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to the entrance of <lb/> | to the entrance of <lb/> | ||
the Conservatory.</p> | the Conservatory.</p> | ||
<p><add>For</add> The Receivers for <lb/> | <p><add>For</add> The Receivers for <lb/> | ||
| Line 20: | Line 20: | ||
and the Musical <lb/> | and the Musical <lb/> | ||
Glasses, which are <lb/> | Glasses, which are <lb/> | ||
made in <hi rend="underline"><gap/> | made in <hi rend="underline"><gap/>sts</hi>,<lb/> | ||
and probably with <lb/> | and probably with <lb/> | ||
great accuracy as to <lb/> | great accuracy as to <lb/> | ||
the forms & sizes.</p> | the forms & sizes.</p> | ||
<p>Per S.B Currants <lb/> | <p>Per S.B Currants <lb/> | ||
are kept in Russia<lb/> | are kept in Russia<lb/> | ||
| Line 40: | Line 40: | ||
sudden changes of temperature.</p> | sudden changes of temperature.</p> | ||
<p>(No 3 in this Machine <lb/> | <p>(No 3 in this Machine <lb/> | ||
shall be as great as of <lb/> | shall be as great as of <lb/> | ||
No 5 in Machine I</p> | |||
<p>Or rather double the <lb/> | <p>Or rather double the <lb/> | ||
thickness of the <hi rend="underline"> | thickness of the <hi rend="underline">temperature</hi> -fence only <lb/> | ||
the thickness of the <lb/> | the thickness of the <lb/> | ||
Ice remaining the <lb/> | Ice remaining the <lb/> | ||
same as in Mach II.</p> | same as in Mach II.</p><pb/> | ||
<p>The Hot Conservatory <lb/> | |||
business would <lb/> | |||
in most instances <lb/> | |||
be best managed <lb/> | |||
by a Balnaeum - <lb/> | |||
The temperature <lb/> | |||
might in this way <lb/> | |||
be more <del>easily re-</del><lb/> | |||
exactly and speedily <lb/> | |||
indicated, and thence <lb/> | |||
as well as <del>in</del> other <lb/> | |||
<del>instruments</del> more <lb/> | |||
exactly regulated.</p> | |||
<p>By means of <lb/> | |||
a common Stock<lb/> | |||
Reservoir of water <lb/> | |||
kept constantly boiling, <lb/> | |||
any number <lb/> | |||
of vessels might <lb/> | |||
be kept near one <lb/> | |||
another in <add>so many</add> different <lb/> | |||
degrees of temperature.</p> | |||
<p> | |||
So likewise the<lb/> | |||
Cold Conservatory. <lb/> | |||
The temperature <lb/> | |||
of water being much <lb/> | |||
<hi rend="underline">steadier</hi> much less <lb/> | |||
<del>speed</del> liable to sudden <lb/> | |||
variation than <lb/> | |||
that of air - See <lb/> | |||
<unclear>Kirwan</unclear>. 30-38.</p> | |||
<head>Lake of Geneva</head><lb/> | |||
<p>Observation by Saussure</p> <p>{Air-----81<hi rend="superscript">0</hi></p> | |||
<p>{Water at the Surface 62</p> | |||
<p>{Water at 87 foot depth 55</p> | |||
<p>By Rayment at Marseilles <add>eg July 1765</add></p> | |||
<p>Sea next the land 74</p> | |||
<p>Middle of the Bay 72</p> | |||
<p>Entrance</p> | |||
<p>Kirw. 34.</p><pb/> | |||
<p>Marseilles in Winter <lb/> | |||
<hi rend="underline">Sea</hi> never lower than 44<hi rend="superscript">o</hi>}<lb/> | |||
<hi rend="underline">Earth</hi> in <unclear>towns</unclear> 14<hi rend="superscript">o</hi>}<lb/> | |||
Kirw.35.</p> | |||
<p>The water in the <lb/> | |||
Balneum (Cold) should <lb/> | |||
be capable of being <lb/> | |||
agitated, to keep the <lb/> | |||
temperature steady, <lb/> | |||
by mixing the parts <lb/> | |||
changed with the parts <lb/> | |||
unchanged:</p> | |||
<p>The difference in <lb/> | |||
gravity between warm <lb/> | |||
& cold water makes <lb/> | |||
a gradual mixture, <lb/> | |||
but a storm expedites <lb/> | |||
it. Kirw. 35.</p> | |||
<p>In the Paris Observatory <lb/> | |||
