GAS-DYNAMIC PATH OF LINEAR MHD-GENERATOR Russian patent published in 1994 - IPC

Abstract SU 1308140 A1

FIELD: magnetohydrodynamic power conversion. SUBSTANCE: output of fuel combustion zone 2 of combustion chamber 1 is connected with input of channel 4 of MHD-generator. Diameter of input section of MHD-generator id equal to diameter of cylindrical part of combustion zone 2 of combustion chamber. Section of ionizing zone of additive 3 is coincided with input section 5 of channel of MHD-generator. EFFECT: improved efficiency; reduced weight-dimensions factors of gas-dynamic path. 1 dwg

Similar patents SU1308140A1

Title	Year	Author	Number
MAGNETOHYDRODYNAMIC GENERATOR	2016	Kernozhitskij Vladimir Andreevich Kolychev Aleksej Vasilevich Mezikov Arkadij Konstantinovich	RU2650887C2
COMPOSITE RAMJET ENGINE	1993	Kirilkin V.S. Leshukov V.S. Ushakov V.M. Frajshtadt V.L. Shejkin E.G.	RU2076829C1
COMBINED ENERGY CONVERSION METHOD	1990	Kovbasjuk V.I.	SU1752163A3
METHOD FOR PRODUCING ELECTRICAL ENERGY ON BOARD AIRCRAFT BY MEANS OF MAGNETOHYDRODYNAMIC ENERGY GENERATOR	2001	Slavin V.S. Finnikov K.A. Bitjurin V.A. Danilov V.V.	RU2198461C2
HYBRID AIR-JET MAGNETOGASDYNAMIC ENGINE	1998	Korolev A.G. Aksentij Ju.V.	RU2138668C1
MAGNETODYNAMIC GENERATOR WITH SOLAR DRIVE	2010	Dolgikh Evgenij Kurtovich	RU2453026C1
DYNAMIC SUPPORT CRAFT	2001	Artamonov A.S.	RU2205119C2
METHOD OF MAGNETOHYDRODYNAMIC CONVERSION OF THERMAL ENERGY INTO ELECTRICAL ENERGY OF A CLOSED CYCLE AND VARIANTS OF DEVICES FOR ITS IMPLEMENTATION	2022	Mavrichev Roman Sergeevich	RU2806344C1
BINARY MAGNITOHYDRODYNAMIC OUTDOOR POWER STATION	1992	Bitjurin V.A. Zatelepin V.N.	RU2031527C1
CLOSED-CYCLE MAGNETOHYDRODYNAMIC METHOD FOR CONVERTING HEAT ENERGY INTO ELECTRICITY	2002	Slavin V.S. Finnikov K.A. Milovidova T.A.	RU2226737C2

SU 1 308 140 A1

Authors

Burakhanov B.M.

Dates

1994-04-15—Published

1985-05-22—Filed