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#1 Bezos talks about the BE4 engine

Posted: Wed, 22 Mar 17, 12:39 pm
by Commander
Although the BE-4 turbopump is smaller than your refrigerator, it generates 70,000 horsepower from a turbine running at nearly 19,000 revolutions per minute that pumps cryogenic propellants to pressures just under 5,000 pounds per square inch. To react the forces generated by the rotating turbine and impellers inside the pump, production rocket turbopumps to date have used traditional ball and roller bearings. For BE-4, we’re doing something different – we’re using hydrostatic bearings.

A hydrostatic bearing relies on a fluid film supplied by a high-pressure source to provide support for the shaft and cause it to float without contacting the static structure except at startup and shutdown. The BE-4 main turbopump uses hydrostatic journal bearings for radial support and hydrostatic axial bearings to carry axial thrust. The system is bootstrapped. The high pressure fluid films for the bearings are supplied by the propellants themselves – liquefied natural gas and liquid oxygen – tapped off from the pump discharge flows.

Material selection is a critical consideration for this approach, as there is physical contact between the bearing surfaces during the start transient before the fluid film is fully established and during the shutdown transient as the fluid film dissipates. With lab-scale tests and full-scale bearing rig tests using actual pump hardware, we evaluated over 20 material combinations in over a hundred tests, leading to our baseline material and coating choices.

Extensive rotordynamic and computational fluid dynamics analyses have shown the feasibility of this design, and recent powerpack tests confirmed that this approach works during the startup and shutdown transients – the most critical phases. The shaft orbit plot below shows that the turbopump lifts off smoothly and centers during a typical start transient, demonstrating a smooth ride on a film of propellant.

Why do we go to all this trouble instead of just using traditional bearings? Engine life. We’re relentlessly focused on reusability, and properly designed hydrostatic bearings offer the potential for longer engine life without refurbishment. This is one of the many engineering decisions we’ve made that we hope will lead to reusability – not just in principle – but to practical, operational reusability. If “reusability” requires significant refurbishment, inspection, and re-validation between flights, then it simply won’t lead to the far lower launch costs we need to achieve our vision of millions of people living and working in space.

We’ll keep you up to date as our testing progresses in the coming weeks.

Gradatim Ferociter!

Jeff Bezos

#2 Re: Bezos talks about the BE4 engine

Posted: Wed, 22 Mar 17, 12:47 pm
by Commander
What I find interesting about this is that they are using the liquid fuel before using it as a propellant. This is akin to Von Braun and gang at Peenemunde using the propellant to cool the nozzle to prevent burn through. The propellant was thus warmed up and the nozzle protected all at once.

#3 Re: Bezos talks about the BE4 engine

Posted: Fri, 24 Mar 17, 03:35 am
by luke strawwalker
Yes, and they used the kerosene as the working fluid in the hydraulic cylinders that gimballed the engines on the Saturn V.

Later! OL J R :)