Bill,
That's part of why I'm more focused on lunar orbit depots and smaller LEO
depots that enable dedicated smallsat launch to beyond-LEO destinations.
Shelby's going to be retiring soon enough, no use poking him in the eye
about depots when you can get NASA funding for depots so long as you're
strategic about it.
~Jon
On Fri, Aug 23, 2019 at 9:11 AM William Claybaugh <wclaybaugh2@xxxxxxxxx>
wrote:
Rand:
In part, yes. Framing a depot as a way to kill SLS does assure no depot
funding will get through the Senate.
Bill
On Fri, Aug 23, 2019 at 9:04 AM Rand Simberg <simberg@xxxxxxxxxxxxxxx>
wrote:
Bill, we could deploy and fill a depot of the same capacity as that an
SLS would deliver for a small fraction of the cost of a single SLS
launch. It's not about what OMB knows; it's about what Dick Shelby will
fund.
On 2019-08-23 07:55, William Claybaugh wrote:
Sorry, but it is entirely about the cost of propellant at the depot.
OMB is unlikely to endorse any scheme that makes space travel more
expensive rather than less and a depot makes propellant more expensive
not less.
Using tankers to refuel reusable assets is—obviously—much less
costly than building a depot; I assume that is why SpaceX has chosen
to go with tanking.
Bill
On Fri, Aug 23, 2019 at 8:16 AM Rand Simberg <simberg@xxxxxxxxxxxxxxx>
wrote:
It's not about the cost of propellant at the depot. It's about the
cost
of the SLS, which a depot renders unnecessary (and which will
require
multiple launches anyway). If you can refuel from one vehicle to
another, then perhaps one doesn't need a dedicated depot, but the
notion
that we should get anywhere with the launch of a single vehicle from
earth is a relic of Apollo. Even Starship is intended to be
refueled.
On 2019-08-23 06:06, William Claybaugh wrote:
Henry:propellant on
Propellant at a propellant depot costs the price of that
the ground plus the cost of launching it to LEO plus the pro-ratadepreciation
amortization of the cost of the depot plus the pro-rata
of the depot plus the cost of losses.are
Propellant in an upper stage costs the price of propellant on the
ground plus the cost of launching it to LEO.
Depots are not getting any traction because the key players—who
at OMB and the Space Council—know these facts.Days
Bill
On Thu, Aug 22, 2019 at 11:09 PM Henry Vanderbilt
<hvanderbilt@xxxxxxxxxxxxxx> wrote:
I think there does exist some scope to do significant things in
space over the next generation based on known-reaction chemical
rockets. Within the obvious practical chemical rocket limits:
yearsto the Moon, months to inner planets and asteroids (marginal),
governmentto anywhere else (prohibitive). And only if the current
rocketsspace morass can be bypassed, because they both foot-drag on the
obvious need for depots, routine reusability and eventually local
propellant sources, and they multiply already-high costs by a
prohibitive factor of ten-to-twenty.
But, that would still be just an initial industrial toehold
off-planet, with at best iffy long-term economic sustainability.
Yes, agreed, in the long run we must get past conventional
thatto something orders of magnitude more energetic.
Of course the common problem with higher-energy propulsion is
toogenerating and handling that higher energy without melting takes
takesmuch mass, resulting in what I am inclined to call "the mousefart
thrust problem." The power supply masses far too much so it
cheapertoo long to get up to speed. And intermediate cases, like nuke
thermal rockets, just don't gain enough Isp to make up for the
reactor mass. Yeah, you can get to Mars in four or five months -
but you can do that with chemical rockets also, given depots and
local propellant spent profligately - which would likely be
Whooverall than developing and fielding the thermal-rocket reactors.
NSWR is an interesting attempt to combine high energy and high
thrust-to-weight in an onboard nuclear powerplant. Practical?
asknows. I'll happily watch the tests - via video, from a LONG way
off.
I tend to think that the most promising near-term approaches to
usefully-better-than-chemrocks space transport involve offloading
power-beamingmuch of the high-energy machinery as possible to fixed
neutralstations at either end of high-traffic routes. That way you can
just throw mass at gaining the efficiencies needed so your power
generating and beaming machinery doesn't melt. The two power
transmission methods I currently like are laser array, and
muchparticle beam. Lasers you can convert to electricity then use in
electric thrusters, with useful fast-transport performance at
ship-end power-handling-to-mass ratios only (only!) a half
order-of-magnitude better than current SOTA. (It may also be
possible to use laser beams to directly energize reaction mass in
other-than-material containment, but that has a whole lot lower
TRL.)
Neutral particle beams I only last spring became aware of as an
option - I gather the ship needs to apply a charge to the
approaching beam, then magsail on it - others can no doubt shed
generationsmore light on the concept (so to speak).
My bottom line though is that self-contained ships that can zoom
around like the Millenium Falcon require several (human)
beam-poweredmore advanced low-mass power-handling than an external
sexy.transport net. Subway cars in space, if you will - far less
beBut we can build them a whole lot sooner, within this generation,
and we should, IMHO.
(RE your opening question, FWIW, I've never heard of any
NSWR-specific nuclear experiments. As you say, this isn't the
fifties, there is no known funded program, and I would think it'd
really hard to do a proof-of-concept on that on any likely
discretionary budget.)
Henry
On 8/22/2019 8:01 PM, anthony@xxxxxxxxxxx wrote:
Have any experiments been conducted using Zubrin’s nuclear
salt-water rocket (NSWR) concept to verify the design or has it
fallen into the ”anything that’s nuclear” black hole?
The cost to even get to the experimental stage wouldn’t be
trivial seeing this isn’t the 50s. I subscribe to the model
that if we are going to accomplish anything *really* significant
in space flight in the next generation, we have to get the known
chemical reaction approach monkey off our back. That’s just my
opinion. The Zubrin citation is only an example BTW.
I’d like to hear some thoughts about this.
Anthony J. Cesaroni
President/CEO
Cesaroni Technology/Cesaroni Aerospace
http://www.cesaronitech.com/ [1]
(941) 360-3100 x101 Sarasota
(905) 887-2370 x222 Toronto
Links:
------
[1] http://www.cesaronitech.com/
