[ RadSafe ] [RadSafe]Mission to Mars---Fission Propulsion

John R Johnson idias at interchange.ubc.ca
Tue Sep 30 13:02:28 CDT 2008


Rainer

"Soft" (low energy?) photons are not necessarily "negligible". They are 
negligible only if the effective dose to people is small.

Cheers

John
***************
John R Johnson, PhD
CEO, IDIAS, Inc.
4535 West 9th Ave
604-676-3556
Vancouver, B. C.
V6R 2E2, Canada
idias at interchange.ubc.ca


----- Original Message ----- 
From: <Rainer.Facius at dlr.de>
To: <radsafe at radlab.nl>
Sent: Tuesday, September 30, 2008 10:02 AM
Subject: [ RadSafe ] [RadSafe]Mission to Mars---Fission Propulsion


Mike,

to my knowledge Bremsstrahlung intensities from charged particles other than 
electrons are negligible. Hence only during passages through the (mainly 
outer) radiation belts, Bremsstrahlung photons contribute to space radiation 
doses. While operating, nuclear propulsion engines of course are intense 
sources of gamma rays and neutrons. After engine shutdown, decay of fission 
products by predominantly beta decay will be the source for rather soft and 
hence negligible Bremsstrahlung photons. Fission product decay ceases quite 
rapidly.

So, for all space flight mission scenarios other than geostationary orbits 
(and of course in the vicinity of Jupiter :-), Bremsstrahlung contributes 
only negligibly to space radiation exposures.

Regards, Rainer


Dr. Rainer Facius
German Aerospace Center
Institute of Aerospace Medicine
Linder Hoehe
51147 Koeln
GERMANY
Voice: +49 2203 601 3147 or 3150
FAX:   +49 2203 61970

-----Ursprüngliche Nachricht-----
Von: radsafe-bounces at radlab.nl [mailto:radsafe-bounces at radlab.nl] Im Auftrag 
von Brennan, Mike (DOH)
Gesendet: Dienstag, 30. September 2008 18:05
An: radsafe at radlab.nl
Betreff: RE: [ RadSafe ] [RadSafe]Mission to Mars---Fission Propulsion

I suspect that the key to using nuclear propulsion in space is getting in 
and out of our gravity well.  Most of the schemes for using reactors to 
accelerate reaction mass can not achieve the acceleration needed to go from 
Earth's surface to orbit.  Even if a nuclear rocket could develop that kind 
of acceleration, I foresee non-trivial political obstacles to such a launch. 
I am also a fan of having the spacecraft for the trip be rather larger than 
it would be practical to launch as a single package.

I believe that a necessary first step for a manned mission to Mars is 
development of a way to put packages in orbit for tens or hundreds of 
dollars per kilo, rather than thousands or tens of thousands of dollars per 
kilo.  It would be nice if it could be done without high accelerations, too. 
Of the systems I've seen proposed (and as a science fiction fan, I've seen a 
fair few), the Space Elevator concept looks the best.  Although some very 
interesting work has been done, and I think it has potential for actually 
coming to pass, I decline to hold my breath until it happens.

Rather than focusing on sending people to Mars, I think we should send 
progressively more sophisticated robots, all the way up to robots build some 
of the infrastructure that will be needed for an extended stay by people.

As for the radiation issue during the trip; I read an interesting article 
that contended a big source of radiation would be Bremsstrahlung radiation 
from the interaction of high energy particles and the metal ship around the 
crew.  The proposed fix was to use a very large inflated spaceship for the 
voyage, with small landers for the trips to and from the surface of Mars. 
Selling the "balloons in Space" concept may take some work, however.

-----Original Message-----
From: radsafe-bounces at radlab.nl [mailto:radsafe-bounces at radlab.nl] On Behalf 
Of Rainer.Facius at dlr.de
Sent: Tuesday, September 30, 2008 5:58 AM
To: JPreisig at aol.com; radsafe at radlab.nl
Subject: AW: [ RadSafe ] [RadSafe]Mission to Mars---Fission Propulsion

Joe,

as long as human astronauts (instead of chimpanzees) are manning the 
spacecraft, mission duration is the NUMBER ONE factor driving the risks to 
their health and hence the (counter-) measures to be taken to ensure a safe 
and healthy return.

The probabilities of encountering life-threatening medical conditions 
(physiological and psychological) or critical technical equipment failures 
are roughly proportional to mission duration. The risk of acute early 
radiation effects (and secondary risks from associated performance 
decrements) due to unforeseen large solar energetic particle events adds to 
these risks for untoward mission outcomes and is again roughly proportional 
to mission duration (solar activity held constant). The risk for late 
radiogenic cancer from (chronic) exposure to galactic cosmic radiation again 
is proportional to mission duration. For reference missions to Mars of about 
1000 d duration during phases of minimum solar activity (such as now), 
galactic cosmic ray exposures behind conventional mass shielding can 
accumulate to 1 Sv.

So, dollars spent into attempts to reduce mission duration are by far the 
most cost effective in reducing the health risks of Mars travelling 
astronauts.

