WO2020032876A1 - Renewable power generation system - Google Patents

Renewable power generation system Download PDF

Info

Publication number
WO2020032876A1
WO2020032876A1 PCT/TR2018/050418 TR2018050418W WO2020032876A1 WO 2020032876 A1 WO2020032876 A1 WO 2020032876A1 TR 2018050418 W TR2018050418 W TR 2018050418W WO 2020032876 A1 WO2020032876 A1 WO 2020032876A1
Authority
WO
WIPO (PCT)
Prior art keywords
energy
generation system
renewable
converting
renewable energy
Prior art date
Application number
PCT/TR2018/050418
Other languages
French (fr)
Inventor
Yakup YÜKSEKTEPE
Original Assignee
Yueksektepe Yakup
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Yueksektepe Yakup filed Critical Yueksektepe Yakup
Priority to PCT/TR2018/050418 priority Critical patent/WO2020032876A1/en
Publication of WO2020032876A1 publication Critical patent/WO2020032876A1/en

Links

Classifications

    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02JCIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
    • H02J7/00Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
    • H02J7/34Parallel operation in networks using both storage and other dc sources, e.g. providing buffering

Definitions

  • the invention relates to a renewable power system converting mechanic rotation motion into electricity power by renewable power sources and used in generation of electric power generation.
  • the invention particularly relates to renewable power generation machine consisting of Reducer Asynchronous engine converting the power received from battery into mechanic energy by built-in charging system and alternator converting the mechanical energy received from the Reducer Asynchronous engine into electricity energy.
  • the invention relates to a renewable power system converting mechanic rotation motion into electricity power by renewable power sources and used in generation of electric power generation.
  • the most important purpose of the invention is to generate electricity energy by converting mechanical motion into electricity energy in the areas not having electric energy and provide use of generated energy in all areas.
  • Another purpose of the invention is to generate and provide use of electricity energy 7/24 without need for solar energy or wind energy.
  • Figure 1 is a drawing indicating renewable energy generation system disclosed under the invention.
  • Figure 2 is a drawing indicating renewable energy generation system disclosed under the invention.
  • FIG. 3 is a drawing indicating renewable energy generation system disclosed under the invention.
  • Asynchronous engine Driver 20 Inventor
  • the invention relates to a renewable power system converting mechanic rotation motion into electricity power by renewable power sources and used in generation of electric power generation.
  • FIG 1 figure 2 and figure 3 show renewable energy generation system disclosed under the invention
  • Start/stop button (130) connected to Asynchronous engine driver (10) is pressed
  • 24V/48V current received from battery (110) group in the system is converted into 220 V A.C by inventor (20) and transmitted to Reducer Asynchronous engine (30).
  • Motion of Reducer Asynchronous engine (30) is transmitted to alternator (40) and charging dynamo (50) by belt (170) and drums (160).
  • batteries (110) are charged at the same time as the charging dynamo (50).
  • the energy generated by alternator (40) is balanced for Hertz (frequency) at condenser (70) and transmitted to automat (90).
  • Automat (90) is activated in case of any condenser (70) failure and cuts the current.
  • Energy from automat (90) passes through current transformer (80) and goes into multimeter (60). Here the voltage and Hertz are measured. Then the energy is supplied to current/ voltage/ fuse relays (180). In case of over increase in voltage or fuse, the relays (180) are activated and current is cut or balanced. Energy goes into group fuses (100) after relays (180). Group fuses (100) are used to turn on/ off the energy. The energy from there is supplied to fuse/ neutral distribution board (190). The energy from there is now in form of usable after connection to plugs. Heat sensors (200) built-in the system measure the temperature of engines and when needed coolers (120) are activated to cool down the system. Engine slide (150) adjusts the belt (170) tightening. Fuses (140) are to prevent any failures that might occur in the system.
  • CLAIMS -
  • the invention relates to renewable power generation system converting mechanic energy into electricity energy by renewable energy sources and used in electric energy generation and it is characterized in that it consists of at least a Reducer Asynchronous engine (30) converting the power received from battery (110) into mechanic energy, at least an alternator (40) converting the mechanical energy received from the Reducer Asynchronous engine (30) into electricity energy.
  • a renewable energy generation system according to claim 1 and it is characterized in that it consists of charging dynamo (50) charging the batteries (110) upon concerting mechanical energy from Reducer Asynchronous Engine (30) into mechanical energy.
  • a renewable energy generation system according to claim 1 and it is characterized in that it consists of batteries (110) providing power to Reducer Asynchronous engine (30) during initial start-up,.
  • a renewable energy generation system consists of a condenser (70) balancing Hertz (frequency) of energy generated by alternator (40).
  • a renewable energy generation system according to claim 1 and it is characterized in that it consists of a multimeter (60) measuring voltage and Hertz of energy generated by alternator (40).
  • a renewable energy generation system according to claim 1 and it is characterized in that it consists of current/voltage/fuse relays (180) activated to cut or balance current in case of over voltage or over current.
  • a renewable energy generation system according to claim 1 and it is characterized in that it consists of heat sensors (200) built-in the system measuring the temperature of engines and activating coolers (120) to cool down the system when needed.

