Personal Information
Artur Zaporozhets

Department of Monitoring and Optimization of Thermophysical Processes, Institute of Engineering Thermophysics, National Academy of Science of Ukraine, Kyiv, Ukraine

Artur Zaporozhets
Educations
From 2007 to 2013, M.Sci. (Applied Physics) , Ukraine
From 2012 to 2013, Candidate of Sciences of National Aviation University , Ukraine
From 2013 to 2016, Ph.D. (Computer Systems and Components) , Ukraine
From 2018 to 2019, M.B.A. (General Management) , Edinburgh, Scotland, UK
Work Experiences
From 02/2009 to 11/2011, Research Assistant , Dept. of Nanostructures Physics, G.V. Kurdyumov Institute for Metal Physics of NAS of Ukraine
From 09/2013 to 10/2016, Research Assistant , Dept. of heatmetry, diagnostics and optimization in power engineering, Institute of Engineering Thermophysics of NAS of Ukraine
From 11/2016 to 04/2017, Research Officer , Dept. of heatmetry, diagnostics and optimization in power engineering, Institute of Engineering Thermophysics of NAS of Ukraine
From 05/2017 to to date, Senior Research Officer , Dept. of monitoring and optimization of thermal processes, Institute of Engineering Thermophysics of NAS of Ukraine
Projects
From 2012 to 2015, 2012-2015: Development of equipment for improving the efficiency of fuel combustion in boilers with a capacity to 3.5 MW, depending on the quality of natural gas using an α-probe , 0113U001889; Research Project is financed by National Science of Ukraine; Involved as a Research Assistant
From 2012 to 2016, Development of the theoretical basis of monitoring the technical condition of heat power facilities and increasing their efficiency , 0112U001929; Research Project is financed by National Science of Ukraine; Involved as a Research Assistant
From 2013 to 2014, Development and research of combined cogeneration heat pump systems and monitoring of the technical condition of their individual units using acoustic methods , 0112U001934; Research Project is financed by National Science of Ukraine; Involved as a Research Assistant
From 2016 to 2018, Development of a multi-level system for technical diagnostics of the main and auxiliary equipment of thermal power plants , 0116U006405; Research Project is financed by National Science of Ukraine; Involved as a Senior Research Officer
From 2017 to 2018, Development of methods for monitoring the thermal state of the main heating networks based on quadrocopter , 0117U003694; Research Project is financed by National Science of Ukraine; Involved as a Senior Research Officer
From 2017 to 2021, Development of scientific and practical bases for monitoring the environment and the technical condition of thermal power facilities based on unmanned aircraft systems , 0117U000760; Research Project is financed by National Science of Ukraine; Involved as a Senior Research Officer
From 2018 to 2018, Interactive diagnostics of phytocenoses using UAVs for environmental impact assessment , 0117U004331; Research Project is financed by Ukrainian Ministry of Education; Involved as Senior Research Officer
From 2018 to 2018, Improving the performance of fuels for gas turbine engines, the safety of air transport and its environmental friendliness , 0118U003369; Research Project is financed by Ukrainian Ministry of Education; Involved as Research Officer
From 2018 to 2019, Development of scientific fundamentals of thermogas dynamics of power plants and monitoring of pollutant emissions , 0118U002283; Research Project is financed by Ukrainian Ministry of Education; Involved as Senior Research Officer
From 2019 to 2021, Development of a system for monitoring micro climatic parameters and the air pollution of the ecosystems the Northern Black Sea Coast , 0119U100550; Research Project is financed by Ukrainian Ministry of Education; Involved as Senior Research Officer
From 2019 to 2021, Development of a system for monitoring the level of harmful emissions of TPP and diagnosing the equipment of power plants using renewable energy sources on the basis of Smart Grid with their collaboration , 0119U101859; Research Project is financed by National Science of Ukraine; Involved as a Senior Research Officer
