Disclosed is a combined energy supply system of wind, photovoltaic, solar thermal power and medium-based heat storage, capable of storing the energy which would have been “abandoned wind” and “abandoned light” temporarily in the form of heat by medium-based energy storage. Heat is released during peaks in the power grid to generate power, which serves the function of adjusting the peaks in the power grid. With the medium-based energy storage, unstable photovoltaic electric energy can be converted into stable heat energy output when a relatively large fluctuation occurs in wind and photovoltaic power generation, and therefore the stable supply of energy sources can be guaranteed efficiently. Furthermore, a second heater can also be used for heating the low-temperature media outputted by a first medium tank (100), or a third heater is used for heating water in a heat exchanger (500), and therefore the energy storage of the medium or the heating efficiency of the heat exchanger is improved.

A transportable, deployable power system comprising a hybrid power box containing solar panels, wind turbine(s), fuel cells, fuel reformers, and other energy sources. The system could also include waste water and potable water inlet and outlet ports for water treatment. It will also allow for shelf mounted solar and wind turbine installation for disaster recovery, backup power for telecommunication, military power, Homeland Security power, off grid homes and water and wastewater packaging domestically and internationally. The present invention is ideal for any situation requiring immediate power and/or water treatment, such as remote construction sites or in emergency situations. The hybrid power box can be mounted to a standard shipping truck, train, or ship, and transported over land to the desired location.

A system for extracting work from the expansion of a working fluid includes a vessel having at least a portion of the working fluid, a heating device in thermal communication with the portion of the working fluid in the vessel for heating the portion of the working fluid in the vessel and expanding the working fluid, and a conversion tool. The conversion tool is in fluid communication with the vessel and is configured to receive working fluid from the vessel when the working fluid expands. The conversion tool is further configured to extract work from the expanded working fluid.

A solar pumping system and a method for operating solar pumping system, the system comprises plurality of solar modules, at least one VFD comprising at least one convertor, at least one switching device connected to the solar module and the VFD and at least one AC motor connected to the output supply of the VFD. The switching device controls the supply of DC power transmitted to the VFD based on the input received from a controller of the VFD by varying the output voltage in accordance with the load requirement of the AC motor. The method comprising the steps of controlling the supply of voltage output of solar modules through the switching device as to provide adequate power to the solar pump based on the requirement of the motor in order to avoid tripping by increasing or decreasing the voltage output of the solar modules to a predetermined fraction of voltage for a predetermined fraction of time.

Disclosed is an energy supply system using hot waste water that controls a supply of energy required according to a situation of agricultural facilities. The energy supply system includes a hot waste water pipe connecting a power plant and at least one facility so as to supply thermal energy to the at least one facility through hot waste water discharged from the power plant; a ground heat exchanger buried under a ground and connected to the at least one facility so as to supply geothermal energy to the at least one facility; at least one solar cell module disposed in the at least one facility and supplying electric energy to the at least one facility; and a server configured to individually control the thermal energy, the geothermal energy and the electrical energy supplied to the at least one facility according to an environmental state of the at least one facility.

A method of operating a solar energy plant and a solar plant are disclosed. Thermal energy produced in the plant is used to heat a first volume of water and charge a hot store in the plant. Electricity produced in the plant operates a heat engine or other device, such as a refrigeration unit, to extract heat and consequently cool a second volume of water and charge a cold store. As desired, energy is transferred from the hot store to a heat engine and energy is transferred from the heat engine to the cold store to operate the heat engine to produce power in the plant.

An apparatus including a photovoltaic panel; a first fluid container thermally attached to a bottom of the photovoltaic panel; and a temperature sensor for sensing temperature of a fluid inside the first fluid container is part of a sub-system for a power generation system using solar energy. The sub-system further includes a heating assembly, including a second fluid container, a second temperature sensor, and an electrical heating element. The second fluid container is fluidically connected to the first fluid container. The heating element is configured to heat the pre-heated fluid in the second fluid container to its vapor state. The sub-system additionally includes a turbine generator fluidically connected to the second fluid container to generate AC power from the vapor. A system employing a plurality of sub-systems and a method for using the sub-systems are also provided.

Methods, systems, and devices are provided for thermal enhancement. Thermal enhancement may include absorbing heat from one or more devices. In some cases, this may improve the efficiency of the one or more devices. In general, a phase transition may be induced in a storage material. The storage material may be combined with a freeze point suppressant in order to reduce its melt point. The mixture may be used to boost the performance of device, such as an electrical generator, a heat engine, a refrigerator, and/or a freezer. The freeze point suppressant and storage material may be separated. By delaying the periods between each stage by prescribed amounts, the methods, systems, and devices may be able to shift the availability of electricity to the user and/or otherwise boost a device at different times in some cases.

Systems and methods of a solar light and thermal energy collector assembly are disclosed. The system includes a central pole mounted vertically on a base, a support structure having concentric racks extending radially from the central pole, the racks positioned at different vertical distances along the central pole and having a configuration that supports the solar panels, wherein each rack does not impede the passage of air and light through the rack, at least one solar panel affixed to each rack, each solar panel including a curved reflector formed at the radial edge of the solar panel, an airflow turbine disposed at the top of the central pole, the central pole having one or more apertures and ducts to direct heated air toward the airflow turbine; and electrical conductors for supplying

Systems and methods of a solar light and thermal energy collector assembly are disclosed. The system includes a central pole mounted vertically on a base, a support structure having concentric racks extending radially from the central pole, the racks positioned at different vertical distances along the central pole and having a configuration that supports the solar panels, wherein each rack does not impede the passage of air and light through the rack, at least one solar panel affixed to each rack, each solar panel including a curved reflector formed at the radial edge of the solar panel, an airflow turbine disposed at the top of the central pole, the central pole having one or more apertures and ducts to direct heated air toward the airflow turbine; and electrical conductors for supplying electricity derived from photovoltaic cells in each solar panel and from the electricity-generating turbine.