Abstract

The invention relates to a renewable power system converting mechanic rotation motion into electricity power by renewable power sources and used in generation of electric power generation. The invention particularly relates to renewable power generation system consisting of Reducer Asynchronous engine (30) converting the power received from battery (110) into mechanic energy by built-in charging system and alternator (40) converting the mechanical energy received from the Reducer Asynchronous engine (30) into electricity energy.

Description

RENEWABLE POWER GENERATION SYSTEM
THE RELATED ART
The invention relates to a renewable power system converting mechanic rotation motion into electricity power by renewable power sources and used in generation of electric power generation.
The invention particularly relates to renewable power generation machine consisting of Reducer Asynchronous engine converting the power received from battery into mechanic energy by built-in charging system and alternator converting the mechanical energy received from the Reducer Asynchronous engine into electricity energy.
BACKGROUND OF THE RELATED ART
Energy's being highly precious in the world resulted in development of the renewable energy systems have also developed. Restriction of power sources and increasing energy prices subject thereto have prioritized finding alternative power sources, primarily renewable power sources and use thereof.
In the related art, Solar panel and wind turbines may generate energy but their initial investment costs are too high.
As a result, the need for a new production method to solve the above mentioned problems and inadequacy of existing solutions have necessitated development in a new economical, useful, renewable power generation system for matt lacquered surface panel in the related art. PURPOSE OF THE INVENTION
The invention relates to a renewable power system converting mechanic rotation motion into electricity power by renewable power sources and used in generation of electric power generation.
The most important purpose of the invention is to generate electricity energy by converting mechanical motion into electricity energy in the areas not having electric energy and provide use of generated energy in all areas.
Another purpose of the invention is to generate and provide use of electricity energy 7/24 without need for solar energy or wind energy.
Said invention in its current status and with its simple method will be beneficial for economy and thus provide a commercial success.
The structural and characteristic features and all advantages of the invention will be understood better with the figures given below and the detailed description by reference to the figures. Therefore, the assessment should be made based on the figures and the detailed descriptions.
BRIEF DESCRIPTION OF FIGURES
Figure 1 is a drawing indicating renewable energy generation system disclosed under the invention.
Figure 2 is a drawing indicating renewable energy generation system disclosed under the invention.
Figure 3 is a drawing indicating renewable energy generation system disclosed under the invention. REFERENCE NUMBERS
10. Asynchronous engine Driver 20. Inventor
30. Reducer Asynchronous Engine 40. Alternator
50. Charging Dynamo
60. multimeter
70. Condenser
80. Current transformer
90. Automat
100. Group automat
110. Battery
120. Cooler
130. Start/Stop button
140. Fuses
150. Engine Slide
160. Drums
170. Belt
180. Current/Voltage/Fuse Relay
190. Fuse/Neutral Distribution Board 200. Heat Sensors
DETAILED DESCRIPTION OF THE INVENTION
The invention relates to a renewable power system converting mechanic rotation motion into electricity power by renewable power sources and used in generation of electric power generation.
Figure 1, figure 2 and figure 3 show renewable energy generation system disclosed under the invention When Start/stop button (130) connected to Asynchronous engine driver (10) is pressed, 24V/48V current received from battery (110) group in the system is converted into 220 V A.C by inventor (20) and transmitted to Reducer Asynchronous engine (30). Motion of Reducer Asynchronous engine (30) is transmitted to alternator (40) and charging dynamo (50) by belt (170) and drums (160). Here batteries (110) are charged at the same time as the charging dynamo (50). The energy generated by alternator (40) is balanced for Hertz (frequency) at condenser (70) and transmitted to automat (90). Automat (90) is activated in case of any condenser (70) failure and cuts the current. Energy from automat (90) passes through current transformer (80) and goes into multimeter (60). Here the voltage and Hertz are measured. Then the energy is supplied to current/ voltage/ fuse relays (180). In case of over increase in voltage or fuse, the relays (180) are activated and current is cut or balanced. Energy goes into group fuses (100) after relays (180). Group fuses (100) are used to turn on/ off the energy. The energy from there is supplied to fuse/ neutral distribution board (190). The energy from there is now in form of usable after connection to plugs. Heat sensors (200) built-in the system measure the temperature of engines and when needed coolers (120) are activated to cool down the system. Engine slide (150) adjusts the belt (170) tightening. Fuses (140) are to prevent any failures that might occur in the system.
Here as an alternative, solar energy and/or wind energy can also be integrated in order to charge the batteries (110). The protection area of this application has been specified under claims and can not be limited to the descriptions only given as sampling above. It is clear that a person skilled in the related art can provide the novelty disclosed under the invention by use of the similar embodiments and/or can also apply this embodiment in other areas for similar purposes used in the related art. Therefore, it is obvious that such embodiments will be lack of novelty and particularly, surpassing the state of art criteria.
CLAIMS - The invention relates to renewable power generation system converting mechanic energy into electricity energy by renewable energy sources and used in electric energy generation and it is characterized in that it consists of at least a Reducer Asynchronous engine (30) converting the power received from battery (110) into mechanic energy, at least an alternator (40) converting the mechanical energy received from the Reducer Asynchronous engine (30) into electricity energy. - A renewable energy generation system according to claim 1 and it is characterized in that it consists of charging dynamo (50) charging the batteries (110) upon concerting mechanical energy from Reducer Asynchronous Engine (30) into mechanical energy. - A renewable energy generation system according to claim 1 and it is characterized in that it consists of batteries (110) providing power to Reducer Asynchronous engine (30) during initial start-up,. - A renewable energy generation system according to claim 1 and it is characterized in that it consists of a condenser (70) balancing Hertz (frequency) of energy generated by alternator (40). - A renewable energy generation system according to claim 1 and it is characterized in that it consists of a multimeter (60) measuring voltage and Hertz of energy generated by alternator (40). - A renewable energy generation system according to claim 1 and it is characterized in that it consists of current/voltage/fuse relays (180) activated to cut or balance current in case of over voltage or over current. - A renewable energy generation system according to claim 1 and it is characterized in that it consists of heat sensors (200) built-in the system measuring the temperature of engines and activating coolers (120) to cool down the system when needed.

