WO2015088301A1 - High-performance thermal sensor-transmitter for solar water heater - Google Patents

Abstract

The invention concerns a thermal sensor-transmitter system for solar water heaters, with optimum capture of the radiated energy by a parabola, a large amount of turbulence being present in the capture region owing to the use of a heat exchanger (radiation - convection), in order to render uniform the temperature in the heat concentration region. Water is circulated with the aid of a circulation pump having low consumption owing to a low head loss.

Description

 DESCRIPTION

In the current state of the art, the capture of thermal energy from an optical concentration system, which achieves high temperatures, is achieved by an intermediate fluid (coolant) whose boiling point is high, thus avoiding the formation of steam and a rise in pressure in the installation. It is used for this thermal oils and eutectic salts. These heat transfer fluids yield their calories in sinks or evaporators, according to the use that will be made of the energy obtained by the solar collection. These intermediary fluids impose rather complex technical systems: special pumps, heating of the pipes, special heat exchangers etc.

 These devices have the defect of significant pressure losses, which reduces the performance report.

The ultimate goal of this solar collector object of this invention is to exclude thermal transfer of high technologies. We must therefore use water for the transfer of thermal energy.

 As the focal point reaches temperatures of 700 ° C we have created an entirely new thermal sensing device, which allows us to remove the intermediate transfer fluid (thermal oil) and transfer the calories directly to the primary fluid (water ), in the liquid state. This device is not placed in the optical focus, but one in front of it to disperse the thermal energy on a surface.

 The calories are then transferred to the water through a heat exchanger consisting of a set of copper tubes with fins, located in the domestic water tank.

The sensing device (absorbent element or receiver) of the thermal radiation from an optical concentrator focusing the solar radiation is a heat exchange system: radiation - convection. This device also serves as a heat exchanger with the liquid peddler. This device will be placed at a point a few centimeters before the optical focus of the mirror, in order to receive on its surface the total reflection of the optical concentrator, which point will receive all the thermal radiation but at a lower temperature, which will prevent the evaporation of the liquid.

 An adjustable fixing system allows to choose an anchorage point of the device between the mirror and the optical focus of the latter, in order to choose the best temperature range. FIG. 2 represents this exchanger in the shape of a rectangular box. It consists of two brass plates, one of which is blackened O to get closer to the thermal absorption of the black body. A space of 7 mm separates them from one another forming a chamber for the passage of water. A device for introducing water Θ allows regular diffusion on the exchange surface. The speed is calculated to have a Reynold number larger than 2500 (turbulent). A glass Θ glass treated avoids heat loss and creates a greenhouse effect. A box O encloses the absorbent element which is insulated from the outside by a glass wool plate Θ

 Figure 1 shows the overall operation of the system where a solar tracker (1) directs the mirror (2) in the direction of the sun. The mirror reflects and concentrates the sun's rays in a square receiver (3). An expansion tank (4) ensures the safety of the system. The heated water carries out a heat exchange in the tank (5). Then the water is mixed for use (6).

Claims

The embodiments of the invention, for which an exclusive right of ownership or privilege is claimed, are as follows: 1- Sensor-thermal transmitter system for solar water heating, characterized by the use of water as a peddler liquid.  2- sensor system-heat transmitter for solar water heater according to claim 1 characterized by the use of a parabolic mirror which concentrates the radiation of the sun on an exchanger placed in front of its focal point.  3- sensor system-thermal transmitter for solar water heater according to claims 1 and 2 characterized by an exchanger composed of a box (Figure 1) rectangular. The case consists of two brass plates, one of which is blackened O. A space of approximately 7 mm separates them from one another forming a chamber for the passage of water with turbulence. A glass pane of treated glass is placed in front of the blackened copper plate. A box O encloses the absorbent element which is isolated from the outside by a plate of glass wool Θ.