Speciality
Computer Systems and Components
Monitoring and Diagnostic Systems
Process Optimization
Ecology of Energy
Non-Destructive Testing
Metrology
Book
Babak V.P. (ed) (2016) Hardware and software monitoring of objects for generation, transportation and consumption of thermal energy. Institute of Engineering Thermophysics of NAS of Ukraine, Kyiv
Zaporozhets A.O., Bilan T.R. (eds) (2017) Theoretical and applied bases of economic, ecological and technological functioning of energy objects. Nash Format, Kyiv. doi: 10.5281/zenodo.2540527
Babak V.P. (ed) (2018) Provision of Diagnostic Systems for Energy Facilities. Akademperiodyka, Kyiv. doi: 10.15407/akademperiodyka.353.134
Optics: laboratory workshop for students of the specialty 6.040204 "Applied Physics" (2014) National Aviation University. Kyiv
Journal Articles
Zaporozhets A.O., Plyuto I.V., Shpak A.P., Zamurnjak A.H. (2010) Improvement of transcleral technologies of illumination for analysis eyeground image. Science-based technologies 7(3-4):86-90. doi: 10.18372/2310-5461.7.5234
Zaporozhets A.O., Plyuto I.V., Zamurnjak O.H., Tjazhka H.P., Panasenko H.M., Tinytska Ya. Yu. (2011) Energetic security parameters of biological transilyuminatsiyi of nanosystems eye. Science-based technologies 11(3-4):105-109. doi: 10.18372/2310-5461.11.5181
Zaporozhets A.O., Plyuto I.V., Zamurnjak O.H., Pavlenko Yu. R., Tjazhka N.P. (2012) Modelling of optical properties of natural biological nanosystems of the eye. Science-based technologies 14(2):109-113. doi: 10.18372/2310-5461.14.5111
Zaporozhets A.O., Plyuto I.V., Verpeta V.O., Komisarenko Yu.I., Pavlenko Yu.R. (2012) Development of the program DIOLAS complex for diagnostics in oftalmoskopy. Science-based technologies 14(2):114-118. doi: 10.18372/2310-5461.14.5104
Zaporozhets A.A. (2014) Automatic control system by draft mechanisms of boiler using probe alpha indicator. Science and World 1(7):168-170
Zaporozhets A.O., Babak V.P., Nazarenko O.O. (2014) Digital alpha indicator of air-fuel mixture control based on a zirconium oxygen sensor. Thermophysics and Thermal Power Engineering 36(2):70-77
Zaporozhets A.O. (2014) Investigation of stoichiometric «air-fuel» ratio of organic compounds. Part 1. Alkanes. Science-based technologies 22(2):163-167. doi: 10.18372/2310-5461.22.6803
Zaporozhets A.A., Babak V.P. (2014) Research the stoichiometric composition «air-fuel» of flammable and explosive hydrocarbons. Scientific Proceedings on HTCM. 1(150):90-94
Zaporozhets A.O., Babak V.P., Redko O.O. (2015) Increasing the accuracy of measuring the air excess coefficient in the boilers using the electrochemical gas analyzer. Thermophysics and Thermal Power Engineering 37(1):82-96. doi: 10.31472/ihe.1.2015.10
Zaporozhets A.O. (2014) Investigation of stoichiometric «air-fuel» ratio of organic compounds. Part 2. Alkenes, alkynes. Science-based technologies 24(4):393-399. doi: 10.18372/2310-5461.24.7506
Zaporozhets A.O., Babak V.P. (2014) The quality system of burning air-fuel mixture in boilers of low and medium power. Methods and instruments of quality control 33(2):106-114
Zaporozhets A.A., Babak V.P., Redko A.A. (2015) Influence of meteorological parameters on the optimization of the combustion process. Scientific Proceedings on HTCM. 2(165):361-364
Zaporozhets A.O., Sverdlova A.D. (2015) Analysis of the research methods of compounds in the exhaled air. ScienceRise 17(1):15-27. doi: 10.15587/2313-8416.2015.56679
Zaporozhets A.A., Sverdlova A.D. (2016) Features detection of endogenous CO in exhaled air. Archivarius 1(5):9-13
Zaporozhets A.A., Babak V.P., Redko A.A. (2016) Experimental research of changes the volume concentration of oxygen in the air and influence on the combustion process. Scientific Proceedings on HTCM. 1(187):81-84
Zaporozhets A.A., Babak V.P., Sverdlova A.D. (2016) Diagnostics of technical condition of thermal power objects based on distributed computing infrastructure. Scientific Proceedings on HTCM. 1(187):85-89
Zaporozhets A.A., Sverdlova A.D., Redko A.A. (2016) Developing of multilevel diagnosic system for heating equipment. Archivarius 1(13):89-94
