TJ A/C Issues
#101
Guest
Posts: n/a
Re: Re: Re: Re: Re: Re: TJ A/C Issues
On Wed, 20 Jun 2007 21:00:37 -0500, Richard J Kinch
<kinch@truetex.com> wrote:
>The issue is not vapor pressure vs surface tension, but the energy needed
>to break hydration bonds.
Which is provided by heating it to 250 degress or so.
-----------------
TheSnoMan.com
<kinch@truetex.com> wrote:
>The issue is not vapor pressure vs surface tension, but the energy needed
>to break hydration bonds.
Which is provided by heating it to 250 degress or so.
-----------------
TheSnoMan.com
#102
Guest
Posts: n/a
Re: Re: Re: Re: Re: Re: TJ A/C Issues
SnoMan writes:
>>The issue is not vapor pressure vs surface tension, but the energy
>>needed to break hydration bonds.
>
> Which is provided by heating it to 250 degress or so.
Depends on the compound that is hydrated. Most all of them require far
higher temperatures to decompose into anhydrous forms from hydrated.
>>The issue is not vapor pressure vs surface tension, but the energy
>>needed to break hydration bonds.
>
> Which is provided by heating it to 250 degress or so.
Depends on the compound that is hydrated. Most all of them require far
higher temperatures to decompose into anhydrous forms from hydrated.
#103
Guest
Posts: n/a
Re: Re: Re: Re: Re: Re: TJ A/C Issues
SnoMan writes:
>>The issue is not vapor pressure vs surface tension, but the energy
>>needed to break hydration bonds.
>
> Which is provided by heating it to 250 degress or so.
Depends on the compound that is hydrated. Most all of them require far
higher temperatures to decompose into anhydrous forms from hydrated.
>>The issue is not vapor pressure vs surface tension, but the energy
>>needed to break hydration bonds.
>
> Which is provided by heating it to 250 degress or so.
Depends on the compound that is hydrated. Most all of them require far
higher temperatures to decompose into anhydrous forms from hydrated.
#104
Guest
Posts: n/a
Re: Re: Re: Re: Re: Re: TJ A/C Issues
SnoMan writes:
>>The issue is not vapor pressure vs surface tension, but the energy
>>needed to break hydration bonds.
>
> Which is provided by heating it to 250 degress or so.
Depends on the compound that is hydrated. Most all of them require far
higher temperatures to decompose into anhydrous forms from hydrated.
>>The issue is not vapor pressure vs surface tension, but the energy
>>needed to break hydration bonds.
>
> Which is provided by heating it to 250 degress or so.
Depends on the compound that is hydrated. Most all of them require far
higher temperatures to decompose into anhydrous forms from hydrated.
#105
Guest
Posts: n/a
Re: Re: Re: Re: Re: Re: TJ A/C Issues
SnoMan writes:
>>The issue is not vapor pressure vs surface tension, but the energy
>>needed to break hydration bonds.
>
> Which is provided by heating it to 250 degress or so.
Depends on the compound that is hydrated. Most all of them require far
higher temperatures to decompose into anhydrous forms from hydrated.
>>The issue is not vapor pressure vs surface tension, but the energy
>>needed to break hydration bonds.
>
> Which is provided by heating it to 250 degress or so.
Depends on the compound that is hydrated. Most all of them require far
higher temperatures to decompose into anhydrous forms from hydrated.
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