Name
Ursolov Oleksandr
Nationality
Ukrainian
Date of Birth
12.04.1993
Family status
married, no children
Address
Mykolaiv, Ukraine
Phone
+380637304032, +380987328155
Email
aleksandr.ursolov@gmail.com
Professional Skills
—Performing ship theory calculations, designing the ship and its propulsion system (Maxsurf, AVEVA Marine (Tribon) Initial design, Orca 3D, PropExpert, NavCad, PropCad);
— Building 3D models, including the ship hull surface and its equipment (SolidWorks (including Motion), Siemens NX, Rhinoceros, AutoCAD, ANSYS Desi-gn Modeler, VRML);
— CFD modelling, including ship hull towing, rotating propeller etc. (Flow Visi-on, Solid Works Flow Simulation, ANSYS Fluent, Star CCM+);
— FEM modelling (ANSYS, Solid Works Simulation);
— Marine propulsion shafting alignment and vibration calculations (ShaftDesi-gner);
— Engineering calculations and plotting (MathCad, MatLab (including Simuli-nk), Advanced Grapher, GetData Graph Digitizer, Grafula, Curve Expert);
— Preparing technical documentation, drawings, flow charts, presentations (LaTeX,Word, Excel, PowerPoint, Acrobat, FineReader, VizFlow Pro, AutoCAD);
— Creating end editing raster and vector graphics, animations, rendering 3D models (Photoshop, CorelDraw, Illustrator, GIF movie gear, Solid WorksPhotoView 360);
— Creating video (Sony Vegas Pro, Adobe Premiere Pro, Camtasia Studio);
— Programming skills, including OOP (Matlab, Delphi, C++, Python, Fortran,AutoIt);
— Working in Windows and Linux;
— Command of Russian (first language), Ukrainian (first language), English (PTE General B2, academic), Chinese (Mandarin, elementary).
Education
2016––pres.
Admiral Makarov National University of Shipbuilding Ship theory and design department
Specialization: Shipbuilding
Postgraduate student
Thesis supervisor: D.Sc.Tech., Prof. Valeriy Nekrasov
Thesis: The optimal design of marine shafting for rough sea operatedships
Admiral Makarov National University of Shipbuilding Ship theory and design department Specialization: Ships and ocean technologies
2014––2016
Degree: master (diploma with honour, defence of the thesis in Englishand Russian)
Thesis: Research of inertial loads acting on shaft and propeller duringlongitudinal pitching
Admiral Makarov National University of Shipbuilding
2010––2014
Ship theory and design department
Specialization: Ships and ocean technologies
Degree: bachelor (diploma with honour)
Thesis: Design of tanker with capacity of 66600 t
Work experience
2013––pres.
Private company «Intellectual maritime technologies», Mykolaiv,
Ukraine
Position: research fellow
— developing and programming of software algorithms for the shaft calculations;
— researching exploitation factors that influence on the ship’s
propulsion system operation;
— finite element analysis of the ship’s hull structures;
— calculations according to Classification Societies rules;
— providing customer support, promotion at international exhibitions, training on ShaftDesigner software usage;
— taking part in inclining tests;
— creating graphical materials, including vector and 3d graphics.
Admiral Makarov National University of Shipbuilding Ship theory and design department Position: teacher
— teaching the Tribon, Maxsurf, NavCad, PropCad software (in English);
— teaching the theory of ship (statics, propulsion, seakeeping and
manoeuvrability) and CAD/CAE/CAM systems in shipbuilding (both in
English);
— consecutive interpreting the ship design lectures and the design of the small craft lectures from Russian into English;
— teaching (in English) in Jiangsu University of Science and Technology, the People Republic of China.
Research department
2016
Position: junior research fellow
— programming of engineering calculations.
Additional Information
Personality: responsible, quick learner, sociable, purposeful, hardworking;
— Scientific interests: shaft alignment and vibration, finite element analysis, tri-bology, CFD, ship propulsion, seaworthiness, propeller hydrodynamis;
— The Stepan Osipovich Makarov scholarship had been given while studying for the master degree;
— The first place in the all-Ukrainian competition of student’s scientific works in «Shipbuilding and sea transport» specialization has been taken in 2016.