Zaporozhets A.A., Babak V.P., Mokiychuk V.M., Redko A.A. (2016) Improving the efficiency of fuel combustion with regard to the uncertainty of measuring oxygen concentration. Eastern-European Journal of Enterprise Technologies. 6(84):54-59. doi: 10.15587/1729-4061.2016.85408
Zaporozhets A.O., Babak V.P., Sverdlova A.D. (2016) Smart Grid technology in monitoring of power system objects. Industrial Heat Engineering. 38(6):71-81. doi: 10.31472/ihe.6.2016.10
Zaporozhets A.A., Sverdlova A.D. (2017) Peculiarities of application of Smart Grid technology in systems for monitoring and diagnostics of heat-and-power engineering objects. Technical Diagnostics and Non-Destructive Testing 2:33-41. doi: 10.15407/tdnk2017.02.05
Zaporozhets A.A., Babak V.P., Kovtun S.I., Serhiienko R.V. (2017) Diagnostic methods analysis of bulk heating systems technical condition. The Scientific Heritage 14(14):59-66
Zaporozhets A.O., Babak V.P., Nazarenko O.O., Redko O.O. (2017) Approximation analysis of measurement of heat flow bomb calorimeter in non-stationary mode. ScienceRise 37(8):24-32. doi: 10.15587/2313-8416.2017.108935
Zaporozhets A.O. (2017) Analysis of means for monitoring air pollution in the environment. Science-based technologies 35(3):242-252. doi: 10.18372/2310-5461.35.11844
Zaporozhets A.O., Sverdlova A.D. (2017) Analysis of methods for diagnosing heat energy objects. Science-based technologies 35(3):259-265. doi: 10.18372/2310-5461.35.11844
Zaporozhets A.A., Babak V.P., Ponomarenko A.V. (2017) Control combustion process in small and medium power boilers using oxygen sensors. Scientific Proceedings on HTCM 1(216):130-134
Zaporozhets A.O. (2017) Experimental studies of the fuel combustion control system in boilers. Metrology and devices. 5-1:111-114
Zaporozhets A., Babak V., Kovtun S., Serhiienko R. (2018) Methods and means of heat losses monitoring for heat pipelines. International Journal “NDT Days” 1(2)213-221
Zaporozhets A.A., Serhiienko R.V., Ivanov S.A. (2018) Methods of Quality Control of Energy Efficient Characteristics of Biofuels and its Combustion. International Journal “NDT Days” 1(2)222-227
Zaporozhets A.O., Redko O.O., Babak V.P., Eremenko V.S., Mokiychuk V.M. (2018) Method of indirect measurement of oxygen concentration in the air. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu. 5:105-114. doi: 10.29202/nvngu/2018-5/14
Zaporozhets A. (2019) Analysis of control system of fuel combustion in boilers with oxygen sensor. Periodica Polytechnica Mechanical Engineering. 64(4): 241-248. doi: 10.3311/PPme.12572
Conference Papers
Zaporozhets A.O., Plyuto I.V., Zamurnjak O.H. (2010) Modeling of optical properties of biological nanosystems. Abstracts of the X International Scientific and Practical Conference of Young Scientists and Students: "Flight: Modern Problems of Science", National Aviation University, Kyiv, Ukraine, 7-9 April 2010
Zaporozhets A.A., Plyuto I.V., Zamurnjak A.H. (2010) Modeling of optical properties of biological nanosystems // Abstracts of II International Scientific Conference “Nanostructured materials - 2010: Belarus – Russia – Ukraine”, Kyiv, Ukraine, 19-22 October 2010
Zaporozhets A.A., Shpak A.P., Plyuto I.V., Zamurnjak A.H. (2010) Simulation of optical properties of biological nanosystems of the eye. Proceedings of the 53rd scientific conference MIPT “Modern problems of fundamental and applied sciences.” General and applied physics. Part 2, pp. 36-38, Moscow Institute of Physics and Technology, Moscow, Russia, 2010
Zaporozhets A.A., Zamurnjak O.H. (2010) Optical properties of the sclera as a biological nanosystem of the eye. Abstracts of the Scientific conference of students and young scientists "High Technologies", p. 62, National Aviation University, Kyiv, Ukraine, 15-19 November 2010
Zaporozhets A.O., Zamurnjak O.H. (2011) Energy features of transillumination of eye systems. Abstracts of the XI International Scientific and Practical Conference of Young Scientists and Students: "Flight: Modern Problems of Science", p. 176, National Aviation University, Kyiv, Ukraine, 6-8 April 2011