Fundamental physical/technical constraints limit the specific impulse 
achievable by chemical propulsion to somewhere between 400 to 500 seconds. 
With solid nuclear power propulsion, specific impulses between 500 and 1000 
s are achievable whereas with a gas core nuclear rocket specific impulses 
between 1000 and 6000 s can be obtained, thereby reducing mission durations 
by the respective factors. The technologies for solid nuclear power 
propulsion - and hence for a reduction of mission duration by a factor of 
two - are at hand but certainly not the limit. Los Alamos has spent quite 
some efforts for advancing the gas core nuclear rocket technology - at least 
theoretically - and reductions of mission durations by factors up to 10 are 
conceivable thereby.

My personal prognosis is: If manned missions to Mars will occur, they will 
use nuclear propulsion. Given that man's strive to extend his limits 
historically has only been limited by the laws of nature, my guess is that 
manned missions to Mars will take place. Whether this will generate sizeable 
job opportunities for health physicists remains to be seen.

Regarding fusion propulsion, the experience of my lifetime with 
announcements of fusion energy as lurking just around the corner of the next 
decade makes me sceptical when or even whether we will see it working. Five 
to six decades of such announcements have worn out my 'faith' into this 
energy option

Thank you for your stimulating note - and good luck at your work.

Kind regards, Rainer (going back to work :-)

PS: At http://www-pub.iaea.org/MTCD/publications/PDF/Pub1197_web.pdf you can 
download the IAEA publication STI/PUB/1197 (2005), The Role of Nuclear Power 
and Nuclear Propulsion in the Peaceful Exploration of Space. Note, in some 
instances they have specific impulses too large by a factor of ten.
Dr. Rainer Facius
German Aerospace Center
Institute of Aerospace Medicine
Linder Hoehe
51147 Koeln
GERMANY
Voice: +49 2203 601 3147 or 3150
FAX:   +49 2203 61970

-----Ursprüngliche Nachricht-----
Von: radsafe-bounces at radlab.nl [mailto:radsafe-bounces at radlab.nl] Im Auftrag 
von JPreisig at aol.com
Gesendet: Montag, 29. September 2008 23:17
An: radsafe at radlab.nl
Betreff: [ RadSafe ] [RadSafe]Mission to Mars---Fission Propulsion

Dear Radsafe:

     This is from:    jpreisig at aol.com    .


     Hello Again Radsafers:

     Hope you all are well today and don't require a US Federal Bailout....

          I've been thinking about space travel to Mars again using fission
     propulsion.  I refer you to several articles by Freeman Dyson in the 
beta
     volume of the book "Adventures in Experimental Physics" --- Bogdan
     Maglich, editor.  I hope you can find it in your library.  In one of 
the articles
     Dyson indicates that one can use fission propulsion (without resorting 
to
     bomb propelled rockets> to achieve exhaust velocities that are twice as
     large as the velocities that can be reached via chemical propulsion.
>From this,
     I infer that a readily achieveable fission propelled rocket can 
ultimately be
     designed which can go twice as fast as chemically propelled rockets (at
     least>.  This would reduce the round trip time to Mars from 3 years to
     about 1.5 years.  This is helpful if one is living in a spaceship for 
such a
     long time.  Further additional techniques used to reduce the total 
travel
     time to Mars would also be desirable.


          So, considering use of Uranium to power such a trip, how could 
such
     trip be safely made?  For takeoff, the fission reactor propelling the 
rocket
     (or whatever> would largely contain Uranium (and not so much Cesium
     or Strontium which are produced via fission>.  So, let's assume a safe
     launch can be made.

          The rocket and astronauts (hopefully not Chimpanzees???!!!> would
     fly to Mars, land on the planet's surface, and do whatever science and 
other
     tasks which need to be done.  If necessary, a chemically propelled
     lunar/Mars type lander could be used to get to Mars surface from the
     original rocket or Mother ship.  Upon completion of their time on Mars,
     the astronauts would direct their spaceship towards Earth, to return to 
home.

           However, instead of returning directly to Earth, the spaceship 
would
     land on the Moon, not using a lunar/Mars type lander.  The spaceship 
would
     land directly on the Moon's surface, not to return to Earth anytime 
soon.
     The spaceship would be left on the Lunar surface, complete with its
     reactor intact.  There's not much weather or wind storms on the Moon, 
so the
     spaceship could stay there a long time without dispersal of any fission
     products or the original Uranium fuel.

          So, this leaves the astronauts on the Moon with the scientific 
samples,
     stored data on computers, etc.  What happens next???  A second
     chemically propelled rocket is sent to the Moon,  and using a Lunar 
lander
     the astronauts are picked up and return to Earth in the second 
spacecraft.
     Mission accomplished.  I didn't say the space mission would be 
inexpensive.

          In 200 years (a fair number of half-lives) the original fission 
reactor
     could be picked up from the lunar surface and returned to Earth for
     processing and/or storage.

          If we ever perfect a fusion propelled rocket system, much of the 
preceding
     described effort becomes unneccessary.

          Just something to think about.  I think such a fission propelled 
rocket
     system could be built in the relatively near future.  Oh my, jobs for
     Health Physicists and/or Nuclear Engineers in space.

         The airplanes/jets which takeoff vertically are called Harriers.

         Another few years of relatively few (named> hurricanes and/or
         tropical storms like 2008 (so far> and I'll have to say that the 
global
         warming hypothesis is fizziling out.

         Now, get back to work????

         I hope you have a wonderful week.


         Regards,   Joseph R. (Joe> Preisig, Ph.D.




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