at (90 feet below the pavem<hi rend="superscript">t</hi>,) <lb/> | |||
the temperature <lb/> | |||
is at 53<hi rend="superscript">o</hi>,5</p> | |||
<p>Varies in the coldest} <lb/> | |||
years no more than } 15. <lb/> | |||
1/2 a degree ---} <lb/> | |||
Kirw.32.</p> | |||
<p>Temperature of <lb/> | |||
Water steadier than <lb/> | |||
that of earth Kirw.30,<lb/> | |||
35.</p> | |||
<p>- <del>an</del> of earth steadier <lb/> | |||
than that of air. ib.30</p> | |||
—<lb/> | |||
<p>Cavern near Reutling <lb/> | |||
in Suabia</p> | |||
<p>External Air. 66</p> | |||
<p>Air of the Cavern 48</p> | |||
<p>Water in the Cavern 42 <lb/> | |||
Kirw.33.</p><pb/> | |||
<head>Temperature</head><lb/> | |||
<head>Tepidarium</head><lb/> | |||
<p>For elevation, a <lb/> | |||
lamp constantly <lb/> | |||
burning:</p> | |||
<p>For depression, a <lb/> | |||
body of mercury <lb/> | |||
in the thermometer <lb/> | |||
principle, so ordered<lb/> | |||
as that when the <lb/> | |||
heat is above the <lb/> | |||
degree required, the <lb/> | |||
expansion of the <lb/> | |||
mercury shall by <lb/> | |||
its weight open a <lb/> | |||
door that shall admitt <lb/> | |||
cold water, <lb/> | |||
which by the <add>re-</add> contraction <lb/> | |||
of the mercury,<lb/> | |||
will <del>bring</del><lb/> | |||
shut the door again,</p> | |||
<p>One way of doing <lb/> | |||
this might be by <lb/> | |||
a Ball Cock, floating <lb/> | |||
in Mercury, <lb/> | |||
or Quere in Water?)</p> | |||
<p>Might it not <lb/> | |||
bear against a <lb/> | |||
Spring?</p> | |||
<p>A cork, with a <lb/> | |||
rod through it <note>{Sketched diagram}</note><lb/> | |||
to float in the <lb/> | |||
mercury: the <lb/> | |||
mercury rising <lb/> | |||
pushes open <lb/> | |||
a valve, of <lb/> | |||
some weight, <lb/> | |||
but as little <lb/> | |||
friction as possible, <lb/> | |||
and closing <lb/> | |||
air-tight.</p><pb/> | |||
<p> | |||
One use of the <lb/> | |||
Tepidarium, proving <lb/> | |||
the preservability <lb/> | |||
of fresh meat &c <lb/> | |||
<hi rend="underline">proposed</hi>.</p><lb/> | |||
<p>In the operation of <lb/> | |||
pressing, employ <lb/> | |||
a barrel supported <lb/> | |||
against the <lb/> | |||
pressure by a <lb/> | |||
mould of cast <lb/> | |||
iron-</p> | |||
<p>Bramah's engine <lb/> | |||
the instrument for<lb/> | |||
applying the pressure</p> | |||
<!-- Joseph Bramah (1748-1814) was the inventor of a hydraulic press and is considered to be and important figure in the development of hydraulic engineering. --> | |||
<p>Tepidarium for <lb/> | |||
<sic>mellting</sic> and drawing <lb/> | |||
off <hi rend="underline">Tallow</hi><lb/> | |||
(before it has stood <lb/> | |||
long enough to putrefy <lb/> | |||
by a regulation <lb/> | |||
temperature.</p> | |||
<p>Frigidarium , for <lb/> | |||
keeping it when <lb/> | |||
melted.</p> | |||
<p>Keep Tallow thus <lb/> | |||
in different temperatures, <lb/> | |||
<add>in &</add>under <lb/> | |||
water, in which <lb/> | |||
case (according <lb/> | |||
to <unclear>Haran's</unclear> lecture <lb/> | |||
on Anatomical preparation) <lb/> | |||
in the <lb/> | |||
course of the year <lb/> | |||
it undergoes a <lb/> | |||
great change</p> | |||
<p>Probably by combining <lb/> | |||
with the oxygen <lb/> | |||
of the Water <lb/> | |||
in which case what <lb/> | |||
becomes of the Hydrogene?</p><pb/> | |||
<!-- DO NOT EDIT BELOW THIS LINE --> | <!-- DO NOT EDIT BELOW THIS LINE --> | ||
{{Metadata:{{PAGENAME}}}} | {{Metadata:{{PAGENAME}}}}{{Completed}} | ||
No 5
Detach a Barrel,
it will float, &
may thus be dropped
on a sloping stage
to the entrance of
the Conservatory.
