What factors determine the viability of regenerative power plants?

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The viability of regenerative power plants is influenced by factors such as steam extraction efficiency, thermal efficiency, and the balance between capital and operating costs. While regenerative systems improve thermal efficiency through feedwater heating, they also introduce complexity and increased costs. The optimal range for size, pressure, and temperature in these plants is crucial for maximizing benefits. Ultimately, the decision to implement regenerative technology hinges on a cost-benefit analysis comparing initial investment against long-term operational savings. Understanding these dynamics is essential for determining when regenerative power plants are a feasible option.
El Moriana
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Hi, this question is posed merely out of curiosity:

Background
My thermodynamics textbook tells me that in regenerative power plants (i.e. ones making use of feedwater heaters), the steam extracted during expansion in order to feed the feedwater heater(s) results in less work being developed in the subsequent stages of the turbine. It then tells me that in practice, the systems are such that the advantage of the water heater ends up being greater than the lost turbine work.

Question
This leads me to assume that there is a range in size/pressure/temperature in which regen power plants are viable. What is this range? (this question could also be answered by telling me situations in which regen plants are not viable)
 
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There is a simple answer, cost.

Steam extraction and feedwater heating is always good for thermal efficiency of closed-cycle plants. (open-cycle plants are another exception.) But they add complexity and cost. So in the end it comes down to capital cost and development time verus operating costs.
 

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