A solar thermal power plant is provided. The plant includes a steam-electric power plant associated with a steam generation system operationally connected thereto for providing heat to drive its operation, a solar collection system designed to heat thermal fluid and is in communication with the stea
A solar thermal power plant is provided. The plant includes a steam-electric power plant associated with a steam generation system operationally connected thereto for providing heat to drive its operation, a solar collection system designed to heat thermal fluid and is in communication with the steam-electric power plant to provide heat thereto for driving its operation, and a non-solar power plant including a power generation unit and a waste heat recovery unit. The solar thermal power plant further includes a controller configured to selectively operationally connect the solar collection system and the waste heat recovery unit to the steam-electric power plant to provide heat thereto.
대표청구항▼
1. A solar thermal power plant, comprising: a steam-electric power plant associated with a steam generation system operationally connected thereto for providing heat to drive operation of the steam-electric power plant;a solar collection system designed to heat thermal fluid and is in communication
1. A solar thermal power plant, comprising: a steam-electric power plant associated with a steam generation system operationally connected thereto for providing heat to drive operation of the steam-electric power plant;a solar collection system designed to heat thermal fluid and is in communication with the steam-electric power plant to provide heat thereto for driving the operation of the steam-electric power plant; anda non-solar power plant comprising a power generation unit and a waste heat recovery unit; anda controller configured to selectively operationally connect the solar collection system and the waste heat recovery unit to the steam-electric power plant to provide heat thereto,wherein the steam-electric power plant is configured to selectively at least partially divert working fluid from a steam division junction, to the waste heat recovery unit for heating, and reintroduced at a corresponding steam union junction,wherein the steam-electric power plant including a working fluid circuit is designed for carrying the working fluid sequentially through the steam generation system, a first turbine, a second turbine operating at a lower pressure than the first turbine, and returning to the steam generation system,wherein a first steam division junction is located downstream of the second turbine and upstream of the steam generation system, andwherein a first steam union junction, corresponding to the first steam division junction, is located downstream of the steam generation system and upstream of the first turbine,wherein the first steam division junction and the first steam union junction is defined by a three way valve whereby the first steam division junction is configured to selectively divert working fluid in one of two directions and the first steam union junction is configured to reintroduce working fluid which had been diverted by the first steam union junction,wherein the solar thermal power plant is configured to selectively operate in at least one of a direct solar mode or a direct non-solar mode,wherein in the direct solar mode the first steam division junction operates to allow working fluid flow between the second turbine and the steam generation system, and the first steam union junction operates to allow working fluid flow between the steam generation system and the first turbine, andwherein in the direct non-solar mode, the first steam division junction operates to allow working fluid flow between the second turbine and the waste heat recovery unit, and the first steam union junction operates to allow working fluid flow between the waste heat recovery unit and the first turbine. 2. The solar thermal power plant according to claim 1, wherein the solar thermal power plant is configured to operate in the direct solar mode and the direct non-solar mode simultaneously. 3. The solar thermal power plant according to claim 1, wherein a second steam division junction is located downstream of the first turbine and upstream of the second turbine,wherein a second steam union junction, corresponding to the second steam division junction, is located downstream of the second steam division junction and upstream of the second turbine, andwherein the second steam division junction and the second steam union junction is defined by a three way valve whereby the second steam division junction is configured to selectively divert working fluid in one of two directions and the second steam union junction is configured to reintroduce working fluid which had been diverted by the second steam union junction. 4. The solar thermal power plant according to claim 3, wherein in the direct solar mode, the second steam division junction and second steam union junction operate to allow working fluid flow between the first turbine and the second turbine, andwherein in the direct non-solar mode, the second steam division junction operates to allow working fluid flow between the first turbine and the waste heat recovery unit, and the second steam union junction operates to allow working fluid flow between the waste heat recovery unit and the second turbine. 5. The solar thermal power plant according to claim 3, wherein the steam generation system comprises a reheater located within the working fluid circuit downstream of the first turbine and upstream of the second turbine, andwherein the reheater is located downstream of the second steam division junction and upstream of the second steam union junction. 6. The solar thermal power plant according to claim 1, further comprising a plurality of feedwater heaters located within the working fluid circuit downstream of the second turbine and upstream of the steam generation system,wherein the first steam division junction is located upstream of the plurality of feedwater heaters. 7. The solar thermal power plant according to claim 1, wherein the solar thermal power plant is configured to selectively at least partially divert thermal fluid from an oil division junction between the solar collection system and the steam-electric power plant, to a corresponding alternate heat source for heating of the thermal fluid, and subsequently reintroduced at a corresponding oil union junction between the solar collection system and the steam-electric power plant. 8. The solar thermal power plant according to claim 7, wherein the first oil division junction is located downstream of the steam-electric power plant and upstream of the solar collection system,wherein a first oil union junction, corresponding to the first oil division junction, is located downstream of the solar collection system and upstream of the steam-electric power plant, andwherein the corresponding alternate heat source is the waste heat recovery unit. 9. The solar thermal power plant according to claim 7, wherein the solar thermal power plant is configured to selectively operate in a non-solar heating mode,wherein the first oil division junction operates to allow thermal fluid flow between the steam-electric power plant and the waste heat recovery unit, andwherein the first oil union junction operates to allow working fluid flow between the waste heat recovery unit and the steam-electric power plant. 10. The solar thermal power plant according to claim 1, wherein the solar collection system further comprises a heat storage/discharge system configured for storing therein a portion of heat captured by the solar collection system, andwherein the controller is further configured to selectively operationally connect the heat storage/discharge system to the steam-electric power plant to provide heat thereto. 11. The solar thermal power plant according to claim 10, wherein a second oil division junction is located downstream of the steam-electric power plant and upstream of the solar collection system,wherein a second oil union junction, corresponding to the second oil division junction, is located downstream of the solar collection system and upstream of the steam-electric power plant, andwherein a corresponding alternate heat source is the heat storage/discharge system. 12. The solar thermal power plant according to claim 11, wherein the solar thermal power plant is configured to selectively operate in at least one of a primary solar heating mode or a secondary solar heating mode,wherein in the primary solar heating mode, the second oil division junction operates to allow working fluid flow between the steam-electric power plant and the solar collection system, and the second oil union junction operates to allow working fluid flow between the solar collection system and the steam-electric power plant, andwherein in the secondary solar heating mode, the second oil division junction operates to allow thermal fluid flow between the steam-electric power plant and the heat storage/discharge system, and the second oil union junction operates to allow working fluid flow between the heat storage/discharge system and the steam-electric power plant. 13. The solar thermal power plant according to claim 12, wherein the solar thermal power plant is configured to operate in the primary solar heating mode and the secondary solar heating mode simultaneously. 14. The solar thermal power plant according to claim 13, wherein the solar thermal power plant is configured to operate simultaneously in the non-solar heating mode and in at least one of the primary solar heating mode and secondary solar heating mode. 15. The solar thermal power plant according to claim 12, wherein the solar collection system comprises a primary solar field for operational connection to the steam-electric power plant to supply heat thereto, and a secondary solar field for operational connection to the heat storage/discharge system to supply heat thereto. 16. The solar thermal power plant according to claim 12, wherein the solar collection system comprises a solar field configured to be selectively operationally connected to the steam-electric power plant and/or the heat storage/discharge system to supply heat thereto.
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