Every thermal power plant is, in operational terms, a water plant with a turbine attached. Steam-Rankine cycles, condenser cooling loops, and flue gas treatment all depend on precisely conditioned water to protect superheater tubes, boiler drums, turbine blades, and heat exchangers from scale, corrosion, and biological fouling. The economic penalty for cycle chemistry failure — forced outages, tube leaks, turbine deposition — runs from hundreds of thousands to millions of dollars per event before accounting for capacity payments. Every one of those failure modes is dramatically cheaper to prevent through precise chemistry than to remediate after the fact.
The four water systems that follow cover conventional fossil, combined-cycle, and biomass thermal plants. Nuclear, waste-to-energy, and geothermal plants inherit variations on the same treatment logic, with additional constraints noted where they apply.