THE TECHNIQUE OF CREATING A DYNAMIC MATHEMATICAL MODEL OF THE NEUTRAL GAS SYSTEM FOR A PROMISING AIRCRAFT IN THE PROGRAM COMPLEX SIMINTECH
( Pp. 21-27)
Starostin Konstantin Igorevich
Kobrinets Tatyana Aieksandrovich
Satin Anatoly Anatolyevich
Savelev Roman S.
Smagin Denis I.
More about authors
Starostin Konstantin Igorevich
starshiy prepodavatel kafedry 812
Moscow Aviation Institute (Research University) Kobrinets Tatyana Aieksandrovich inzhener laboratorii 5, NIO-101, 1 fakultet
Moscow Aviation Institute (Research University). Moscow, Russia Satin Anatoly Anatolyevich inzhener laboratorii 5, NIO-101
Moscow Aviation Institute (Research University) Savelev Roman S. veduschiy inzhener
Moscow Aviation Institute (National Research University) Smagin Denis I. nachalnik laboratorii NIO-101
Moscow Aviation Institute (National Research University)
Moscow Aviation Institute (Research University) Kobrinets Tatyana Aieksandrovich inzhener laboratorii 5, NIO-101, 1 fakultet
Moscow Aviation Institute (Research University). Moscow, Russia Satin Anatoly Anatolyevich inzhener laboratorii 5, NIO-101
Moscow Aviation Institute (Research University) Savelev Roman S. veduschiy inzhener
Moscow Aviation Institute (National Research University) Smagin Denis I. nachalnik laboratorii NIO-101
Moscow Aviation Institute (National Research University)
Abstract:
This article Describes the method of constructing a mathematical model of the neutral gas system on the example of a promising aircraft in the domestic software complex SimInTech. The results of modeling the high-altitude operation mode of the CIS, the features of mathematical modeling of the neutral gas system.
How to Cite:
Starostin K.I., Kobrinets T.A., Satin A.A., Savelev R.S., Smagin D.I., (2018), THE TECHNIQUE OF CREATING A DYNAMIC MATHEMATICAL MODEL OF THE NEUTRAL GAS SYSTEM FOR A PROMISING AIRCRAFT IN THE PROGRAM COMPLEX SIMINTECH. Computational Nanotechnology, 2 => 21-27.
Reference list:
Matveenko A.M. Sistemy mekhanicheskogo oborudovaniya letatel nykh apparatov. M.: Mashinostroenie, 2005. 558 s.
Innovation Process. Stage-Gate Idea-to-launch Model. Standart po sisteme Stage-Gate. http://stage-gate.com.
Spravka po SimInTech. http://simintech.ru.
Dubovkin N.F., Malanicheva V.G., Massur YU.P., Fedorov E.P. Fiziko-khimicheskie i ekspluatatsionnye svoystva reaktivnykh topliv: spravochnik. M.: KHimiya, 1985. 240 s.
Vargaftik N.B. Spravochnik po teplofizicheskim svoystvam gazov i zhidkostey. 2-e izd. M.: Nauka, 1972. 721 s.
Bretshnayder S. Svoystva gazov i zhidkostey. Inzhenernye metody rascheta/ per. s pol skogo / pod red. P.G. Romankova. - L.: KHimiya, Leningr. otd., 1966. 536 s.
Kartashov B.A., SHabaev E.A., Kozlov O.S., SHCHekaturov A.M. Sreda dinamicheskogo modelirovaniya tekhnicheskikh sistem SimInTech. M.: DMK Press, 2017. 424 s.
Idel chik I.E. Spravochnik po gidravlicheskim soprotivleniyam. 3-e izd. / pod red. M.O. SHteynberga. M.: Mashinostroenie, 1992. 672 s.
Sokolov E.YA., Zinger I.M. Struynye apparaty. 3-e izd. pererab. M.: Energoatomizdat, 1989. 352 s.
Innovation Process. Stage-Gate Idea-to-launch Model. Standart po sisteme Stage-Gate. http://stage-gate.com.
Spravka po SimInTech. http://simintech.ru.
Dubovkin N.F., Malanicheva V.G., Massur YU.P., Fedorov E.P. Fiziko-khimicheskie i ekspluatatsionnye svoystva reaktivnykh topliv: spravochnik. M.: KHimiya, 1985. 240 s.
Vargaftik N.B. Spravochnik po teplofizicheskim svoystvam gazov i zhidkostey. 2-e izd. M.: Nauka, 1972. 721 s.
Bretshnayder S. Svoystva gazov i zhidkostey. Inzhenernye metody rascheta/ per. s pol skogo / pod red. P.G. Romankova. - L.: KHimiya, Leningr. otd., 1966. 536 s.
Kartashov B.A., SHabaev E.A., Kozlov O.S., SHCHekaturov A.M. Sreda dinamicheskogo modelirovaniya tekhnicheskikh sistem SimInTech. M.: DMK Press, 2017. 424 s.
Idel chik I.E. Spravochnik po gidravlicheskim soprotivleniyam. 3-e izd. / pod red. M.O. SHteynberga. M.: Mashinostroenie, 1992. 672 s.
Sokolov E.YA., Zinger I.M. Struynye apparaty. 3-e izd. pererab. M.: Energoatomizdat, 1989. 352 s.
Keywords:
a mathematical model, the system is neutral gas, promising plane.
Related Articles
2. ECONOMICS AND MANAGEMENT OF ENTERPRISES, INDUSTRIES, COMPLEXES; ENTREPRENEURSHIP Pages: 15-19 Issue №8134
MATHEMATICAL MODEL OF ORGANIZATION COMPETITIVENESS EVALUATION GIVEN COMPETITIVE ADVANTAGES BASED ON A NETWORK OF COMPETENCE CENTRES
the competitiveness of the organization
the competence center
a mathematical model
innovative technologies
Show more
5. INFORMATION TECHNOLOGY AND AUTOMATION SYSTEMS Pages: 74-78 Issue №5869
Simulation experimental research on the magnitude of metal removal from regimes waterjet processing using information technologies
simulation
water jet cutting
statistical analysis
object-oriented programming
abrasive
Show more
4. FORUM OF PROJECTS OF YOUNG SCIENTISTS AND TEACHERS OF IT-TECHNOLOGY. 'TERRITORY OF MEANINGS ON KLYAZMA', JUNE 27 - AUGUST 28, 2016 Pages: 55-61 Issue №5121
THE DEVELOPMENT OF AUTOMATED HARDWARE AND SOFTWARE SYSTEM FOR INTELLECTUAL SUPPORT, AND THE OPTIMUM HYDROABRASIVE MACHINES WITH CNC
simulation
water jet cutting
statistical analysis
object-oriented programming
abrasive
Show more
11. ECONOMICS AND NATIONAL ECONOMY MANAGEMENT, ENTREPRENEURSHIP, MARKETING, MANAGEMENT Pages: 125-128 Issue №4641
The managing model of volume of the products manufactured by an enterprise when changing sales price
a mathematical model
production management
pricing
optimization
break-even
Show more
15. INNOVATION AND INVESTMENT MANAGEMENT Pages: 231-235 Issue №2490
Technique of selection of innovative projects to increase competitiveness of space-rocket industry
RCP
space activities
innovation
the selection of technologies
the choice of priorities
Show more
5. ECONOMY AND MANAGEMENT OF HIGH-TECH PRODUCTIONS Pages: 240-242 Issue №8496
OPTIMIZATION OF INNOVATIVE PROJECTS IN HIGH-TECH INDUSTRIES
optimization
competence
a mathematical model
innovative processes
Show more