PL247018B1 - A drive device for an electric generator powered by renewable thermal energy of water from geothermal sources - Google Patents

Abstract

The subject of the application is a drive device for an electric generator powered by renewable thermal energy of water from geothermal sources and a power plant powered by renewable thermal energy of water from geothermal sources. The drive device for a current generator for obtaining electric energy, powered by renewable thermal energy of water from geothermal sources is characterized in that it contains at least two heat exchangers (1), in the body (2) of which coils (3) of the first circuit - the supply circuit, with separate supply of hot water and cold water are located, and the chamber (4) of the body (2) connected to the second circuit - the working circuit contains an expansion fluid supplied to at least two rotary hydraulic actuators (10), with pistons (11) and piston rods (12) with opposite directions of movement, equipped with a toothed bar cooperating with a toothed wheel bearing on the driving shaft and connected to a one-way clutch through which the shaft of the current generator is driven.

Description

Description of the invention

The subject of the invention is a drive device for an electric generator powered by renewable thermal energy of water from geothermal sources or waste water from production processes. In addition, the subject of the invention is a power plant powered by renewable thermal energy of water from geothermal sources or waste water from production processes.

Energy accumulated in geothermal water resources is one of the sources of renewable energy. It can be used directly for heating or for other utility purposes, but it can also be used indirectly to obtain electricity. In the latter case, electricity is produced by electric generators driven by steam turbines. Steam is obtained by changing the state of aggregation of geothermal water, then it is used to drive turbines and then after use it can be condensed back and recycled in the form of water, used for other purposes or discharged as waste.

Another well-known solution is the use of geothermal water in the intake circuit of heat exchangers, where heat energy is exchanged and water is heated in the working circuit, where this working water is converted into steam. Then, as indicated above, steam is the driving factor for steam turbines coupled with electric generators.

From the patent description US 5 899 067 a thermohydraulic engine is known that uses the phenomenon of expansion and contraction of the volume of the working fluid under the influence of a temperature change, without a phase change of this fluid. In this solution the working fluid is contained in a tank connected by a channel to the cylinder, in which a piston is slidably mounted. The piston is placed in the internal space of the cylinder. The working fluid tank, the internal space of the cylinder and the piston define a closed space filled with the working fluid. The engine also includes means for transferring heat and removing heat from the working fluid, thereby causing the working fluid to alternately expand and contract without changing to another phase. The piston moves in response to the expansion and contraction of the working fluid. The temperature of the working fluid under the influence of said means for transferring and removing heat changes from the upper range of about 48°-60°C to the lower range of about 21°-29°C or in another variant from the higher range of about 26°-93°C to the lower range of about 1°-60°C. The piston is connected to a connecting rod that works with the crankshaft. The crankshaft is an element of the mechanical drive system that causes rotational motion.

The aim of the invention is to introduce a new type of turbine drive system and, through it, an electric current generator into the method of using hot geothermal water without changing the state of matter of water into steam. The technical problem to be solved concerns the conversion of the reciprocating motion from the thermohydraulic unit into rotary motion, eliminating the piston-connecting rod system.

According to the invention, in the chain of conversion of thermal energy into electrical energy, the phenomena of thermal expansion and contraction of liquids are used, i.e. changes in the volume of the used working intermediate medium under the influence of temperature changes, in alternating cycles.

The intermediate working medium is selected from among liquids exhibiting a high coefficient of volumetric expansion and at the same time the possibility of practical industrial use.

The essence of the solution according to the invention consists in the fact that the device contains at least two heat exchangers, in the body of which coils of the first - supply circuit are located, with separate supply of hot water and cold water, while the body chamber connected to the second - working circuit contains expansion fluid supplied to at least two rotary hydraulic actuators, with pistons and piston rods with opposite directions of movement.

The actuators are equipped with working pistons and piston rods with a toothed rack cooperating with a gear wheel mounted on the drive shaft and connected to a one-way clutch through which the current generator shaft is driven.

The heat exchanger has a cover with a hot water supply through a valve and cold water through another valve. The heat exchanger body has a filling and venting connector and a second-working circuit connector.

In the power plant system, the generator shaft has a gear that increases its speed and clutches. The drive shaft also has supports.

In the power plant system, the number of hydraulic actuators and their corresponding heat exchangers is multiplied. The heat exchanger connected to the hydraulic actuator can be made in the form of a battery made up of several exchangers connected in parallel.

The expanding and contracting working fluid is preferably oil or alcohol. J t t L 4 4 Ł i J J

The advantage of the solution according to the invention is the introduction of a new system that converts the reciprocating motion of the piston with the piston rod, obtained as a result of cyclic alternating expansion and contraction of the working fluid under the influence of hot geothermal water supply, into rotary motion used to drive a current generator. The introduction of a new motion converter facilitates the exploitation of renewable energy sources.

The subject of the invention is shown schematically in an embodiment in the attached drawings, in which:

Figure 1 shows a tubular, high-pressure heat exchanger connected by a hydraulic line to a rotary hydraulic actuator, Figure 2 shows an enlarged detail of the rack, pinion and one-way clutch assembly, Figure 3 shows the complete power plant system.

In the solution according to the invention, water from renewable energy sources is used, namely hot water from thermal springs or post-process waste water and cold water from rivers or other water bodies. The phenomenon of thermal expansion and contraction of the working fluid volume is used to generate the rotational movement of the generator turbine.

