| Name | Modified | Size | Downloads / Week |
|---|---|---|---|
| img.png | 2011-03-18 | 25.2 kB | |
| Readme.txt | 2011-03-18 | 2.9 kB | |
| Totals: 2 Items | 28.1 kB | 0 |
FORCED COOLING SYSTEM FOR FAST REACTOR CORE BASED on Pb (lead) ----------------------- -------------------------------------- PREPARATION ----------- 1. All damages to the outer protective shell of a muffled, and you can use combined bronze-tungsten plugs (for the bronze melting temperature - 930 - 1140 degrees C). SYMBOLS ------- R - reactor core Z - weld to the top cover shell protect C1 - The power supply cooling tube C2 - abductor cooling tube C3 - abductor tube to drain the remaining coolant from the reactor core Pb + Sb (? 5-7%) + (NaOH or KOH) - coolant of the reactor core, ie lead, antimony, alkaline. S1 - microwave oven to heat the coolant, and maintain the temperature in a short t3 circuit - at least 327 + (10-50 degrees C) is in inverse relation with temperature sensor D1 N - High temperature pump for pumping the coolant of the reactor core at a rate equal to V1 dSt - free space for venting of excess steam through the valve of C3 (not painted, of ideas should be placed at the top of the upper lid) D2 - Sensor Temperature Control t1 reactor core D1 - Sensor Temperature Control t2 in a short internal cooling circuit IKO D3 - Sensor Temperature Control t3 in the external cooling circuit of the reactor BKO, external coolant circuit H2O - water, performing the final inspection temperature in an external cooling circuit (must be no more than 80 degrees C) PRINCIPLE OF ------------ 1. C1 solution is pumped through a 65% Pb + Sb (? 5-7%) + (30% NaOH or KOH) - cooling liquid for reactor core (to prevent clogging). Note ---- Heavy water is tapped from the C3 simultaneously with uploading a new solution C1 coolant. Injection rate is high. The temperature of the injected solution of 20 degrees C. After the final injection coolant: 1. Run at low revs pump N 2. Increase the temperature with S1 in a short circuit cooling IKO to 327 + (10-50 degrees C) controlling its temperature sensor on D1 and D2 3. When the temperature reaches 327 + (10-50 degrees C), increase the speed V1 flow pump N to ultrasonic or higth if you can not, simultaneously running on pumping external cooling circuit, with the temperature control should abstain in the external circuit cooling by setting the speed sensor D3 V3 for a temperature in the inner cooling circuit was maintained at 327 + (10-50 degrees C), ie higher melting temperature an alloy of lead and antimony. Once Number of heat given up by an external cooling circuit reactor, controlled by temperature sensor D3, decrease or cease to happen dissolving the rods of the reactor, turn off the heater and S1 through S3 introduces the relevant elements of K, F, O for the crystallization coolant in an internal loop reactor. Further reactor placed on eternal storage:)
