Re: [Vo]:Seeing the Light

2015-03-09 Thread Bob Higgins
The LockTherm testing is certainly interesting, but it is not clear to me that it has any advantage over Parkhomov. I have seen no additional videos, nor have I heard that they achieved excess heat. An interesting phase of this whole Parkhomov/Rossi fuel is what is happening in the 700-1100ºC

Re: [Vo]:Seeing the Light

2015-03-09 Thread Bob Higgins
@eskimo.com *Subject:* EXTERNAL: Re: [Vo]:Seeing the Light The LockTherm testing is certainly interesting, but it is not clear to me that it has any advantage over Parkhomov. I have seen no additional videos, nor have I heard that they achieved excess heat. An interesting phase of this whole

Re: [Vo]:Seeing the Light

2015-03-09 Thread Roarty, Francis X
[mailto:rj.bob.higg...@gmail.com] Sent: Monday, March 09, 2015 12:34 PM To: vortex-l@eskimo.com Subject: EXTERNAL: Re: [Vo]:Seeing the Light The LockTherm testing is certainly interesting, but it is not clear to me that it has any advantage over Parkhomov. I have seen no additional videos, nor have I

RE: [Vo]:Seeing the Light

2015-03-09 Thread Jones Beene
From: Bob Higgins * * The LockTherm testing is certainly interesting, but it is not clear to me that it has any advantage over Parkhomov. Well, the one HUGE advantage is that they are able to seal the ceramic with a compression fitting and are therefore able to both relieve

Re: [Vo]:Seeing the Light

2015-03-09 Thread Bob Higgins
Yes, this is an advantage, and it is one that MFMP has already demonstrated. I guess I should have said that it has no clear advantage over MFMP. My experiments going forward should allow the pressure to be measured in the small Parkhomov-size volume, do the experiment in a non-boiling

Re: [Vo]:Seeing the Light

2015-03-09 Thread Axil Axil
Way don't you use a tungsten pipe. It holds hydrogen about a thousand time better than stainless steel and it would explode if it is thick enough. On Mon, Mar 9, 2015 at 2:03 PM, Bob Higgins rj.bob.higg...@gmail.com wrote: Yes, this is an advantage, and it is one that MFMP has already

Re: [Vo]:Seeing the Light

2015-03-09 Thread Eric Walker
On Mon, Mar 9, 2015 at 9:33 AM, Bob Higgins rj.bob.higg...@gmail.com wrote: At temps of 900-1000ºC, the LiH is reported to dissociate. However, high ambient H2 pressure may keep the LiH from dissociating until higher temperatures. I think the high temperature molten LiH + Al in contact with