The present disclosure provides a cooling system facilitating thermal management in a solar photovoltaic (PV) module. The cooling system includes an exhaust fan, operatively coupled to an outlet of a central air conditioning module, the outlet carries waste air from the central air conditioning module. A supporting structure is placed at a predefined distance in front of the exhaust fan to support one or more solar panels. The one or more solar panels are tilted at a predefined angle and a predefined azimuth configured to provide maximum surface area of the back units of the one or more solar panels. The exhaust fan is further configured to direct the waste air and surrounding air towards the back units of the one or more solar panels at a predefined temperature.

A method of improving natural gas recovery from a subterranean hydrocarbon reservoir includes at least one renewable energy source that is electrically coupled with a heat conducting element. The heat conducting element is positioned in a perforated section of a wellbore that traverses into the subterranean hydrocarbon reservoir. A temperature of the subterranean hydrocarbon reservoir is maintained above a cricondentherm temperature so that liquid condensation may be prevented at a final production time. In order to maintain the temperature within a required temperature range, an internal temperature, an internal pressure, and a set of reservoir properties are monitored and then utilized to plot a phase diagram that can be used to detect liquid condensation. If liquid condensation is detected, an electrical output of the renewable energy source is adjusted in order to control the temperature of the subterranean hydrocarbon reservoir at a producing end of a production tubing.

A method of improving natural gas recovery from a subterranean hydrocarbon reservoir includes at least one renewable energy source that is electrically coupled with a heat conducting element. The heat conducting element is positioned in a perforated section of a wellbore that traverses into the subterranean hydrocarbon reservoir. A temperature of the subterranean hydrocarbon reservoir is maintained above a cricondentherm temperature so that liquid condensation may be prevented at a final production time. In order to maintain the temperature within a required temperature range, an internal temperature, an internal pressure, and a set of reservoir properties are monitored and then utilized to plot a phase diagram that can be used to detect liquid condensation. If liquid condensation is detected, an electrical output of the renewable energy source is adjusted in order to control the temperature of the subterranean hydrocarbon reservoir at a producing end of a production tubing.

An apparatus includes a rotating pole, a first set of photovoltaic modules; and a second set of photovoltaic modules. At least one of the first set of photovoltaic modules is perpendicular to at least one of the second set of photovoltaic modules.

An apparatus includes a rotating pole, a first set of photovoltaic modules; and a second set of photovoltaic modules. At least one of the first set of photovoltaic modules is perpendicular to at least one of the second set of photovoltaic modules.

Power generation systems comprising modular blades and a secondary power source, and methods of manufacturing the same employing additive manufacturing. Various features of the system are described, including a rotor, spoke and support base. A slip gear assembly is described to coordinate the wiring of the secondary power sources.

Power generation systems comprising modular blades and a secondary power source, and methods of manufacturing the same employing additive manufacturing. Various features of the system are described, including a rotor, spoke and support base. A slip gear assembly is described to coordinate the wiring of the secondary power sources.

Power generation devices and methods for use with toilets is disclosed. A number of power generation devices are provided that can be used in combination to power various features in a toilet which will be particularly useful for portable toilets that are off the grid. The power generation devices and methods include, for example, using a cell battery inside a toilet water source, a wind turbine, solar panels, and piezoelectricity. The features include, for example, lighting up the toilet with light-emitting diodes (LEDs) to make it easier for users to find the toilet, an audio/video setup for entertainment, and a toilet status light indicator to let the next user know when the toilet paper is out.

Power generation devices and methods for use with toilets is disclosed. A number of power generation devices are provided that can be used in combination to power various features in a toilet which will be particularly useful for portable toilets that are off the grid. The power generation devices and methods include, for example, using a cell battery inside a toilet water source, a wind turbine, solar panels, and piezoelectricity. The features include, for example, lighting up the toilet with light-emitting diodes (LEDs) to make it easier for users to find the toilet, an audio/video setup for entertainment, and a toilet status light indicator to let the next user know when the toilet paper is out.

The present invention envisages a solar paneled windmill assembly(100). The windmill assembly comprises a plurality of solar panels(120), a tower(105), a tilting mechanism, a nacelle(110), a plurality of rotary blades(115) and a plurality of sensors. The plurality of solar panels(120) is configured to convert solar energy into electrical energy. The tower(105) having a plurality of facets is configured to facilitate mounting of the plurality of solar panels(120). The tilting mechanism is coupled to a top portion of the tower(105) and is configured to tilt a nacelle(110), mounted on the tilting mechanism, along a vertical axis of the tower(105). The plurality of rotary blades(115) is coupled to the nacelle(110). A control unit is disposed within the nacelle(110) and is configured to actuate the tilting mechanism. A generation unit disposed within the nacelle(110), is configured to convert wind induced rotational motion of the rotary blades(115) into the electrical energy.