阅读说明：本技术 循环生态电机 (Circulating ecological motor ) 是由 张玉华 于 2018-05-28 设计创作，主要内容包括：本发明涉及一种循环生态电机。它由发电系统、多功能用户系统及电脑控制系统组成。发电系统使钠与水的化学反应产生氢离子和氢氧化钠。氢离子经磁流体导气管通过多个磁场,切割磁力线发电；在温度降低形成氢气后进入氢气罐。氢气罐内的氢气达到贮存线后,电脑控制系统启动氢气发电机发电。如氢气贮存量超出时,电脑控制系统会自动停止钠水反应釜的工作。如钠水反应釜内的钠接近用完时,电脑控制系统会启动另一套钠水反应釜工作,并启动充电器为停止工作的钠水反应釜内的氢氧化钠充电,使之还原为钠。多功能用户系统可以排放纯净水、热水、氢气。电脑控制系统控制发电系统、多功能用户系统,还可以网络遥控。只要补充水,本装置会循环持续发电。(The invention relates to a circulating ecological motor. The system consists of a power generation system, a multifunctional user system and a computer control system. The power generation system chemically reacts sodium with water to produce hydrogen ions and sodium hydroxide. Hydrogen ions pass through a plurality of magnetic fields through the magnetic fluid gas-guide tube to cut magnetic lines of force for power generation; and enters the hydrogen tank after the temperature is reduced to form hydrogen. After the hydrogen in the hydrogen tank reaches the storage line, the computer control system starts the hydrogen generator to generate electricity. If the hydrogen storage capacity exceeds, the computer control system can automatically stop the operation of the sodium water reaction kettle. If the sodium in the sodium water reaction kettle is nearly used up, the computer control system starts another set of sodium water reaction kettle to work, and starts the charger to charge the sodium hydroxide in the sodium water reaction kettle which stops working, so that the sodium hydroxide is reduced into sodium. The multifunctional user system can discharge pure water, hot water and hydrogen. The computer control system controls the power generation system and the multifunctional user system, and can also be remotely controlled by a network. The device can generate power continuously in a circulating mode as long as water is supplemented.)

1. A circulating ecological motor comprises a power generation system, a multifunctional user system and a computer control system. The method is characterized in that the cyclic continuous power generation can be realized through a special chemical reaction control process of the fuel, a part of the maximum output capacity can be utilized to efficiently work, the automatic control of a computer can be realized, various functions of automatically supplying hot water, purified water, hydrogen, an air conditioner and the like can be realized, and the emission can meet the requirement of ecological cycle.

2. The recycling ecological machine of claim 1, wherein the apparatus can be recycled to continuously generate electricity through a special chemical reaction control process for fuel. And (3) the power generation system carries out chemical reaction on sodium in the sodium water reaction kettle (14) and water in the water tank (2) to generate hydrogen ions and sodium hydroxide. The hydrogen ions rapidly pass through the magnetic fluid channel (4) under the state of high temperature and high pressure, and cut magnetic lines of force to generate electricity through a multiple magnetic field formed by the magnetic steel N pole (3) and the magnetic steel S pole (5).

3. The recycling ecological motor of claim 2, wherein efficient operation using a portion of the maximum output capacity is achieved. The main fuel of the present device is water (and air). The device can generate continuous chemical reaction to generate electric energy only by using a small amount of water (and air). Can be operated with a fraction of the maximum output capacity of the device without significantly reducing its efficiency. This is not possible with typical generators.

4. The recycling ecological machine of claim 3, wherein computer control and dial-up remote control can be implemented. The computer control system consists of (21) microcontroller, (24) keyboard, (26) I/O interface board, (22) LCD, (31) microcomputer communication interface, (25) microcomputer socket, (27) microcomputer user controller, (28) photoelectric sensor, (29) temperature sensor, (30) temperature controller and (23) power supply. The micro controller comprising the monochip computer and its peripheral elements is connected to the keyboard and the I/O interface board. (21) The microcontroller controls: induction control of a magnetohydrodynamic power generation system, a hydrogen power generation system, a multifunctional user system and the like, induction control of various smoke-sensitive, temperature-sensitive and gas-sensitive control points, alarm control of abnormal conditions, and automatic control of an automatic dialing system for immediately sending alarms and short messages. When abnormal conditions occur, the mobile phone can be automatically regulated and shut down according to a software program, and an alarm short message is timely broadcast to the host mobile phone.

