Methods and systems for enhancing control of power plant generating units

We claim: 1. A control method for optimizing an operation of a power plant having generating units during a selected operating period, wherein the selected operating period is subdivided so to include regular intervals within which each of the generating units comprises one of an on-condition and an off-condition, wherein unique combinations of which of the generating units comprise the on-condition and which the off-condition define competing operating modes within the intervals, the control method comprising the steps of: determining a preferred case for each of the competing operating modes for each of the intervals; based upon the data relating to the preferred cases, selecting proposed turndown operating sequences for the selected operating period, wherein each of the proposed turndown operating sequences describe an unique progression of the off-condition and the on-condition for the generating units through the intervals of the selected operating period; for each of the proposed turndown operating sequences, determining a shutdown operation for each of the generating units comprising the off-condition for one or more intervals during the selected operating period and, therefrom, calculating a shutdown economic outcome; for each of the proposed turndown operating sequences, determining a turndown operation for each of the generating units comprising the on-condition for one or more intervals during the selected operating period and, therefrom, calculating a turndown economic outcome; given the shutdown and turndown economic outcomes, calculating a sequence economic outcome for each of the proposed turndown operating sequences; and comparing the sequence economic outcomes, and based thereupon, outputting a preferred turndown operating sequence. 2. The control method according to claim 1 , wherein the generating units comprise gas turbines; wherein the selected operating period comprises a future off-peak operating period for the power plant and the operation comprises a power plant turndown; and wherein at least one of the proposed turndown operating sequences includes the off-condition for at least one of the gas turbines during at least one of the intervals. 3. The control method according to claim 2 , wherein the sequence economic outcome comprises a summation of the shutdown economic outcomes and the turndown economic outcomes for, respectively, the shutdown operation and the turndown operation described by the progression of the off condition and the on condition for the gas turbines peculiar to one of the proposed turndown operating sequences. 4. The control method according to claim 3 , wherein the step of determining the preferred cases includes the steps of: selecting the competing operating modes via configuring different possible combinations regarding which of the gas turbines comprise the on-condition and which comprise the off-condition during the intervals; defining multiple cases for each of the competing operating modes, wherein the multiple cases include varying a value of an operating parameter over a range; receiving performance objectives that include a cost function for evaluating the operation of the power plant during the intervals of the selected operating period; receiving an ambient conditions forecast for each of the intervals of the selected operating period; for each of the multiple cases of the competing operating modes, simulating the operation of the power plant over each of the intervals with a power plant model pursuant to the value of the operating parameter and the ambient conditions forecast; evaluating a simulation result from each of the simulations pursuant to the cost function so to select therefrom a preferred case from the multiple cases for each of the competing operating modes. 5. The method of claim 4 , wherein the step of defining the competing operating modes includes: permutating the gas turbines so to configure an on/off permutation matrix for each of the intervals, wherein permutations of the permutation matrix describe unique combination regarding which of the gas turbines comprise the on-condition and which comprise the off-condition during the interval; and for each interval, defining each of the permutations of the permutation matrix as one of the competing operating modes. 6. The control method according to claim 5 , wherein the permutation matrix for each of the intervals is configure such that the gas turbines each comprises just one of the on-condition and the off-condition to the exclusion of the other for the entire duration of the interval; and wherein the on/off permutation matrix comprises each unique combination possible regarding which of the gas turbines comprise the on-condition and which comprise the off-condition during one of the intervals of the selected operating period. 7. The control method according to claim 5 , wherein the step of defining multiple cases for each of the competing operating modes includes varying a value for a first operating parameter over a first range and a value for a second operating parameter over a second range. 8. The control method according to claim 7 , wherein the step of simulating with the power plant model each of the multiple cases of the competing operating modes includes generating proposed parameter sets for each particular case of the multiple cases as input data for the power plant model; wherein, for each particular case, the proposed parameter set includes: the value within the first range for the first operating parameter and the value within the second range for the second operating parameter for the particular case; the on-condition and the off-condition for the gas turbines for the competing operating mode to which the particular case corresponds; and data regarding the ambient conditions forecast for the interval to which the particular case corresponds. 9. The control method according to claim 8 , wherein the step of simulating with the power plant model each of the multiple cases includes performing a simulation run with the power plant model in accordance with the proposed parameter sets, the simulation run configured to simulate operation of the power plant during the interval according to the input data of the proposed parameter sets; and wherein the performance objectives further comprise operability constraints; and wherein the step of evaluating the simulation results from the simulation runs comprises determining which, if any, of the simulation results violate any of the operability constraints and disqualifying for consideration as one of the preferred cases any of the multiple cases that produced the simulation results that violated the operability constraints. 10. The control method according to claim 8 , wherein the first operating parameter comprises an inlet guide vane setting, and the second operating parameter comprises a turbine exhaust temperature. 11. The control method according to claim 10 , wherein the cost function comprises a total fuel consumption by the gas turbines such that determining the preferred case comprises determining which of the multiple cases produced the simulation results that minimizes the total fuel consumption during the interval. 12. The control method according to claim 10 , wherein the cost function comprises the generating output level for the gas turbines such that determining the preferred case comprises determining which of the multiple cases produced the simulation results that minimizes the generating output level during the interval. 13. The control method according to claim 8 , wherein the step of selecting the proposed turndown operating sequences comprises