One technique used to reduce the thermal fatigue damage of the spray nozzle is to ensure the water source is at the highest possible temperature. If teh water has been stagnant in the line, it will cool to room temperaure, so some users provide a warmup bleed that continuously drips some water thru the supply pipe ( dripped to drain or condenser) to keep the water pipe hot.
Another trick is to de-tune the temperature control loop. If the water control valve is cycling open-close many times per startup , and each quench- warmup sequence counts as a fatigue cycle, the best way to extend the fatigue life is to reduce the frequency of the open-close cycles of the valve.
Yet another means of extdending the life of the spray nozzles is to replace the older injection-quil style simple spray nozzles with tangentially mounted , spring loaded , wide turndown spray nozzles. The old- fashioned injection quil style nozzles , with stainless bodies, would develop thte initial crack in the body of the nozzle due to thermal stress. Traces of Chlorides in the spray condensate would attack this initila crack and the crackmay spread due to chloride stress sensitization. Final failure is caused by hi cycle fatigue , due to fluid elastic vibrations of the quil- its profile in the main flow path will excite such vibrations.
