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2 475 739

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C1

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IPC

G01N33/22(2006-01-01)

B64G7/00(2006-01-01)

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Application

2011127407/11, 2011-07-04

(24)

Start date

2011-07-04

(22)

Actual filing date

2011-07-04

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Published

2013-02-20

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Inventor

Trushljakov Valerij IvanovichKudentsov Vladimir Jur'EvichKazakov Aleksandr Jur'EvichKurochkin Andrej SergeevichLesnjak Ivan Jur'Evich

(73)

Holder

Rossijskaja Federatsija, Ot Imeni Kotoroj Vystupaet Ministerstvo Obrazovanija I Nauki Rossijskoj FederatsiiGosudarstvennoe Obrazovatel'Noe Uchrezhdenie Vysshego Professional'Nogo Obrazovanija Gosudarstvennyj Tekhnicheskij Universitet"

SIMULATION METHOD OF GASIFICATION PROCESS OF LIQUID ROCKET PROPELLANT RESIDUES, AND DEVICE FOR ITS IMPLEMENTATION Russian patent published in 2013 - IPC G01N33/22 B64G7/00 

Abstract RU 2475739 C1

FIELD: power industry.

SUBSTANCE: method is based on introduction of microparticles of porous ceramic elements to heat carrier (HC) flow. Simulation is performed by means of experimental plant (2) by introducing a gas jet with the specified parameters to it through inlet connection pipe (1). Perforated funnel (3) is installed into connection pipe (1). Model liquid is arranged in doses, for example in drops throughout the surface of the plant. Besides, HC flow with the specified parameters catches microparticles from surface of funnel (3). Microparticles are heated in hot HC flow to a certain temperature. When coming in contact with model liquid, they are crushed and intensify the evaporation process of that liquid (by transferring their heat to it). When leaving the plant through cyclone filter (4), the flow is cleaned from microparticles, supplied again to perforated funnel (3) via outlet connection pipe (5), and the process is repeated. Input and output values of temperature and pressure are measured during the whole experiment at different points of the experimental plant.

EFFECT: reduction of toxicity; increase in gasification velocity of liquid fuel component; simpler simulation means and provision of their usability both for scientific investigations, and for training purposes.

3 cl, 2 dwg

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RU 2 475 739 C1

Authors

Trushljakov Valerij Ivanovich

Kudentsov Vladimir Jur'Evich

Kazakov Aleksandr Jur'Evich

Kurochkin Andrej Sergeevich

Lesnjak Ivan Jur'Evich

Dates

2013-02-20Published

2011-07-04Filed

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