— The author of the Vocabulary Workout software;
— The driver license with B category;
— Do not smoke and do not drink alcohol.
Scientific articles
Links to the scientometric resources:
ResearchGate: https://www.researchgate.net/profile/Aleksandr_Ursolov2
Researcher ID: http://www.researcherid.com/rid/G-6085-2018
ORCID: https://orcid.org/0000-0003-4079-3415
Google Scholar:
https://scholar.google.com.ua/citations?user=2Zbra_gAAAAJ&hl=uk&authuser=1
12 articles [1–12] and 13 conference proceedings [13–25] have been published:
1. Kabanova N. N., Ursolov A. I. Diploma ship design within using mod-ern CAD-systems (in Russian) // Compilation of scientific works: «Her-ald of Odessa National Maritime University». 2015. P. 52–59.
URL: https://www.researchgate.net/publication/331008157.
2. Moonesun Mohammad, Korol Yuri Mikhailovich, Ardeshiri Sajjad, Mahdi-an Asghar, Gharechahi Ataollah, Tahvildarzade Davood, Ursalov Alexander. Evaluation of Naval Submarine Seakeeping Criteria // The Journal of Sci-entific and Engineering Research. 2015. no. 2(4). P. 45–54. URL: https://www.researchgate.net/publication/331001074.
3. Moonesun Mohammad, Dalayeli Hosein, Javadi Mehran, Mousavizade-gan S. H., Ursalov Alexander, Gharachahi A. Wave profile and deck wet-ness of submarine at surface condition // International Journal of Recent Ad-vances in Multidisciplinary Research. 2015. no. 02. P. 1083–1091.
URL: http://www.ijramr.com/sites/default/files/issues-pdf/482.pdf.
4. Moonesun Mohammad, Korol Yuri Mikhailovich, Nikrasov Valeri A, Ursa-lov Alexander, Brajhko Anna. CFD analysis of the bow shapes of submarines // Journal of Scientific and Engineering Research. 2016. no. 3(1). P. 1–16.
URL: https://www.researchgate.net/publication/331001130.
5. Moonesun Mohammad, Korol Yuri Mikhailovich, Nikrasov Valeri, Brazhko An-na, Ursolov Alexander. Bottom effect on the submarine moving close to the sea bottom // Journal of Scientific and Engineering Research. 2016. no. 3(1). P. 106–113.
URL: https://www.researchgate.net/publication/ 331001062.
6. Moonesun Mohammad, Ghasemzadeh Firouz, Korol Yuri, Nikrasov Valeri, Yastreba Alexi, Ursolov Alexander, Mahdian Asghar. Technical Notes on the Near Surface Experiments of Submerged Submarine // InternationalJournal of Maritime Technology. 2016. no. 5. P. 41–54.
URL:http://www.ijmt.ir/browse.php?a_id=477&slc_lang=en&sid=1&ftxt=1.
7. Moonesun Mohammad, Ghasemzadeh Firouz, Korol Yuri, Nikrasov Valeri, Yastreba Alexi, Ursalov Alexander. Effective Depth of Regular Wave on Sub-merged Submarines and AUVs // International Robotics & Automation Jour-nal. 2017. no. 2.
URL: http://medcraveonline.com/IRATJ/IRATJ-02-00037.pdf.
8. Ursolov A., Batrak Y., Tarelko W. Application of the optimization methods to the search of marine propulsion shafting global equilibrium in running condition // Polish Maritime Research. 2019. Vol. 26, no. 3(103). P. 172–180.
9. Ursolov A. I., Nekrasov V. A. The statistical estimation of the inertial loads on the shafting bearings during longitudinal ship motions at irregular waves // Scientific Bulletin of the Kherson State Maritime Academy.
10. Ursolov A. I. The solution of shafting alignment problems with feedback using the generalized relaxation method // Bulletin of the Odessa National Maritime University. 2019. Vol. 2, no. 59.
11. Ursolov A. I., Batrak Y. A. Stiffness matrix of the beam finite element on elastic foundation with non-linear stiffness along the element // Problems of computational mechanics and strength of structures. 2019. no. 29. P. 207–220.
