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		<title>11.5: Decomposition Reactions - Chemistry LibreTexts - Versionsgeschichte</title>
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		<id>http://wiki.pannier-schulungen.de/index.php?title=11.5:_Decomposition_Reactions_-_Chemistry_LibreTexts&amp;diff=15019&amp;oldid=prev</id>
		<title>JohnnySoukup4 am 5. Januar 2021 um 02:21 Uhr</title>
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				<updated>2021-01-05T02:21:38Z</updated>
		
		<summary type="html">&lt;p&gt;&lt;/p&gt;
&lt;table class=&quot;diff diff-contentalign-left&quot; data-mw=&quot;interface&quot;&gt;
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				&lt;td colspan='2' style=&quot;background-color: white; color:black; text-align: center;&quot;&gt;← Nächstältere Version&lt;/td&gt;
				&lt;td colspan='2' style=&quot;background-color: white; color:black; text-align: center;&quot;&gt;Version vom 5. Januar 2021, 02:21 Uhr&lt;/td&gt;
				&lt;/tr&gt;&lt;tr&gt;&lt;td colspan=&quot;2&quot; class=&quot;diff-lineno&quot; id=&quot;mw-diff-left-l1&quot; &gt;Zeile 1:&lt;/td&gt;
&lt;td colspan=&quot;2&quot; class=&quot;diff-lineno&quot;&gt;Zeile 1:&lt;/td&gt;&lt;/tr&gt;
&lt;tr&gt;&lt;td class='diff-marker'&gt;−&lt;/td&gt;&lt;td style=&quot;color:black; font-size: 88%; border-style: solid; border-width: 1px 1px 1px 4px; border-radius: 0.33em; border-color: #ffe49c; vertical-align: top; white-space: pre-wrap;&quot;&gt;&lt;div&gt;&amp;lt;br&amp;gt;Mercury (II) oxide, a &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;pink &lt;/del&gt;strong, decomposes when heated to &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;supply &lt;/del&gt;mercury and oxygen &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;gasoline&lt;/del&gt;. A &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;response can &lt;/del&gt;also &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;be thought-about &lt;/del&gt;to be a decomposition response even when a number of of the produces are nonetheless compounds. A metal carbonate decomposes into a metallic oxide and carbon dioxide &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;fuel&lt;/del&gt;. For instance, calcium carbonate decomposes into calcium oxide and carbon dioxide. [https://www.jsxuyang.net/stainlesssteelequipment/detail/sortid/150/id/&lt;del class=&quot;diffchange diffchange-inline&quot;&gt;180&lt;/del&gt;.html Stainless &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;Steel Electric Heating Reactor&lt;/del&gt;] hydroxides decompose on heating to yield metal oxides and water.&amp;lt;br&amp;gt;&amp;lt;br&amp;gt;This we &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;will perceive &lt;/del&gt;from &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;beneath &lt;/del&gt;determine. Whereas non-adiabatic or isothermal &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;fastened &lt;/del&gt;mattress reactors we use the place, heat of reaction is too high and desired reactor temperature control &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;just &lt;/del&gt;isn't &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;potential &lt;/del&gt;by feed temperature. Moreover, reactions are &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;a lot &lt;/del&gt;temperature sensitive. If reactor temperature &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;is not &lt;/del&gt;controlled reaction can lead to run-away &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;conditions&lt;/del&gt;. In such &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;cases both &lt;/del&gt;we use &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;exterior &lt;/del&gt;cooling or a multitubular fastened mattress reactor as &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;shown &lt;/del&gt;in below &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;determine&lt;/del&gt;. To &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;keep up &lt;/del&gt;isothermal &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;circumstances &lt;/del&gt;in reactor tubes, we fill catalyst &amp;amp; inert pellets in numerous ratios. At the top &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;facet &lt;/del&gt;reactants &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;concentration &lt;/del&gt;is highest &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;due to this fact &lt;/del&gt;we maintain lowest concentration of catalyst. &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;While &lt;/del&gt;at the &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;bottom aspect &lt;/del&gt;of reactor reactants &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;focus &lt;/del&gt;is lowest &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;subsequently&lt;/del&gt;, we fill 100% catalyst.