5. The circulating ecological motor of claim 4, wherein various functions such as automatic supply of hot water, purified water, hydrogen gas, air conditioning, etc. can be implemented. The discharge of the circulating ecological motor is purified water and hydrogen. The circulating ecological motor can generate heat of nearly 1000 ℃ due to magnetohydrodynamic power generation, and after water is heated by the (4) magnetofluid pipeline shell and the (13) hot water sleeve pipe, the water is supplied to terminal equipment such as a water heater, an air conditioner and the like through a hot water circulating system. The hydrogen discharged from the magnetic fluid channel (4) is directly stored in a hydrogen tank (6) through a pipeline, and can be conveyed from the hydrogen tank (6) to a hydrogen power generation system (7) for power generation. The large-scale circulating ecological motor can be also provided with a liquid hydrogen device or a compound hydrogen storage device which is specially used for pressurizing and cooling, and liquid hydrogen or compound hydrogen is supplied to the outside. (8) The purified water stored in the purified water tank can be directly drunk.

6. The recycling ecological machine of claim 5, wherein emissions meeting ecological recycling requirements can be achieved. The discharge of the circulating ecological motor is purified water and hydrogen, and the fuel used is water (and air). The emissions and fuel are pollution-free substances, and the fuel is rich in reserves, high in quality and low in price. It not only meets the requirement of environmental protection, but also provides a power source with no pollution, no noise, low cost and high efficiency for people.

Technical Field

The circular ecological motor is a brand-new power generation device which converts chemical energy magnetic fluid cutting magnetic lines into electric energy by utilizing the electrochemical reaction of sodium and water through magnetic fluid power generation and hydrogen power generation. The system initiates cyclic continuous power generation, can work efficiently by utilizing a part of the maximum output capacity, and automatically supplies hot water, purified water, an air conditioner and hydrogen under the control of a computer; can also desalt seawater and purify sewage at an atomic level. The circular ecological motor has the characteristics of no pollution, no noise, low cost and high efficiency. Its fuel is water (and air), and its discharge is pure water and hydrogen, so that it completely meets the requirements of ecological circulation. Water and air are the most abundant, inexhaustible, cheap and high-quality substances on the earth. The hydrogen can be used for producing liquid hydrogen and combined hydrogen, can replace petroleum products and can be supplied to various gas power equipment. The purified water can be directly drunk; can also be circulated in a closed loop and used as a recycled fuel to meet the special requirements in the fields of spaceflight, navigation and military. The circulating hot water generated by the magnetofluid power generation can be used for heating, air conditioning and bathing water. The most important benefit it produces is the zero-emission environmental benefit.

And (2) the power generation system of the circulating ecological motor performs chemical reaction on sodium in the sodium water reaction kettle (14) and water in the water tank (2) to generate hydrogen ions and sodium hydroxide. The hydrogen ions rapidly pass through the magnetic fluid channel (4) under the state of high temperature and high pressure, and cut magnetic lines of force to generate electricity through a multiple magnetic field formed by the magnetic steel N pole (3) and the magnetic steel S pole (5).

The main fuel for the circulating ecological motor is water (and air). The device can generate continuous chemical reaction to generate electric energy only by using a small amount of water (and air). A portion of the maximum output capacity of the device can be utilized to operate efficiently without significantly reducing its efficiency. This is not possible with typical generators.

The discharge of the circulating ecological motor is purified water and hydrogen. The circulation ecological motor can generate heat of nearly 1000 ℃ due to hydrogen ion magnetohydrodynamic power generation, and after water is heated by the hot water sleeve (13) of the magnetofluid pipeline shell (4), the water is supplied to terminal equipment such as a water heater, an air conditioner and the like through a hot water circulation system. The hydrogen discharged from the magnetic fluid channel (4) is directly stored in a hydrogen tank (6) through a pipeline, and can be conveyed from the hydrogen tank (6) to a hydrogen generator (7) for power generation. The large-scale circulating ecological motor can be also provided with a liquid hydrogen device or a compound hydrogen storage device which is specially used for pressurizing and cooling, and liquid hydrogen or compound hydrogen is supplied to the outside. (8) The purified water stored in the purified water tank can be directly drunk.

The circulating ecological motor sends out alternating current, and different power consumption requirements can be met through the voltage stabilizing converter. The circular ecological motor has excellent efficiency when used for various electric loads. Its energy conversion rate is 100%. Calculated according to the unit energy conversion rate, the power can be supplied more than any current power generation system. The efficiency of the circulating ecological motor can be the same as that of a large-scale power plant, and the generating capacity can reach more than 10 thousands KW/hour. The large-scale circulating ecological motor can not only ensure the electricity consumption of one family, one factory and one residential area, but also solve the power problem for the whole city. Perhaps more importantly, the circular ecological motor can work only by utilizing a part of the maximum output capacity of the circular ecological motor without obviously reducing the working efficiency. It is precisely this that is not possible with conventional generators.

