Composites Scie & Technol, Vol. 71, No. 7, 2011, pp- 980-988, https://doi.org/10.1016/j.compscitech.2011.03.003

References

1. Profile at the Technical University of Denmark (https://www.dtu.dk/english/service/phonebook/person?id=38774&cpid=&tab=1)
2. Leon Mishnaevsky profile in Orchid, https://orcid.org/0000-0003-3193-4212
3. L. Mishnaevsky Jr, "Computational Mesomechanics of Composites, John Wiley and Sons, 2007, 280 pp. ISBN: 978-0-470-02764-6
4. L. Mishnaevsky Jr, Damage and Fracture of Heterogeneous Materials, Taylor & Francis, 1998, 230 pp, ISBN-13: 978-9054106999, ISBN-10: 9054106999
5. S. Schmauder, L. Mishnaevsky Jr, Micromechanics and Nanosimulation of Metals and Composites, Springer, 2008, 420 pp., ISBN 978-3-540-78678-8, https://www.springer.com/de/book/9783540786771
6. Theoretical analysis, design and virtual testing of biocompatibility and mechanical properties of titanium-based nanomaterials, https://cordis.europa.eu/project/id/295322
7. DTU News, Nanostrukturerede materialer til stærkere implantater, DTU Nyhered, https://www.dtu.dk/Nyheder/Nyhed?id=%7bBAC65840-8FF6-44B3-AFB3-003708D08101%7d
8. EU and Russian scientists join efforts in development new nanomaterials for medical implants, Copenhagen, Denmark, Nanotechnology Now, August 27th, 2013, http://www.nanotech-now.com/news.cgi?story_id=48052
9. L. Mishnaevsky Jr. R. Valiev, E. Gutmanas et al. Nanostructured titanium based materials for medical implants: Modeling and development, Materials Science & Engineering R: Reports.Vol. 81, 2014, pp. 1–19, https://doi.org/10.1016/j.mser.2014.04.002
10. Sino-Danish cooperation on wind turbine blade materials, 22 March 2011, Renewable Energy focus, http://www.renewableenergyfocus.com/view/16758/sino-danish-cooperation-on-wind-turbine-blade-materials/
11. International Symposium on Materials for Wind Energy Applications Held in Beijing, https://english.cumtb.edu.cn/info/1099/1169.htm
12. L. Mishnaevsky Jr. H.W. Zhou, H. Y. Yi, L. L. Gui, R. D. Peng, H.W. Wang, Microscale damage mechanisms and degradation of fiber reinforced composites for wind energy applications: Results of Danish-Chinese collaborative investigations, J. Composite Materials, 2014, Vol. 48(24) 2977–2991, https://doi.org/10.1177/0021998313503876
13. Nepal: Wooden Blades for Wind Turbines?, 5 Dezember 2008, https://news.bio-based.eu/nepal-wooden-blades-for-wind-turbines/
14. DTU Webpage: Development of wind energy technologies in Nepal, https://www.vindenergi.dtu.dk/english/Research/Research-Projects/Completed-projects/Development-of-wind-energy-technologies-in-Nepal
15. L. Mishnaevsky Jr., et al, Small wind turbines with timber blades for developing countries: Materials choice, development, installation and experiences, Renewable Energy, Vol.36, No. 8, 2011, pp. 2128-2138, https://doi.org/10.1016/j.renene.2011.01.034
16. "Joint industry project tackles leading edge erosion", Wind Power Monthly, 6 .11.2018 by David Weston, https://www.windpowermonthly.com/article/1498134/joint-industry-project-tackles-leading-edge-erosion
17. Energy Insight Yearbook 2020, "DTU tackles leading edge erosion of wind turbine blades" , https://issuu.com/energyinsight/docs/energy_insight_yearbook_2020_online_hq?fr=sYjExYzk4MTczNA&fbclid=IwAR0CB5Cqmsc0pVzu3j_znFmtQ2h7T-0RNerrSGILRvzNVnz_-s0YOcGd_XA, (p. 50-52)
18. EnergySupply Denmark, Maria Berg Badstue Pedersen"Når vindmøllerne ikke kan få regnfrakke på", 30. oktober 2018, https://www.energy-supply.dk/article/view/629214/nar_vindmollerne_ikke_kan_fa_regnfrakke_pa
19. Project DURALEDGE/”Durable leading edges for high tip speed wind turbine blades, www.duraledge.dk
20. DTU News: Before DTU Wind Energy Symposium: Great international interest in erosion of wind turbine blades, https://www.innowind.dk/news/nyhed?id=%7BE51B512D-63C9-4B44-B445-BC9E695D395B%7D
21. News of Technical University of Denmark, New project on Maintenance and repair of wind turbines, https://www.vindenergi.dtu.dk/english/news/Nyhed?id={790CCB1F-8CD5-4A48-99AD-8F87E3B0EBEF}
22. DTU Projects, Maintainergy project, https://www.vindenergi.dtu.dk/english/research/research-projects/maintainergy
23. University of Stuttgart News, https://www.uni-stuttgart.de/presse/archiv/uni-kurier/uk91/personalia/auszeichnungen.html
24. DFG page, https://gepris.dfg.de/gepris/projekt/5378910?language=en