&amp;lt;br&amp;gt;&amp;lt;br&amp;gt;GE's HTRE &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;sequence &lt;/del&gt;proved that the direct cycle &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;idea &lt;/del&gt;would work. P&amp;amp;W was making progress, slowly &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;but &lt;/del&gt;absolutely, on the &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;indirect &lt;/del&gt;cycle. The NTA reactor &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;tests &lt;/del&gt;demonstrated that aircraft shielding &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;might &lt;/del&gt;be &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;done &lt;/del&gt;successfully. A myriad of smaller developments, new metals, &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;artificial &lt;/del&gt;lubricants, all worked out and had been &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;out there &lt;/del&gt;to supply an aircraft. But &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;when &lt;/del&gt;it wasn't killed by &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;expertise&lt;/del&gt;, what &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;have been &lt;/del&gt;the explanations for &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;this system&lt;/del&gt;'s demise? The reply to that &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;question &lt;/del&gt;follows in the &lt;del class=&quot;diffchange diffchange-inline&quot;&gt;following section&lt;/del&gt;.&amp;lt;br&amp;gt;&lt;/div&gt;&lt;/td&gt;&lt;td class='diff-marker'&gt;+&lt;/td&gt;&lt;td style=&quot;color:black; font-size: 88%; border-style: solid; border-width: 1px 1px 1px 4px; border-radius: 0.33em; border-color: #a3d3ff; vertical-align: top; white-space: pre-wrap;&quot;&gt;&lt;div&gt;&amp;lt;br&amp;gt;Mercury (II) oxide, a &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;red &lt;/ins&gt;strong, decomposes when heated to &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;provide &lt;/ins&gt;mercury and oxygen &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;fuel&lt;/ins&gt;. A &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;reaction is &lt;/ins&gt;also &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;considered &lt;/ins&gt;to be a decomposition response even when a number of of the produces are nonetheless compounds. A metal carbonate decomposes into a metallic oxide and carbon dioxide &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;gas&lt;/ins&gt;. For instance, calcium carbonate decomposes into calcium oxide and carbon dioxide. [https://www.jsxuyang.net/stainlesssteelequipment/detail/sortid/150/id/&lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;182&lt;/ins&gt;.html Stainless &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;steel reaction kettle&lt;/ins&gt;] hydroxides decompose on heating to yield metal oxides and water.&amp;lt;br&amp;gt;&amp;lt;br&amp;gt;This we &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;are able to understand &lt;/ins&gt;from &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;under &lt;/ins&gt;determine. Whereas non-adiabatic or isothermal &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;mounted &lt;/ins&gt;mattress reactors we use the place, heat of reaction is &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;just &lt;/ins&gt;too high and desired reactor temperature control isn't &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;attainable &lt;/ins&gt;by feed temperature. Moreover, reactions are &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;an excessive amount of &lt;/ins&gt;temperature sensitive. If reactor temperature &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;isn't &lt;/ins&gt;controlled reaction can lead to run-away &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;situations&lt;/ins&gt;. In such &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;circumstances either &lt;/ins&gt;we use &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;external &lt;/ins&gt;cooling or a multitubular fastened mattress reactor as &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;proven &lt;/ins&gt;in below &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;figure&lt;/ins&gt;. To &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;maintain &lt;/ins&gt;isothermal &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;situations &lt;/ins&gt;in reactor tubes, we fill catalyst &amp;amp; inert pellets in numerous ratios. At the top &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;side &lt;/ins&gt;reactants &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;focus &lt;/ins&gt;is highest &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;therefore &lt;/ins&gt;we maintain lowest concentration of catalyst. &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;Whereas &lt;/ins&gt;at the &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;underside facet &lt;/ins&gt;of reactor reactants &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;concentration &lt;/ins&gt;is lowest &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;therefore&lt;/ins&gt;, we fill 100% catalyst.