12. Moonesun Mohammad, Ghasemzadeh Firouz, Korneliuk Olga, Korol Yuri, Nikrasov Valeri, Yastreba Alexi, Ursalov Alexander. Effective Depth of Regu-lar Wave on Submerged Submarine // Indian Journal of Geo Marine Sciences. 2019. — September. no. 48 (09).
13. Kabanova N. N., Ursolov A. I. Diploma ship design within using modern CAD-systems (in Russian) // Modern technologies of design, building, exploitation and repairing of the ships, ocean technique and engineering structures / NU-OS. 2015.
URL:https://www.researchgate.net/publication/331008356.
14. Batrak Y. A., N. Serduchenko A., Ursolov A. I. Evaluation of the bear-
ing loads of ship’s shaftline due to the action of inertial forces causedby ship motions on head irregular waves (in Ukrainian) // Modern tech-nologies of design, building, exploitation and repairing of the ships, ocean technique and engineering structures / NUOS. 2015. P. 58–59.
URL: https://www.researchgate.net/publication/331004986.
15. Korol Y. M., Brajko A. S., Ursolov A. I. Research of the efficiency of the pre-propeller and the post-propeller complexes within the FlowVision software (inRussian) // Innovations in shipbuilding and ocean technique / NUOS. 2015.
URL: https://www.researchgate.net/publication/331007990.
16. Batrak Y. A., Ursolov A. I. Stiffness matrix of a beam finite element thatlies on nonlinear elastic foundation (in Russian) // Modern technologies of design, building, exploitation and repairing of the ships, ocean technique and engineering structures / NUOS. 2016.
URL: https://www.researchgate.net/publication/331006366.
17. Korol Y. M., Brajko A. S., Ursolov A. I. Optimization of the propellerparameters that operating behind the ship’s hull (in Russian) // Modern technologies of design, building, exploitation and repairing of the ships, ocean technique and engineering structures / NUOS. 2016.
URL: https://www.researchgate.net/publication/331007292.
18. Ursolova A. S., Ursolov A. I. The use of Solid Works Flow Simulation softwarefor solving the ship’s propeller hydrodynamic issues (in Russian) // Innovations in shipbuilding and ocean technique / NUOS. 2016.
URL: https://www.researchgate.net/publication/331007896.
19. Ursolov A. I., Batrak Y. A. The calculation of the shaft bending that lyingon the bearings presented by a nonlinear unilateral elastic foundation withfinite length (in Russian) // Innovations in shipbuilding and ocean technique / NUOS. 2016.
URL: https://www.researchgate.net/publication/331008069.
20. Ursolov A. I., Batrak Y. A. The use of optimization methods in bending cal-culation of the marine shaftline with hydrodynamic lubricated bearings (inRussian) // Modern technologies of design, building, exploitation and repair-ing of the ships, ocean technique and engineering structures / NUOS. 2017. P. 64–67.
URL: https://www.researchgate.net/publication/331007895.
21. Ursolov A. I., Nekrasov V. A. Impact of the ship hull structure’s deformationson the shaftline’s bearings during operation under sea waves (in Russian) // Innovations in shipbuilding and ocean technique / NUOS. 2017. P. 91–92.
URL: https://www.researchgate.net/publication/331008126.
22. Ursolov A. I., Batrak Y. A., Serduchenko A. N. The elastohydrodynamic modelof the sterntube bearing in the shaftline bending calculations (in Russian) // Innovations in shipbuilding and ocean technique / NUOS. 2017. P. 93–94.
URL: https://www.researchgate.net/publication/331007999.
23. Ursolov A. I., Batrak Y. A. Mathematical modelling of the ship’s shaftingoperation (in Russian) // Computer modeling in knowledge-intensive technolo-gies / V.N.Karazin KNU. 2018. P. 309–311.
URL: https://www.researchgate.net/publication/331008122.
24. Ursolov A. I., N. Serduchenko A., Batrak Y. A. Calculation of the sterntubebearing bush elastic deflections caused by lubrication hydrodynamic pressure(in Russian) // Modern technologies of design, building, exploitation and re-pairing of the ships, ocean technique and engineering structures / NUOS. 2018. P. 40–43.
URL:https://www.researchgate.net/publication/331008127.