According to the invention, hot geothermal water, at a temperature of 70°C to 100°C, is supplied in a first circuit to the heat exchanger, alternately with cold water from natural sources, at a temperature of 5°C to 20°C, causing an alternate cyclical phenomenon of expansion and contraction of the working fluid in the second working circuit of the heat exchanger.

Then the working fluid, which cyclically changes its volume, is fed to a pair of hydraulic actuators with pistons and piston rods with opposite directions of movement, causing their rectilinear movement. These actuators cooperate with a mechanism for changing, by means of a toothed rack, a gear wheel and a one-way clutch, the reciprocating movement of the piston rods of the actuators into a rotary movement, which is then transferred to the drive shaft of the electric current generator. The alternating operation of the actuators ensures the continuity of rotation in the same direction.

As shown in Fig. 1, the driving device of the current generator comprises a heat exchanger 1, in the cylindrical body 2 of which there are arranged coils 3 of the first circuit - the supply circuit, with the supply of hot water and cold water. The chamber 4 of the body 1 connected to the second circuit - the working circuit contains a working expansion liquid, preferably oil or alcohol.

The heat exchanger 1 has a cover 5 with a hot water supply via valve 6 and cold water supply via valve 7. The heat exchanger body 2 has a filling and venting connector 8 and an outlet connector 9 of the second-working circuit.

The working fluid is supplied to at least two rotary hydraulic actuators 10, equipped with working pistons 11 and piston rods 12, working alternately. The other ends of the piston rods 12 are equipped with run-out pistons 13 sealing the space filled with lubricating oil.

As shown in Fig. 2, the piston rods are equipped with a toothed bar 14 cooperating with a toothed wheel 15 mounted on the drive shaft 16 and connected to a one-way clutch 17 via which the shaft 18 of the generator 19 is driven.

As shown in Fig. 3, in the power plant assembly, the shaft 18 of the generator 19 has a gear unit 20 to increase its speed and clutches 21. In the power plant assembly, the drive shaft 16 has supports 22 and clutches 23.

In the power plant set, the number of hydraulic actuators and their corresponding heat exchangers is multiplied. The heat exchanger connected to the hydraulic actuator can be made in the form of a battery made of several exchangers connected in parallel.

The operation of the power plant is as follows. Hydraulic actuators 10 operate alternately - the movement of pistons 11 to the right (working movement) is caused by the thermal expansion pressure of the heated expansion fluid. This causes the rotation of the gear wheel 15 connected to the drive shaft 16 via a one-way clutch 17.

The movement of the pistons 11 to the left (idle return movement) is caused by the contraction of the working fluid due to the decrease in its temperature and due to the presence of the one-way clutch 17 it does not impart any rotary motion to the drive shaft 16.

The alternation of hot and cold water supply is regulated by water valves 6, 7 installed on each heat exchanger 1.

PL 247018 Β1

The torque of the drive shaft 6 of the actuators 10 is transmitted by means of a clutch 21 to the speed increasing gear unit 20 and to the shaft 18 of the current generator.

The alternating operation of the hydraulic actuators (one working movement, the other idle retraction movement) is ensured by the power plant control system.

The expanding and contracting working fluid is oil or alcohol. The selection of the working fluid is indicated in the table below.

Table 1

Coefficients of volumetric expansion of liquids beta [10-6/K/] acetone alcohol petrol kerosene mineral oil brake fluid glycerine windshield washer fluid (borygo)

1487

1200

950

900

750/0.075%/1°C

750

500

500

Claims (8)

1. A driving device for a current generator for obtaining electric energy, driven by renewable thermal energy of water from geothermal sources or waste water from production processes, using the thermohydraulic phenomenon of change in the volume of the working medium under the influence of a change in water temperature, with alternating cyclic expansion and contraction of the volume of the working medium, characterized in that it comprises at least two heat exchangers (1), in the body (2) of which coils (3) of the first circuit - the supply circuit - are located, with separate supply of hot water and cold water, while the chamber (4) of the body (2) connected to the second circuit - the working circuit contains an expansion fluid supplied to at least two rotary hydraulic actuators (10), with pistons (11) and piston rods (12) with opposite directions of movement, equipped with a toothed bar (14) cooperating with a toothed wheel (15) bearing on the driving shaft (16) and connected to a clutch one-way (17) through which the shaft (18) of the current generator (19) is driven. 2. A driving device for a current generator according to claim 1, characterized in that the heat exchanger has a cover (5) with a supply of hot water via a valve (6) and cold water via a valve (7). 3. A driving device for a current generator according to claim 1, characterized in that the heat exchanger body (2) has a filling and venting connector (8) and an outlet connector (9) of the working circuit. 4. A driving device for a current generator according to claim 1, characterized in that in the power plant arrangement the shaft (18) of the generator (19) has a gear (20) increasing its speed and clutches (21). 5. A driving device for a current generator according to claim 1, characterized in that in the power plant arrangement the driving shaft (16) has supports (22). 6. A driving device for a current generator according to claim 1, characterized in that the number of hydraulic actuators (10) and their corresponding heat exchangers (1) in the power plant system is multiplied. 7. A driving device for a current generator according to claim 1, characterized in that the heat exchanger (1) connected to the hydraulic actuator (10) is made in the form of a battery composed of several exchangers connected in parallel. 8. A driving device for a current generator according to claim 1, characterized in that the expanding and contracting working fluid is oil or alcohol.