Talk:Nuclear reactor safety system: Difference between revisions
Appearance
Content deleted Content added
TimothyRias (talk | contribs) assess |
→Passive cooling, turbine-driven cooling: new section |
||
Line 1: | Line 1: | ||
{{Physics|class=start|importance=low}} |
{{Physics|class=start|importance=low}} |
||
== Passive cooling, turbine-driven cooling == |
|||
The "Essential Service Water System" - that's the normal water circulation if I understand it correctly? It seems that all cooling systems mentioned in the article requires electrical power to operate? I've heard that newer power plants are supposed to have three layers of emergency cooling in case the active cooling should be lost; passive cooling (which would keep the core below melting temperatures for at least 24 hours without any power or work done, and infinitively if the water is replenished), turbine-driven cooling (cooling circuits kept going by the reactor heat itself, self-sustaining for as long as the reactor needs to be cooled down) and air-cooling ... |
Revision as of 20:33, 29 March 2011
Physics Start‑class Low‑importance | ||||||||||
|
Passive cooling, turbine-driven cooling
The "Essential Service Water System" - that's the normal water circulation if I understand it correctly? It seems that all cooling systems mentioned in the article requires electrical power to operate? I've heard that newer power plants are supposed to have three layers of emergency cooling in case the active cooling should be lost; passive cooling (which would keep the core below melting temperatures for at least 24 hours without any power or work done, and infinitively if the water is replenished), turbine-driven cooling (cooling circuits kept going by the reactor heat itself, self-sustaining for as long as the reactor needs to be cooled down) and air-cooling ...