The element on which solar radiation is concentrated, specifically, a vacuum tube, remain static at all times with respect to the movements that a parabolic reflective surface may make according to the direction of solar radiation, such that inlet and outlet pipes of the vacuum tube do not need to be articulated, which facilitates the installation and insulation thereof and reduces production costs. The parabolic reflective surface can pivot 360 with respect to the vacuum tube without interfering with the pipes, allowing an active safety system for protecting against strong winds and preventing overheating to be produced, in addition to allowing the surfaces to be cleaned by means of nozzles spray pressurized water. The collector also includes passive safety means against strong winds.

A distributed electricity grid that includes solar powered energy producing facilities, substations, and electricity transmission lines. The solar powered energy producing facilities are in electrical connection with the substations through one or more of the electricity transmission lines. Each solar powered energy producing facility includes an electricity generating plant having a turbine and a dynamo that are mechanically connected, and a parabolic trough solar power plant that contains a glass pipe in a parabolic trough, a helical pipe enclosed within the glass pipe configured to hold water, a sand filled pipe surrounded by the helical pipe, an inner pipe centered within the sand filled pipe, and a solenoid valve connected between the helical pipe and the inner pipe.

An electricity generation system including an electricity generating plant with a turbine, a dynamo and a solar power plant having an absorber tube for a parabolic trough solar power plant that includes a glass pipe which extends from a first end to a second end of a parabolic trough, a helical pipe enclosed within the glass pipe. A sand filled pipe is surrounded by the helical pipe. An inner pipe extends from the first end to the second end of the parabolic trough along the central axis of the glass pipe. A solenoid valve is configured to block the water from entering the inner pipe when the solenoid valve is closed and release the water to the inner pipe when the solenoid valve is opened. The turbine is fluidly connected to the solar power plant to receive the steam and produce mechanical energy which rotates the dynamo.

A solar heating system for tanked asphalt is provided, which belongs to the field of asphalt heating. A solar concentrating collector of the system heats heat transfer oil in a vacuum glass tube by using focused solar energy. The heat transfer oil is transferred to an asphalt heating tank for heating asphalt. Meanwhile, a heat storage tank stores excess heat. The heat storage tank releases heat when solar energy is lacking, and energy may be continuously supplied to the asphalt heating tank by using a heating device in the heat storage tank to heat the asphalt. The solar heating system for tanked asphalt can save fossil energy sources and improve energy use efficiency.