Zaporozhets A.A. et al (2011) Using the technology of IR-transillumination of bionanosystems for obtaining images of the fundus. Proceedings of the 54rd scientific conference MIPT “Modern problems of fundamental and applied sciences.” General and applied physics, pp. 15-18, Moscow Institute of Physics and Technology, Moscow, Russia, 2011
Zaporozhets A.O. (2011) Simulation of the optical properties of collagen-implanted eye nanoshells. Abstracts of the Scientific conference of students and young scientists "High Technologies", p. 102, National Aviation University, Kyiv, Ukraine, 14-18 November 2011
Zaporozhets A.O. (2012) Simulation of optical properties of natural biological nanosystems of the eye. Abstracts of the XII International Scientific and Practical Conference of Young Scientists and Students: "Flight: Modern Problems of Science", p. 210, National Aviation University, Kyiv, Ukraine, 4-5 April 2011
Zaporozhets A.A. et al (2012) Infrared ophthalmoscope with digital registration of the image of a fundus in real time. Proceedings of the 55rd scientific conference MIPT “Modern problems of fundamental and applied sciences.” General and applied physics, pp. 11-12, Moscow Institute of Physics and Technology, Moscow, Russia, 2012
Zaporozhets A.A. (2013) Automation of control over the quality of gas combustion in boilers using a thermal α-probe. Proceedings of the 55rd scientific conference MIPT “Modern problems of fundamental and applied sciences.” Aeromechanics and flying mechanics, p. 13, Moscow Institute of Physics and Technology, Moscow, Russia, 2013
Zaporozhets A.O. (2014) Optimization of the combustion process of natural gas in boilers using a digital probe alpha indicator. Abstracts of the all-Ukrainian scientific-practical conference of young scientists, specialists, graduate students "Energy, energy saving at the beginning of the XXI century", p. 83, Pryazovskyi State Technical University, Mariupol, Ukraine, 20 March 2014
Zaporozhets A.O. (2014) The system of quality control of fuel combustion in boilers with a capacity to 3.5 MW. Abstracts of the International Scientific Conference "Problems of Modern Energy and Automation in the System of Nature Management", pp. 71-72, Agrar Media Group, Kyiv, Ukraine, 15-20 April 2014
Zaporozhets A.A. (2014) Control of the process of fuel combustion in boilers using oxygen probes. Abstracts of the International Scientific and Technical Conference "Problems of resource and energy saving technologies in industry and agriculture", pp. 436-439, Ivanovo State University of Chemistry and Technology, Ivanovo, Russia, 23-26 September 2014
Zaporozhets A.O. (2014) Digital alpha-indicator of air-fuel mixture control of low and medium power boilers. Abstracts of the 7th International Scientific Conference “Modern devices, materials and technologies for non-destructive testing and technical diagnostics of machine-building and oil and gas equipment”, pp. 53-58, Ivano-Frankivsk, 2014
Zaporozhets A.A. (2014) The research of the stoichiometric mixture "air-fuel" of alkanes for optimize the combustion process in heat generating units. Abstracts of the 2nd all-Ukrainian Scientific and Technical Conference of Students, Postgraduates and Young Scientists "Youth: Science and Innovations", vol. 12, pp. 12-13, Dnieper Polytechnic, Dnipro, Ukraine, 2-3 December 2014
Zaporozhets A.A. (2015) Combustion control system based on broadband oxygen probe. Proceedings of the XIV International Scientific Conference “Measuring and computing technology in technological processes”, pp. 68-70, Odessa National A.S. Popov Academy of Telecommunications, Odessa, Ukraine, 5-10 June 2015
Zaporozhets A.O., Redko O.O. (2015) Approaches for estimating the coefficients of a second-order polynomial calibration characteristic. Abstracts of the 8th International Scientific and Practical Conference "Integrated Intelligent Robotic Systems", pp. 128-130, National Aviation University, Kyiv, Ukraine, 18-19 May 2015
Zaporozhets A.O. (2015) Auto-ophthalmoscopy of the fundus with transscleral radiography using visible-light LEDs. Abstracts of the XV International Scientific and Practical Conference of Young Scientists and Students: "Flight: Modern Problems of Science", p. 43, National Aviation University, Kyiv, Ukraine, 8-9 April 2015
