KR20130119162A - Direct organic rankine cycle power generation system using solar power - Google Patents

Abstract

PURPOSE: A direct evaporation type organic rankine cycle power generation system is provided to operate a rankine cycle using solar heat as a heat source. CONSTITUTION: A direct evaporation type organic rankine cycle power generation system comprises an evaporator (100), a turbine generator (200), a condenser (300), and a pump (500). The evaporator evaporates working fluid with heat received from an external heat source. The turbine generator stores the working fluid received from the evaporator. The condenser condenses the working fluid passing through the turbine generator. The pump returns the working fluid to the evaporator.

Description

Direct organic Rankine cycle power generation system using solar power}

The present invention relates to an organic Rankine cycle power generation system, and to a direct evaporation type organic Rankine cycle power generation system using solar heat, characterized in that the heat source used in the evaporator uses a solar collector.

Typical closed Rankine cycle systems include a boiler or evaporator for evaporating starting fluid, a turbine supplied with steam from a boiler to drive a generator or other load, a condenser for condensing steam exhausted from the turbine, and condensation with an evaporator. Means, such as a pump, for recirculating the fluid which has been pumped. Such a system is shown and described in U.S. Patent No. 3,393,515.

These Rankine cycle systems are typically used to generate power provided to power distribution systems or grids for residential or commercial use. The working fluid used in such a system is usually water, and the turbine is driven by steam.

 In such a system, turbines are designed to operate at relatively high temperatures and pressures and are expensive to manufacture and use.

The heat source for the evaporator can be any type of fossil fuel, such as oil, coal, natural gas or nuclear power.

In addition, due to the need to conserve and more efficiently use the current generation of available energy with the advent of the energy crisis, the Rankine cycle system is lost to the atmosphere and, as such, has more fuel To capture the so-called "waste heat" that had a fatal impact indirectly on the environment.

Application No. 10-2005-7007460, filed with the Korean Intellectual Property Office, has proposed a system using waste heat from a fuel cell.

The direct evaporation type organic Rankine cycle power generation system using solar heat according to the present invention is to provide a direct evaporation type organic Rankine cycle power generation system using solar heat that can operate the Rankine cycle using solar heat as a heat source.

Solar evaporative organic Rankine cycle power generation system according to the present invention is an evaporator for evaporating the working fluid through heat received from an external heat source, a turbine generator for receiving the working fluid from the evaporator, and the operation through the turbine generator In a Rankine cycle power generation system in which a condenser for condensing a fluid and a pump for returning to the evaporator are connected in a continuous flow relationship, heat exchange in the evaporator is performed through a solar collector.

The solar collector is characterized in that it uses any one of a flat plate, a light collector, a vacuum tube collector.

In addition, the working fluid is characterized in that the organic working fluid.

Finally, a preheater is further included between the pump and the evaporator.

The direct evaporative organic Rankine cycle power generation system using solar heat according to the present invention provides a heat source to the evaporator by using a solar heat collecting plate, thereby enabling eco-friendly energy utilization, and using the organic working fluid to lower the efficiency of solar power generation. It has the advantage of being able to drive.

1 is a conceptual diagram illustrating a general Rankine cycle.
Figure 2 is a conceptual diagram showing a direct evaporation organic Rankine cycle power generation system using solar heat according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

Looking at the Rankine cycle used in the present invention in detail, Figure 1 is a conceptual diagram of the Rankine cycle.

As shown in FIG. 1, the Rankine cycle basically includes an evaporator 310, a turbine 320, a generator 330, and a condenser 340.

The evaporator 310 evaporates the working fluid through an external heat source, and rotates the turbine 320 to produce power in the generator. The working fluid passing through the turbine is condensed in the condenser 340 and sent back to the evaporator 310 through the pump 350.

In addition, the cooling water for cooling the working fluid of the Rankine cycle in the condenser 340 is heated to a predetermined temperature or more to be connected to hot water supply facilities such as toilets to enable higher energy utilization.

2 is a conceptual diagram illustrating a Rankine cycle using solar according to a preferred embodiment of the present invention.

As shown in FIG. 2, the direct evaporative organic Rankine cycle power generation system using solar heat according to the present invention includes an evaporator 100 for evaporating a working fluid through heat received from an external heat source, and the working fluid from the evaporator 100. A turbine generator 200 for receiving, a condenser 300 for condensing the working fluid passing through the turbine generator 200, and a pump 500 for returning to the evaporator 100 are continuously connected.

Here, the heat exchange in the evaporator 100 is made through a solar collector, the solar collector uses any one of a flat plate, a light collector, a vacuum tube collector.

In particular, the non-condensing plate type is a black (selective absorption membrane) metal plate with water or air-flow pipes installed on it, covered with tempered glass with an air layer on it, and a heat insulating material under the metal plate. Silver enters a black metal heat collecting tube.

The type, size, etc. of the heat collecting plate used for the heat collector used in the present invention should be determined according to the size of the Rankine cycle used, and a heat collecting plate equipped with a solar tracking module may be used for higher efficiency.

In general, the organic Rankine cycle adopts an indirect evaporator for evaporating hot water or warm oil recovered from waste heat through a heat exchanger, but in the present invention, the organic working fluid is circulated directly to a solar collector to evaporate. To simplify the system and increase efficiency.

In addition, the organic working fluid is used in the present invention because it is necessary to use solar heat corresponding to a relatively low temperature in this Rankine cycle using the organic working fluid. Specifically, it is preferable to use R-245fa having a boiling point of 30 degrees C or less. desirable.

However, the choice of working fluid is preferably determined through the temperature range / thermal efficiency characteristics of the cycle.

In general, the Rankine cycle power generation system converts the axial force generated by the high-pressure steam as it passes through the evaporator to the turbine and converts it into electrical energy, whereas the Organic Rankine Cycle (ORC) does not use water as a working fluid. An organic mixture is used.

Finally, a preheater (not shown) may be further included between the pump 400 and the evaporator 500. The thermal efficiency of the evaporator may be improved by increasing the temperature of the organic working fluid supplied to the evaporator 100 through the preheater.

In addition, a method of storing the cooling water used in the condenser 300 in a separate storage tank 600 and connecting it to a facility for supplying hot water may be adopted.

As described above, the present invention has a main technical idea to provide a direct evaporative organic Rankine cycle power generation system using solar heat, and the embodiment described above with reference to the drawings is only one embodiment, so the true scope of the present invention is provided. Should be determined by the claims.

100: evaporator
110: solar collector
200: turbine generator
300: condenser
400: storage tank
500: pump

Claims (4)

Continuous flow of an evaporator for evaporating the working fluid through heat received from an external heat source, a turbine generator for receiving working fluid from the evaporator, a condenser for condensing the working fluid passed through the turbine generator, and a pump for returning to the evaporator. In a Rankine cycle power generation system connected in a relation,
The heat exchange in the evaporator is a direct evaporation type organic Rankine cycle power generation system using solar heat, characterized in that made through a solar collector.
The method of claim 1,
The solar collector includes:
Direct evaporative organic Rankine cycle power generation system using solar heat, characterized in that using any one of a flat plate, a light collector, a vacuum tube collector.
The method of claim 1,
The working fluid,
Solar evaporative organic Rankine cycle power generation system characterized by an organic working fluid.
The method of claim 1,
Direct evaporative organic Rankine cycle power generation system using solar heat, characterized in that further comprises a preheater between the pump and the evaporator.

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