&amp;lt;br&amp;gt;&amp;lt;br&amp;gt;GE's HTRE &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;series &lt;/ins&gt;proved that the direct cycle &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;concept &lt;/ins&gt;would work. P&amp;amp;W was making progress, slowly &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;however &lt;/ins&gt;absolutely, on the &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;oblique &lt;/ins&gt;cycle. The NTA reactor &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;exams &lt;/ins&gt;demonstrated that aircraft shielding &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;could &lt;/ins&gt;be &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;performed &lt;/ins&gt;successfully. A myriad of smaller developments, new metals, &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;synthetic &lt;/ins&gt;lubricants, all worked out and had been &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;obtainable &lt;/ins&gt;to supply an aircraft. But &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;if &lt;/ins&gt;it wasn't killed by &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;know-how&lt;/ins&gt;, what &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;were &lt;/ins&gt;the explanations for &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;the program&lt;/ins&gt;'s demise? The reply to that &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;query &lt;/ins&gt;follows in the &lt;ins class=&quot;diffchange diffchange-inline&quot;&gt;subsequent part&lt;/ins&gt;.&amp;lt;br&amp;gt;&lt;/div&gt;&lt;/td&gt;&lt;/tr&gt;
&lt;/table&gt;</summary>
		<author><name>JohnnySoukup4</name></author>	</entry>

	<entry>
		<id>http://wiki.pannier-schulungen.de/index.php?title=11.5:_Decomposition_Reactions_-_Chemistry_LibreTexts&amp;diff=11197&amp;oldid=prev</id>
		<title>WilheminaGillies: Die Seite wurde neu angelegt: „&lt;br&gt;Mercury (II) oxide, a pink strong, decomposes when heated to supply mercury and oxygen gasoline. A response can also be thought-about to be a decomposition…“</title>
		<link rel="alternate" type="text/html" href="http://wiki.pannier-schulungen.de/index.php?title=11.5:_Decomposition_Reactions_-_Chemistry_LibreTexts&amp;diff=11197&amp;oldid=prev"/>
				<updated>2021-01-04T11:08:11Z</updated>
		
		<summary type="html">&lt;p&gt;Die Seite wurde neu angelegt: „&amp;lt;br&amp;gt;Mercury (II) oxide, a pink strong, decomposes when heated to supply mercury and oxygen gasoline. A response can also be thought-about to be a decomposition…“&lt;/p&gt;
&lt;p&gt;&lt;b&gt;Neue Seite&lt;/b&gt;&lt;/p&gt;&lt;div&gt;&amp;lt;br&amp;gt;Mercury (II) oxide, a pink strong, decomposes when heated to supply mercury and oxygen gasoline. A response can also be thought-about to be a decomposition response even when a number of of the produces are nonetheless compounds. A metal carbonate decomposes into a metallic oxide and carbon dioxide fuel. For instance, calcium carbonate decomposes into calcium oxide and carbon dioxide. [https://www.jsxuyang.net/stainlesssteelequipment/detail/sortid/150/id/180.html Stainless Steel Electric Heating Reactor] hydroxides decompose on heating to yield metal oxides and water.&amp;lt;br&amp;gt;&amp;lt;br&amp;gt;This we will perceive from beneath determine. Whereas non-adiabatic or isothermal fastened mattress reactors we use the place, heat of reaction is too high and desired reactor temperature control just isn't potential by feed temperature. Moreover, reactions are a lot temperature sensitive. If reactor temperature is not controlled reaction can lead to run-away conditions. In such cases both we use exterior cooling or a multitubular fastened mattress reactor as shown in below determine. To keep up isothermal circumstances in reactor tubes, we fill catalyst &amp;amp; inert pellets in numerous ratios. At the top facet reactants concentration is highest due to this fact we maintain lowest concentration of catalyst. While at the bottom aspect of reactor reactants focus is lowest subsequently, we fill 100% catalyst.&amp;lt;br&amp;gt;&amp;lt;br&amp;gt;GE's HTRE sequence proved that the direct cycle idea would work. P&amp;amp;W was making progress, slowly but absolutely, on the indirect cycle. The NTA reactor tests demonstrated that aircraft shielding might be done successfully. A myriad of smaller developments, new metals, artificial lubricants, all worked out and had been out there to supply an aircraft. But when it wasn't killed by expertise, what have been the explanations for this system's demise? The reply to that question follows in the following section.&amp;lt;br&amp;gt;&lt;/div&gt;</summary>
		<author><name>WilheminaGillies</name></author>	</entry>

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