The circulating ecological motor can be widely applied to various social fields, such as large, medium and small generators, various engines, and various multifunctional heating, air-conditioning, hot water, gas and water purification machines which can be replaced. It can desalinate seawater in coastal areas, purify sewage in polluted water sources, and produce weak alkaline purified water to prevent and treat DNA genetic diseases. The hydrogen as a byproduct can replace petroleum products and be supplied to various gas power equipment. The manufacturing cost and the power generation cost of the recycling ecological motor are obviously lower than those of various existing power generation devices.

Background

The power generation process of a common power plant (cutting magnetic lines for power generation such as thermal power, thermoelectricity and nuclear power) is as follows: heat is generated by burning fossil fuel, the heat energy is converted into mechanical motion, the heat engine drives a generator, and the running generator cuts magnetic lines of force through the running of a rotor to generate electricity. Their energy conversion rate does not exceed 35%. The power generation process of a nuclear power plant is almost the same, except that its heat is generated by nuclear reactions, rather than by burning coal and oil. The conversion of thermal energy to electrical energy is exactly the same as the conventional method. Nuclear power plants have a great risk of nuclear radiation and nuclear pollution. Carbon dioxide and sulfur dioxide released by fossil fuel burning power generation and thermoelectric devices cause serious pollution to the atmosphere and greenhouse effect of the earth, abnormal climate change and frequent weather disasters; furthermore, fossil fuels are subject to practical problems such as depletion of reserves, frequent occurrence of mineral difficulties, and increase in price. Today, humans face unprecedented energy crisis, environmental issues, and water resource issues.

Hydroelectric power stations, wind power stations and geothermal power stations drive generators by means of water power, wind power and heat power, and the running generators generate electricity by cutting magnetic lines. They have in common that they rely on mechanical energy to rotate the rotor of the generator, inevitably producing noise and consuming energy. The construction cost and the use cost of the hydropower station, the wind power station and the geothermal power station are expensive, and frequent maintenance is needed. The geothermal steam contains traces of ammonia and hydrogen sulfide which must be removed before use. Otherwise, the environment is seriously polluted. The use of geothermal steam is neither a fundamental solution to the human need for energy nor eliminates pollution. Water energy, wind energy and geothermal energy are all converted from solar energy, and the utilization of the water energy, the wind energy and the geothermal energy is only complementary to the energy requirement.

The solar cell is a power generation mode which utilizes alkali metals such as rubidium, cesium and the like to generate current by free electrons under sunlight, and has low energy conversion rate and high power generation cost; is mainly used in the aerospace field. A typical method for obtaining solar energy is to heat the solar energy into a suitable working fluid and then use the energy in the heated fluid to generate electricity. The ground solar power station cannot generate electricity at night, so that the solar power station has the defect. The construction of orbital solar power stations in space, using microwaves to deliver electrical energy, while possible, is expensive and not feasible for non-national forces. At present, no method for efficiently utilizing solar energy at low cost exists.

Fuel cells combine fuel (oxyhydrogen) at relatively low temperatures, and the generated electricity is a direct product of the chemical reaction of the combined fuel. Since neither a rotary generator nor a heat engine is used, the energy conversion rate of the fuel cell is almost more than doubled compared with the conventionally designed power generation equipment. A conventional fuel cell is a device that converts chemical energy of hydrogen and oxygen into electrical energy. The greatest feature of this device is that no combustion is involved in the reaction. A fuel cell is essentially a reverse device to water electrolysis. In the process of electrolyzing water, the water is electrolyzed by an external power supply to generate hydrogen and oxygen. In the fuel cell, hydrogen and oxygen chemically react to produce water and release electric energy. A fuel cell is mainly composed of an anode, a cathode, a catalyst, an electrolyte, and an external circuit. In the early development stage of the fuel cell, the cost of the cell is high, so that the fuel cell is not popularized and applied. Fuel cells are costly, about $ 1 million/5 KW; the temperature is high and is about 600 ℃ to 1000 ℃; energy conversion rate is about 65%; hydrogen and oxygen are used as fuels; a fuel-free cyclic regeneration function; when natural gas or coal gas is used as fuel, pollution is caused.

Disclosure of Invention

The invention aims to solve the technical problem of providing a computer-controlled intelligent circular ecological motor which can generate electricity circularly and continuously, is energy-saving and efficient, is ecological and environment-friendly and has multiple service functions. The technical scheme adopted by the invention for solving the technical problems is as follows: the magnetofluid power generation system of the circular ecological motor carries out chemical reaction on sodium in the sodium water reaction kettle (14) and water in the water tank (2) to generate hydrogen ions and sodium hydroxide. The hydrogen ions rapidly pass through the magnetic fluid channel (4) under the state of high temperature and high pressure, and cut magnetic lines of force to generate electricity through a multiple magnetic field formed by the magnetic steel N pole (3) and the magnetic steel S pole (5).

