A Solar-Powered Cyclic-Water Powered System or composite machine comprising:

Solar panels for generating power from sunlight.
Pumps driven by power from said solar panels.
Tanks or reservoirs, upper and lower that store water or liquid.
Said pumps that move the water or liquid upward from lower level tanks or reservoir to the upper level tank or reservoir to be stored for later use. Both said tanks will hold an equal volume of water or liquid.
Channels, tubing or pipes thru which water or liquid flows.
Hydro turbines, thru which water or liquid will flow in a downward direction to generate electricity, after which water or liquid flows back to lower tank or reservoir to be reused again.
A solenoid valve that is used to start and stop the flow of water or liquid.
A switch that controls when said valve will open or close depending on voltage or power level of a battery to which it is connected.
A battery for storing electrical power, which in daylight hours would be charged directly from solar panels.
A battery charger to recharge the above mentioned battery.
Wiring, as indicated by positive and negative symbols and lines.

A Solar-Powered Cyclic-Water Powered System or composite machine comprising:

Solar panels for generating power from sunlight.
Pumps driven by power from said solar panels.
Tanks or reservoirs, upper and lower that store water or liquid.
Said pumps that move the water or liquid upward from lower level tanks or reservoir to the upper level tank or reservoir to be stored for later use. Both said tanks will hold an equal volume of water or liquid.
Channels, tubing or pipes thru which water or liquid flows.
Hydro turbines, thru which water or liquid will flow in a downward direction to generate electricity, after which water or liquid flows back to lower tank or reservoir to be reused again.
A solenoid valve that is used to start and stop the flow of water or liquid.
A switch that controls when said valve will open or close depending on voltage or power level of a battery to which it is connected.
A battery for storing electrical power, which in daylight hours would be charged directly from solar panels.
A battery charger to recharge the above mentioned battery.
Wiring, as indicated by positive and negative symbols and lines.

In today's world, 33 billion tons of co2 generating electrical energy from burning fossil fuels (World Nuclear Association, May 2021) to heat water to steam to drive the turbines. The invention in this document is designed specifically to convert the existing fossil fuel burning electrical generation systems to a non-fossil, renewable generation system. This would be accomplished utilizing off-the-shelf, existing technologies in a new configuration. The configuration utilizes solar collection systems (1), energy storage system (2), liquid water, wet/dry water pump (3), water storage system (6) equipment and water driven turbine (4), the various components are connected to work together and attached to existing generation turbine (5) as the replacement for the fossil fuel systems.

Citations

Staff, Carbon Dioxide Emission from Electricity, World Nuclear Association, May 2021, Retrieved from: https://www.world-nuclear.org/information-library/energy-and-the-environment/carbon-dioxide-emissions-from-electricity.aspx

In today's world, 33 billion tons of co2 generating electrical energy from burning fossil fuels (World Nuclear Association, May 2021) to heat water to steam to drive the turbines. The invention in this document is designed specifically to convert the existing fossil fuel burning electrical generation systems to a non-fossil, renewable generation system. This would be accomplished utilizing off-the-shelf, existing technologies in a new configuration. The configuration utilizes solar collection systems (1), energy storage system (2), liquid water, wet/dry water pump (3), water storage system (6) equipment and water driven turbine (4), the various components are connected to work together and attached to existing generation turbine (5) as the replacement for the fossil fuel systems.

Citations

Staff, Carbon Dioxide Emission from Electricity, World Nuclear Association, May 2021, Retrieved from: https://www.world-nuclear.org/information-library/energy-and-the-environment/carbon-dioxide-emissions-from-electricity.aspx

A hybrid power generation system is disclosed including but not limited to a processor in data communication with a non-transitory computer readable medium for controlling a plurality of power sources to substantially optimize energy generation by the plurality of power sources, wherein the plurality of power sources comprise a solar panel and a battery that generate energy; a computer program comprising instructions stored in the non-transitory computer readable medium that are executed by the processor, the computer program comprising, instructions to determine a current operating state for each of the plurality of power sources; instructions to determine a new operating state for each of the plurality of power sources to substantially optimize power generated for each of the power sources; and instructions to replace the current operating state for each of the plurality of power sources to the new operating state for each of the plurality of power sources.

A hybrid power generation system is disclosed including but not limited to a processor in data communication with a non-transitory computer readable medium for controlling a plurality of power sources to substantially optimize energy generation by the plurality of power sources, wherein the plurality of power sources comprise a solar panel and a battery that generate energy; a computer program comprising instructions stored in the non-transitory computer readable medium that are executed by the processor, the computer program comprising, instructions to determine a current operating state for each of the plurality of power sources; instructions to determine a new operating state for each of the plurality of power sources to substantially optimize power generated for each of the power sources; and instructions to replace the current operating state for each of the plurality of power sources to the new operating state for each of the plurality of power sources.

An energy generating device and a method of manufacturing the same are provided. The energy generating device includes a first electrode, a metal layer, including a regular arrangement of a plurality of patterns, disposed on the first electrode, an organic material layer positioned on the metal layer, and a piezoelectric layer interposed between the first electrode and the organic material layer.

An energy generating device and a method of manufacturing the same are provided. The energy generating device includes a first electrode, a metal layer, including a regular arrangement of a plurality of patterns, disposed on the first electrode, an organic material layer positioned on the metal layer, and a piezoelectric layer interposed between the first electrode and the organic material layer.

A multi-layer apparatus has a transparent or semi-transparent substrate, a solar-cell layer coupled to the substrate, an energy-storage layer coupled to the solar-cell layer, and a converter layer coupled to the energy-storage layer. The solar-cell layer has a plurality of solar cells for receiving light through the substrate and converting energy of the received light to a first electrical energy, the energy-storage layer has one or more energy-storage units for storing a second electrical energy, and the converter layer has one or more power converters electrically connected to the solar-cell layer and the energy-storage layer for receiving the first electrical energy and the second electrical energy therefrom and outputting a third electrical energy via an output thereof.

A method and a control system using the same for coordinating control of a plurality of wind turbines of a wind farm during a fault in a utility grid to which power is to be delivered via at least one cable of the wind farm. The method includes: opening each of the electrical connections; selecting at least one wind turbine of the plurality of wind turbines according to a criteria where a sum of value for active power supply that is available from the selected at least one generator is equal or above a sum of values for active power consumption that is consumable by the energy storage system of the selected at least one wind turbine, the auxiliary equipment of the selected at least one wind turbine and the substation level auxiliary equipment; activating the selected wind turbine; for the selected wind turbine: electrically connecting the power input of its converter to the power output of its generator, electrically connecting the power output of its converter to the power input of its auxiliary equipment, the power input of its energy storage system and the corresponding cable, and electrically connecting the power input of a substation level auxiliary equipment to the cable which is electrically connected to the selected wind turbine; the activated wind turbine acting as active power supply for the substation level auxiliary equipment. The method and the control system using the same provide an effective and economic way of using the power generated by the wind turbine generator for powering the auxiliary equipment of the wind turbine, charging the energy storage system of the wind turbine and powering the substation level auxiliary equipment, during the wind farm operates in an islanding mode.