For The Receivers for
the temperature preserving
Machines
apply to the Glassmen
who make the
Confectioners Glasses,
and the Musical
Glasses, which are
made in sts,
and probably with
great accuracy as to
the forms & sizes.
Per S.B Currants
are kept in Russia
in Water - The
Water serves at any
rate to exclude the
Air, and the temperature,
it must be
supposed, is low enough
to be a bar to
fermentation.
The Water serves
as a bar to great &
sudden changes of temperature.
(No 3 in this Machine
shall be as great as of
No 5 in Machine I
Or rather double the
thickness of the temperature -fence only
the thickness of the
Ice remaining the
same as in Mach II.
---page break---
The Hot Conservatory
business would
in most instances
be best managed
by a Balnaeum -
The temperature
might in this way
be more easily re-
exactly and speedily
indicated, and thence
as well as in other
instruments more
exactly regulated.
By means of
a common Stock
Reservoir of water
kept constantly boiling,
any number
of vessels might
be kept near one
another in so many different
degrees of temperature.
So likewise the
Cold Conservatory.
The temperature
of water being much
steadier much less
speed liable to sudden
variation than
that of air - See
Kirwan. 30-38.
Lake of Geneva
Observation by Saussure
{Air-----810
{Water at the Surface 62
{Water at 87 foot depth 55
By Rayment at Marseilles eg July 1765
Sea next the land 74
Middle of the Bay 72
Entrance
Kirw. 34.
---page break---
Marseilles in Winter
Sea never lower than 44o}
Earth in towns 14o}
Kirw.35.
The water in the
Balneum (Cold) should
be capable of being
agitated, to keep the
temperature steady,
by mixing the parts
changed with the parts
unchanged:
The difference in
gravity between warm
& cold water makes
a gradual mixture,
but a storm expedites
it. Kirw. 35.
In the Paris Observatory
at (90 feet below the pavemt,)
the temperature
is at 53o,5
Varies in the coldest}
years no more than } 15.
1/2 a degree ---}
Kirw.32.
Temperature of
Water steadier than
that of earth Kirw.30,
35.
- an of earth steadier
than that of air. ib.30
—
Cavern near Reutling
in Suabia
External Air. 66
Air of the Cavern 48
Water in the Cavern 42
Kirw.33.
---page break---
Temperature
Tepidarium
For elevation, a
lamp constantly
burning:
For depression, a
body of mercury
in the thermometer
principle, so ordered
as that when the
heat is above the
degree required, the
expansion of the
mercury shall by
its weight open a
door that shall admitt
cold water,
which by the re- contraction
of the mercury,
will bring
shut the door again,
One way of doing
this might be by
a Ball Cock, floating
in Mercury,
or Quere in Water?)
Might it not
bear against a
Spring?
A cork, with a
rod through it {Sketched diagram}
to float in the
mercury: the
mercury rising
pushes open
a valve, of
some weight,
but as little
friction as possible,
and closing
air-tight.
---page break---
One use of the
Tepidarium, proving
the preservability
of fresh meat &c
proposed.
In the operation of
pressing, employ
a barrel supported
against the
pressure by a
mould of cast
iron-
Bramah's engine
the instrument for
applying the pressure
Tepidarium for
mellting and drawing
off Tallow
(before it has stood
long enough to putrefy
by a regulation
temperature.
Frigidarium , for
keeping it when
melted.
Keep Tallow thus
in different temperatures,
in &under
water, in which
case (according
to Haran's lecture
on Anatomical preparation)
in the
course of the year
it undergoes a
great change
Probably by combining
with the oxygen
of the Water
in which case what
becomes of the Hydrogene?
---page break---
|
Identifier: | JB/106/039/003"JB/" can not be assigned to a declared number type with value 106. |
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|---|---|---|---|
|
1798-09-24 |
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|
106 |
frigidarium |
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|
039 |
preservation by temperature cold conservation no 5 tepidarium |
||
|
003 |
|||
|
plan |
2 |
||
|
recto |
|||
|
jeremy bentham |
i taylor |
||
|
evan nepean |
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|
includes a pinned-on column |
34627 |
||