25. Pechenyuk A. V., Ursolov A. I. Determinsng the forces transmitted by the pro-peller to the ship’s shafting using computational fluid mechanics methods // Transport technologies (marine and river fleet): infrastructure, shipping, trans-portation, automation / National university «Odessa maritime academy». 2018. P. 75–77.
URL: https://www.researchgate.net/publication/331012213.
姓名
国籍
乌克兰
出生日期
1993年4月12日
婚姻状况
已婚,无子女
地址
乌克兰梅克莱夫市
电话
电子邮箱
专业技能
——进行船舶理论计算,设计船舶及其推进系统(Maxsurf、AVEVA Marine(Tribon)初步设计、Orca 3D、Prop Expert、NavCad、PropCad);
——建立三维模型,包括船体表面及其设备(Solid Works(包括Motion)、西门子NX、Rhinoceros、AutoCAD、ANSYS Design Modeler、VRML);
——计算流体动力学建模,包括船体拖航、旋转螺旋桨等(Flow Vision、Solid Works流动模拟、ANSYS Fluent、Star CCM+);
——有限元建模(ANSYS、Solid Works模拟);
——船舶推进轴系对准和振动计算(Shaft Designer);
——工程计算和绘图(MathCad、MatLab(包括Simulink)、Advanced Grapher、GetData Graph Digitizer、Grafula、Curve Expert);
——编制技术文件、图纸、流程图、演示文稿(LaTeX、Word、Excel、PowerPoint、Acrobat、FineReader、VizFlow Pro、AutoCAD);
——创建最终编辑试映图和矢量图形、动画、渲染三维模型(Photoshop、CorelDraw、Illustrator、GIF movie gear、Solid Works PhotoView 360);
——创建视频(Sony Vegas Pro,Adobe Premiere Pro,Camtasia Studio);
——编程技巧,包括OOP(MATLAB,Delphi,C++,Python,FORTRAN,AutoIt);
——利用Windows和Linux开展工作;
——掌握俄语(第一语言)、乌克兰语(第一语言)、英语(培生普通英语考试B2)、汉语(普通话,初级)。
教育经历
2016年至今
马卡洛夫国立造船大学船舶理论与设计系
专业:造船
研究生
论文导师:Valeriy Nekrasov理学博士,教授
论文:大浪航行船轴系的优化设计
2014年至2016年
专业:船舶和海洋技术
学位:硕士(荣誉证书,英语和俄语论文答辩)
论文:纵向俯仰时轴和螺旋桨惯性载荷的研究
2010年至2014年
卡洛夫国立造船大学船舶理论与设计系
学位:学士(荣誉证书)
论文:66600吨级油轮设计
工作经历
2013年至今
私人公司《Intellectual Maritime Technologies》,乌克兰梅克莱夫市
职位:研究员
——轴计算软件算法的开发与编程;
——研究影响船舶推进系统运行的开发因素;
——船体结构的有限元分析;
——根据船级社规则进行计算;
——为客户提供支持,在国际展览会上进行推广,对ShaftDesigner软件的使用进行培训;
——参加倾斜试验;
——创建图形材料,包括矢量和三维图形。
职位:教师
——Tribon、Maxsurf、NavCad、PropCad软件教学(英语教学);
——船舶理论(静力学、推进性、耐波性和操纵性)和计算机辅助设计/计算机辅助工程/计算机辅助制造工程系统教学(英语教学);
——在船舶设计讲座和小艇设计讲座上进行俄语-英语翻译;
——在中国江苏科技大学任教(英语教学)。
2016年
马卡洛夫国立造船大学研究系
职位:初级研究员
——工程计算程序设计。
补充信息
——个人品质:责任心强,学习能力强,善于交际,目标明确,工作勤奋;
——科研方向:轴对准与振动,有限元分析,摩擦学,计算流体动力学,船舶推进,适航性,螺旋桨水动力;
——在攻读硕士学位期间,获得了Stepan Osipovich Makarov奖学金;
——2016年,在全乌克兰《造船和海运》科研工作学生竞赛中获得第一名。
——开发了Vocabulary Workout软件;
——B类驾驶证;
——不吸烟,不喝酒。
科技文章
地址:江苏省连云港市海州区苍梧路59号 电话:0518-85895605 邮编: 222005
版权所有:江苏海洋大学马卡洛夫海洋工程学院
