Merge pull request #5 from Neerti/4/8/2015_bay_sync

Syncs to Bay (4/8/2015)
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Neerti
2015-04-10 09:41:51 -04:00
57 changed files with 714 additions and 671 deletions
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<h2>OPERATING PRINCIPLES</h2>
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<li>The supermatter crystal serves as the fundamental power source of the engine. Upon being charged, it begins to emit large amounts of heat and radiation, as well and oxygen and plasma. As oxygen accelerates the reaction, and plasma carries the risk of fire, these must be filtered out. NOTE: Supermatter radiation will not charge radiation collectors.</li>
<li>The supermatter crystal serves as the fundamental power source of the engine. Upon being charged, it begins to emit large amounts of heat and radiation, as well and oxygen and phoron gas. As oxygen accelerates the reaction, and phoron carries the risk of fire, these must be filtered out. NOTE: Supermatter radiation will not charge radiation collectors.</li>
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<li>Air in the reactor chamber housing the supermatter is circulated through the reactor loop, which passes through the filters and thermoelectric generators. The thermoelectric generators transfer heat from the reactor loop to the colder radiator loop, thereby generating power. Additional power is generated from internal turbines in the circulators.</li>
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<li>The MK 1 Prototype Thermoelectric Supermatter Engine is designed to operate at reactor temperatures of 3000K to 4000K and generate up to 1MW of power. Beyond 1MW, the thermoelectric generators will begin to lose power through electrical discharge, reducing efficiency, but additional power generation remains feasible.</li>
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<li>The crystal structure of the supermatter will begin to liquefy if its temperature exceeds 5000K. This eventually results in a massive release of light, heat and radiation, disintegration of both the supermatter crystal and most of the surrounding area, and as as-of-yet poorly documented psychological effects on all animals within a 2km. Appropriate action should be taken to stabilize or eject the supermatter before such occurs.</li>
<li>The crystal structure of the supermatter will begin to liquefy if its temperature exceeds 5000K. This eventually results in a massive release of light, heat and radiation, disintegration of both the supermatter crystal and most of the surrounding area, and as as-of-yet poorly documented psychological effects on all animals within a 2km radius. Appropriate action should be taken to stabilize or eject the supermatter before such occurs.</li>
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<h2>SUPERMATTER HANDLING</h2>
<li>Do not expose supermatter to oxygen.</li>
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<ol>
<li>Ensure that radiation protection and meson goggles are worn at all times while working in the engine room.</li>
<li>Ensure that reactor and radiator loops are undamaged and unobstructed.</li>
<li>Ensure that plasma and oxygen gas exhaust from filters is properly contained or disposed. Do not allow exhaust pressure to exceed 4500 kPa.</li>
<li>Ensure that phoron and oxygen gas exhaust from filters is properly contained or disposed. Do not allow exhaust pressure to exceed 4500 kPa.</li>
<li>Ensure that engine room Area Power Controller (APC) and engine Superconducting Magnetic Energy Storage unit (SMES) are properly charged.</li>
<li>Ensure that reactor temperature does not exceed 5000K. In event of reactor temperature exceeding 5000K, see EMERGENCY COOLING PROCEDURE.</li>
<li>In event of imminent and/or unavoidable delamination, see EJECTION PROCEDURE.</li>