Zaporozhets A.A. (2015) Improving the method of excess air ratio determination due to climate variation. Proceedings of the XXV National Scientific Symposium with international participation "Metrology and metrological support - 2015", pp. 338-342, Sozopol, Bulgaria, 7-11 September 2015
Zaporozhets A.O. (2015) Extreme regulation of the air-fuel ratio in low and medium capacity boilers. Proceedings of the XIV International Scientific Conference “Measuring and computing technology in technological processes”, pp. 43, Odessa National A.S. Popov Academy of Telecommunications, Odessa, Ukraine, 10-14 September 2015
Zaporozhets A.O. (2015) Model of a combustion control system for an optimal air-fuel ratio. Proceedings of the XIV International Scientific Conference “Measuring and computing technology in technological processes”, pp. 46, Odessa National A.S. Popov Academy of Telecommunications, Odessa, Ukraine, 14-18 September 2015
Zaporozhets A.A., Sverdlova A.D. (2015) Analysis of methods for identifying biomarker molecules in expired air research. Proceedings of the 58rd scientific conference MIPT “Modern problems of fundamental and applied sciences.” Bionanophysics Section, Moscow Institute of Physics and Technology, Moscow, Russia, 2012 http://conf58.mipt.ru/static/prog.html
Zaporozhets A.A., Redko A.A. (2015) Prediction of oxygen content in the air based on the influencing meteorological variables. Proceedings of the 58rd scientific conference MIPT “Modern problems of fundamental and applied sciences.” Bionanophysics Section, Moscow Institute of Physics and Technology, Moscow, Russia, 2012 http://conf58.mipt.ru/static/prog.html
Zaporozhets A.O. (2015) Modeling of the air-fuel path of a heat power boiler as an object of regulation. Abstracts of the IX International Conference "Problems of industrial heat engineering", p. 78, Institute of Engineering Thermophysics of NAS of Ukraine, Kyiv, Ukraine, 20-23 October 2015
Zaporozhets A.O., Redko O.O., Mokiychuk V.M. (2016) The research of an alternative method of measuring the concentration of oxygen in the air. Abstracts of the IX International Scientific Conference "Integrated Intelligent Robot Technical Complexes", pp. 136-138, National Aviation University, Kyiv, Ukraine, 17-18 May 2016
Zaporozhets A.O., Sverdlova A.D. (2016) Development of a hierarchical system for diagnosing heat and power equipment. Proceedings of the 8th National Scientific Conference UkrNDT-2016, pp. 152-157, Ukrainian Society non-destructive testing and technical diagnostics, Kyiv, Ukraine, 22-24 November 2016
Zaporozhets A.O., Redko O.O. (2016) An approach for measuring the concentration of oxygen in the air on the basis of data from a portable weather station. Abstracts of the all-Ukrainian scientific conference of students, graduate students and young scientists “Youth: Science and Innovations – 2016”, pp. 7-8, Dnieper Polytechnic, Dnipro, Ukraine, 6-7 December 2016
Zaporozhets A.O., Sverdlova A.D. (2017) Features of machine learning in the diagnostic systems of energy facilities. Abstracts of the X International Conference "Problems of Thermal Physics and Thermal Power Engineering", Institute of Engineering Thermophysics of NAS of Ukraine, Kyiv, Ukraine, 23-26 May 2017
Zaporozhets A., Redko O. (2017) Effect of changing oxygen concentration on formation of air-fuel mixture in aviation engines. Abstract book of International Symposium on Sustainable Aviation 2017, p. 78, National Aviation University, Kyiv, Ukraine, 10-13 September 2017
Zaporozhets A.O., Babak V.P. (2017) Development of a model of the air-fuel path of the boiler unit for the combustion control system based on an oxygen sensor. Abstracts of the XVI International Scientific Conference “Improvement of power plants using mathematical and physical modeling methods”, Kharkiv, Ukraine, 10-14 September 2017
