Integrated cascading cycle solar thermal plants

The invention claimed is: 1. A solar thermal power system comprising: multiple thermodynamic systems that operate different types of thermodynamic cycles at different temperature ranges; and multiple solar thermal plants that provide thermal energy to the thermodynamic systems, wherein the solar thermal plants are of different types and operate at different temperature ranges, the solar thermal plants being connected in series such that they each operate using the same solar collector fluid that is sequentially cycled through each plant in series. 2. The solar thermal power system of claim 1 , wherein the thermodynamic systems operate simultaneously but are independent of each other so waste from one thermodynamic system does not drive another thermodynamic system. 3. The solar thermal power system of claim 1 , wherein the solar thermal power system comprises three thermodynamic systems that operate three different thermodynamic cycles, the thermodynamic cycles including (i) a high temperature steam Rankine cycle, (ii) a medium temperature organic Rankine cycle, and (iii) a low temperature organic Rankine cycle, an absorption/refrigeration cycle, or a power/refrigeration cycle. 4. The solar thermal power system of claim 1 , further comprising a separate heat exchanger for each thermodynamic system, the heat exchangers being arranged in series such that the solar collector fluid is sequentially cycled through each heat exchanger in series. 5. The solar thermal power system of claim 1 , wherein solar thermal power system comprises three solar thermal plants including (i) a flat plate collector plant, (ii) an evacuation tube collector plant or a reflector type collector plant, and (iii) a parabolic trough collector plant. 6. A thermodynamic solar thermal power system comprising: multiple thermodynamic systems that operate different types of thermodynamic cycles at different temperature ranges, the thermodynamic systems being connected in series such that each thermodynamic system receives waste from another thermodynamic system and is driven by that waste, provides waste to another thermodynamic system that drives that thermodynamic system, or both; and multiple solar thermal plants of different types that provide thermal energy to the thermodynamic systems, wherein at least two of the solar thermal plants operate at different temperature ranges and are connected in series such that they operate using the same solar collector fluid that is sequentially cycled through the plants in series. 7. The solar thermal power system of claim 6 , wherein the thermodynamic systems include a top thermodynamic system that operates a top cycle at a high temperature, a first bottoming thermodynamic system connected to the top thermodynamic system that operates a first bottoming cycle at a medium temperature, and a second bottoming thermodynamic system connected to the first bottoming thermodynamic system that operates second bottoming cycle at a low temperature. 8. The solar thermal power system of claim 7 , wherein the top thermodynamic system comprises a gas turbine plant, a coal plant, or a nuclear power plant, and the first and second bottoming cycles comprise Rankine cycles. 9. The solar thermal power system of claim 7 , wherein the solar thermal plants include a low temperature solar plant and a high temperature solar plant, wherein the low temperature solar plant heats the solar collector fluid to a first temperature and the high temperature solar plant further heats the collector fluid to a second higher temperature, the heat within the solar collector fluid then being provided to the second bottoming thermodynamic system. 10. The solar thermal power system of claim 7 , wherein the solar thermal plants include a low temperature solar plant and a high temperature solar plant, wherein the low temperature solar plant heats the solar collector fluid to a first temperature and the high temperature solar plant further heats the collector fluid to a second higher temperature, the heat within the solar collector fluid then being provided to the first bottoming thermodynamic system. 11. The solar thermal power system of claim 10 , further comprising a second high temperature solar plant that provides heat to waste from the top thermodynamic system before the waste is provided to the first bottoming thermodynamic system. 12. The solar thermal power system of claim 7 , further comprising a third bottoming thermodynamic system that operates a third bottoming cycle, the third bottoming thermodynamic system being connected in series with the second bottoming thermodynamic system, the third bottoming cycle comprising an organic Rankine cycle, a Kalina cycle, a Goswami cycle, or an absorption/refrigeration cycle.