The main fuel for the circulating ecological motor is water (and air). The device can generate continuous chemical reaction to generate electric energy only by using a small amount of water (and air). Can be operated with a fraction of the maximum output capacity of the device without significantly reducing its efficiency. This is not possible with typical generators.

The discharge of the circulating ecological motor is purified water and hydrogen. The circulating ecological motor can generate heat of nearly 1000 ℃ due to magnetohydrodynamic power generation, and after water is heated by the (4) magnetofluid pipeline shell and the (13) hot water sleeve pipe, the water is supplied to terminal equipment such as a water heater, an air conditioner and the like through a hot water circulating system. The hydrogen discharged from the magnetic fluid channel (4) is directly stored in a hydrogen tank (6) through a pipeline, and can be conveyed from the hydrogen tank (6) to a hydrogen power generation system (7) for power generation. The large-scale circulating ecological motor can be also provided with a liquid hydrogen device or a compound hydrogen storage device which is specially used for pressurizing and cooling, and liquid hydrogen or compound hydrogen is supplied to the outside. (8) The purified water stored in the purified water tank can be directly drunk.

The computer control system of the circulating ecological motor controls each temperature control point, the electric control point, the power generation system and the multifunctional user system through the microprocessor, and can send an alarm and a mobile phone short message in real time through the automatic dialing device of the computer when abnormality occurs. The discharge of the circular ecological motor is hydrogen and pure water, and the fuel is air and water, which completely meets the requirements of ecological environment.

Drawings

FIG. 1 is a schematic view of basic units of a circulating ecological motor

FIG. 2 is a schematic diagram of a computer control system

Detailed Description

As can be seen from the embodiment shown in fig. 1-2, it includes a power generation system, a multi-function user system, and a computer control system. The method is characterized in that: as long as water (and air) is supplied, the device can generate power circularly and continuously, can work efficiently by utilizing part of the maximum output capacity, and can automatically supply purified water, hydrogen, hot water and an air conditioner. The emissions are pure water and hydrogen, the fuel is water (and air), and the fuel has no noise and pollution. The computer automatic control system controls the power generation system and the multifunctional user system, the microcontroller controls the chemical reaction process to generate current supply load, controls various smoke sensations, gas sensations and temperature sensations, and timely alarms and automatically shuts down under abnormal conditions.

And (2) the power generation system of the circulating ecological motor performs chemical reaction on sodium in the sodium water reaction kettle (14) and water in the water tank (2) to generate hydrogen ions and sodium hydroxide. The hydrogen ions rapidly pass through the magnetic fluid channel (4) under the state of high temperature and high pressure, and cut magnetic lines of force to generate electricity through a multiple magnetic field formed by the magnetic steel N pole (3) and the magnetic steel S pole (5).

The main fuel for the circulating ecological motor is water (and air). The device can generate continuous chemical reaction to generate electric energy only by using a small amount of water (and air). Can be operated with a fraction of the maximum output capacity of the device without significantly reducing its efficiency. This is not possible with typical generators.

The discharge of the circulating ecological motor is purified water and hydrogen. The circulating ecological motor can generate heat of nearly 1000 ℃ due to magnetohydrodynamic power generation, and after water is heated by the (4) magnetofluid pipeline shell and the (13) hot water sleeve pipe, the water is supplied to terminal equipment such as a water heater, an air conditioner and the like through a hot water circulating system. The hydrogen discharged from the magnetic fluid channel (4) is directly stored in a hydrogen tank (6) through a pipeline, and can be conveyed from the hydrogen tank (6) to a hydrogen power generation system (7) for power generation. The large-scale circulating ecological motor can be also provided with a liquid hydrogen device or a compound hydrogen storage device which is specially used for pressurizing and cooling, and liquid hydrogen or compound hydrogen is supplied to the outside. (8) The purified water stored in the purified water tank can be directly drunk.

The computer control system of the circulating ecological motor consists of a microcontroller (21), a keyboard (24), an I/O interface board (26), a liquid crystal display (22), a microcomputer communication interface (31), a microcomputer socket (25), a microcomputer user controller (27), a photoelectric sensor (28), a temperature sensor (29), a temperature controller (30) and a power supply (23). The micro controller comprising the monochip computer and its peripheral elements is connected to the keyboard and the I/O interface board. (21) The microcontroller controls: induction control of a magnetohydrodynamic power generation system, a hydrogen power generation system, a multifunctional user system and the like, induction control of various smoke-sensitive, temperature-sensitive and gas-sensitive control points, alarm control of abnormal conditions, and automatic control of an automatic dialing system for immediately sending alarms and short messages. When abnormal conditions occur, the mobile phone can be automatically regulated and shut down according to a software program, and an alarm short message is timely broadcast to the host mobile phone.