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All articles by "Pelevin F.V."
Two-circuit recupertive heat exchanger with interchannel motion of the coolant in metallic mesh
| Authors: Pelevin F.V., Ponomarev A.V., Lokhanov I.V. | Published: 28.08.2022 |
| Published in issue: #9(750)/2022 | |
| Category: Aviation, Rocket and Technology | Chapter: Aerodynamics and Heat Transfer Processes in Aircraft | |
| Keywords: interchannel coolant movement, metal mesh material, heat exchange surface ideality |
Hydraulic Resistance of Porous Metals
| Authors: Pelevin F.V. | Published: 11.02.2016 |
| Published in issue: #2(671)/2016 | |
| Category: Technology and Process Machines | |
| Keywords: porous mesh metal, hydraulic resistance, one- and two-dimensional intermesh coolant filtration, anisotropy |
Research of the Capillary Phase Separator for Fuel Tanks of Liquid Propellant Rocket Engines at Evaporation of Cryogenic Components
| Authors: Avraamov H.I., Pelevin F.V., Sapozhnikov V.B., Sintsov A.L. | Published: 29.10.2015 |
| Published in issue: #10(667)/2015 | |
| Category: Aviation, Rocket and Technology | |
| Keywords: liquid propellant rocket engine, multiple launch, inter-tank device, capillary phase separator |
Recuperative heat-exchange apparatus with porous metal for a liquid-propellant rocket engine
| Authors: Pelevin F.V., Ponomarev A.V., Semenov P.Y. | Published: 16.06.2015 |
| Published in issue: #6(663)/2015 | |
| Category: Aviation, Rocket and Technology | |
| Keywords: recuperative heat-exchange apparatus, porous mesh metal, inter-channel coolant transpiration, heat-exchange efficiency |
Noname
| Authors: Lozovetsky V.V., Pelevin F.V., Ponomarev A.V. | Published: 29.08.2014 |
| Published in issue: #7(574)/2006 | |
| Category: Transportation and Power Engineering | |
| Keywords: |
On the application of porous metals in regenerative cooling systems of liquid propellant engines
| Authors: Pelevin F.V., Ponomarev A.V., Semenov P.Y. | Published: 07.05.2014 |
| Published in issue: #5(650)/2014 | |
| Category: Calculation and Design of Machinery | |
| Keywords: regenerative cooling system, porous metal, inter-channel coolant transpiration, heat transfer intensification, hydraulic losses, heat transfer efficiency. |