cthia wrote:NO!!! The moderator rods are fuel rods! You don't add more gasoline to a fire if you want a smaller fire. The fuel rods are also called "moderator" rods because they slow down the neutrons enough to support a chain reaction. Inserting more rods creates a bigger chain reaction!
I'm not aware of
any reactor design were fuel rods are inserted/removed operationally in order to control reaction rates[1]. If you want more reaction you remove more of the control rod (or rods), if you want less you insert more of the control rod (or rods).
Soviet RMBK reactors, like Chernobyl, still used fixed fuel rods (only removed during refueling; not as a way to moderate power output). Moderating the reaction still used movable control rods sliding up and down through the fixed fuel elements. However those control rods did have a bizarre and counterproductive design; where the control rods were tipped with a long graphic 'displacer'.
That actually locally
increased the chain reaction because RBMK reactors were also void positive reactors; a void in the water (a weak neutron absorber) would increase the chain reaction and thus the power output. The US NEC required all power reactors to be void negative so that displacing coolant would reduce the reaction (usually because the reaction relied on the water slower the emitted neutrons to the point where they were likely to chain reaction. Neutrons with too much energy won't actually be very likely to split uranium). So thanks to the combination of void positive design and graphic tipped control rods inserting a control rod would locally increase the reaction before the boron carbide (a much stronger neutron absorber) portion of the control rod arrived to actually moderate the chain reaction. That wasn't a major problem during careful normal operation, where you'd keet the control rods partially inserted. But became a huge problem if you had withdrawn them. When this style of control rod was fully withdrawn inserting it to moderate the reaction would first cause a reaction increase!
And if you try to SCRAM the reactor when all the rods are withdrawn then you get a reaction increase simultaniously across the entire insertion face of the reactor as every control rod, including the extra SCRAM rods, first shoves the current neutron absorber out of the way. And of course as a void positive design as the heat reaches the point it starts boiling the cooling water that creates additional gas voids which increase the reaction even more.
Chernobyl was operated
so far outside its safe operating parameters it's nearly unbelievable. Seriously, if a novel claiming that had been published several years before it'd have been laughed off as ludicrously contrived. They'd been doing an unsafe test and then cut it off early and tried to ramp back up to production power well before the neutron poisoning I'd mentioned in a previous post had passed. So they'd withdrawn all the control rods in an attempt to overcome that - then once overcome the neutron poison started burning off too quickly causing excessive chain reactions and overheating so they SCRAMed which compounded the problem due to the aforementioned graphic tipped control rods making the runaway reaction even worse - it didn't survive long enough for the main body of the control rods to absorb enough neutrons to break the cycle.
But back to reactors in general. The fuel assembly may, or may not, contain some fixed neutron absorbing cladding or wrapping - that's very reactor design specific. For example the first reactor was air cooled and it was the graphite blocks the fuel assembly was installed in, and that the control rods slid through, that provided the fixed 'baseline' neutron absorption - not the fuel rods themselves. But I've never heard of fuel rods called moderator rods.
[1] Molten salt reactors don't even have fuel rods, and there are some refector designs where moving an external reflector up and down the static fuel assembly controls location and rate of fissioning.