Zaporozhets A.A. (2017) System for improving the efficiency of fuel combustion in boilers. Abstracts of the XVIII International Scientific Conference "Renewable Energy and Energy Efficiency in the XXI Century", pp. 679-683, Institute of Renewable Energy National Academy of Sciences of Ukraine, Kyiv, Ukraine, 27-29 September 2017
Zaporozhets A.O. (2017) Monitoring of the state of heat networks on the basis of unmanned aerial vehicles. Abstracts of the 8th International scientific conference "Modern devices, materials and technologies for non-destructive testing and technical diagnostics of engineering and oil-gas equipment", p. 134, Ivano-Frankivsk National Technical University of Oil and Gas, Ivano-Frankivsk, Ukraine, 14-16 November 2017
Zaporozhets A.O. (2017) Experimental studies of the control system of fuel combustion in boilers. Abstracts of the Scientific Conference National Technical University of Ukraine “Igor Sikorsky Kyiv Polytechnic Institute” “Metrology and information-measuring equipment”, National Technical University of Ukraine “Igor Sikorsky Kyiv Polytechnic Institute”, Kyiv, Ukraine, 22 November 2017
Zaporozhets A.O., Sverdlova A.D. (2018) Development of measuring modules of a hierarchical system for diagnosing energy equipment based on Smart Grid technologies. Abstracts of the Scientific and technical conference of young scientists and specialists of the Pukhov Institute for Modelling in Energy Engineering of the National Academy of Sciences of Ukraine (to the 100th anniversary of the National Academy of Sciences of Ukraine), pp. 65-66, Pukhov Institute for Modelling in Energy Engineering, Kyiv, Ukraine, 16 May 2018
Zaporozhets et al. (2018) Means for improving production efficiency, quality control and fuel combustion from plant biomass. Abstracts of the Conference "The Sustainable Development Goals of the Third Millennium: Challenges for Life Sciences Universities", pp. 148-150, The National University of Life and Environmental Sciences of Ukraine, Kyiv, Ukraine, 23-25 May 2018
Zaporozhets A.O., Serhiienko R.V., Ivanov S.A. (2018) Approaches to development the system for control of quality and combustion of biofuels. Abstracts of the XVIII International Scientific and Practical Conference of Young Scientists and Students: "Flight: Modern Problems of Science", National Aviation University, Kyiv, Ukraine, 3-6 April 2018
Zaporozhets A.O. et al (2018) Development of an intelligent system for diagnosing the technical condition of the heat power equipment. Proceedings of the 2018 IEEE 13th International Scientific and Technical Conference on Computer Sciences and Information Technologies (CSIT), Lviv Polytechnic National University, Lviv, Ukraine, 11-14 September 2018. doi: 10.1109/STC-CSIT.2018.8526742
Zaporozhets A., Eremenko V., Sverdlova A. (2019) Application of the Hilbert transform in diagnosis using the impedance method. Proceedings of the IEEE 39th International Conference on Electronics and Nanotechnology (ELNANO), pp. 764-769, Igor Sikorsky Kyiv Polytechnic Institute, Kyiv, Ukraine, 16-18 April 2019
Zaporozhets A.O., Redko O.O. Oxygen concentration as an informative parameter of air quality. Abstracts of the Scientific and technical conference of young scientists and specialists of the Pukhov Institute for Modelling in Energy Engineering of the National Academy of Sciences of Ukraine, pp. 60-61, Pukhov Institute for Modelling in Energy Engineering of the NASU, Kyiv, Ukraine, 15 May 2019
Zaporozhets A.O. Remote diagnostics of technical condition of heat networks on the basis of quadropter. Abstracts of the XI International Conference "Problems of Thermal Physics and Thermal Power Engineering", Institute of Engineering Thermophysics of NAS of Ukraine, Kyiv, Ukraine, 21-22 May 2019
Honors and Awards
Honorary Certificate of the “Ukrainian Union of Industrialists and Entrepreneurs” (2017)
Inventor of the Year of the National Academy of Sciences of Ukraine (2017)
Winner of the All-Ukrainian contest “Invention of the Year” (Energy, 2016)
Winner of the educational project “Intellectualization” (Intel, 2013)
Winner of the scholarship program “Tomorrow.UA” (2012, 2013)
ADDRESS
Science Publishing Group
1 Rockefeller Plaza,
10th and 11th Floors,
New York, NY 10020
U.S.A.
Tel: (001)347-983-5186