Claims

1- The invention relates to renewable power generation system converting mechanic energy into electricity energy by renewable energy sources and used in electric energy generation and it is characterized in that it consists of at least a Reducer Asynchronous engine (30) converting the power received from battery (110) into mechanic energy, at least an alternator (40) converting the mechanical energy received from the Reducer Asynchronous engine (30) into electricity energy.
2- A renewable energy generation system according to claim 1 and it is characterized in that it consists of charging dynamo (50) charging the batteries (110) upon concerting mechanical energy from Reducer Asynchronous Engine (30) into mechanical energy.
3- A renewable energy generation system according to claim 1 and it is characterized in that it consists of batteries (110) providing power to Reducer Asynchronous engine (30) during initial start-up,.
4- A renewable energy generation system according to claim 1 and it is characterized in that it consists of a condenser (70) balancing Hertz (frequency) of energy generated by alternator (40).
5- A renewable energy generation system according to claim 1 and it is characterized in that it consists of a multimeter (60) measuring voltage and Hertz of energy generated by alternator (40).
6- A renewable energy generation system according to claim 1 and it is characterized in that it consists of current/voltage/fuse relays (180) activated to cut or balance current in case of over voltage or over current.
7- A renewable energy generation system according to claim 1 and it is characterized in that it consists of heat sensors (200) built-in the system measuring the temperature of engines and activating coolers (120) to cool down the system when needed. 8- A renewable energy generation system according to claim 1 and it is characterized in that it consists of solar panel and/ or wind turbine to charge the batteries (110) alternatively.
9- A renewable energy generation system according to claim 1 and it is characterized in that it consists of inventor (20) converting 24V/48V current from battery group (110) into 220 V A.C.
PCT/TR2018/050418 2018-08-07 2018-08-07 Renewable power generation system WO2020032876A1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
PCT/TR2018/050418 WO2020032876A1 (en) 2018-08-07 2018-08-07 Renewable power generation system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/TR2018/050418 WO2020032876A1 (en) 2018-08-07 2018-08-07 Renewable power generation system

Publications (1)

Publication Number Publication Date
WO2020032876A1 true WO2020032876A1 (en) 2020-02-13

Family

ID=69414352

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/TR2018/050418 WO2020032876A1 (en) 2018-08-07 2018-08-07 Renewable power generation system

Country Status (1)

Country Link
WO (1) WO2020032876A1 (en)

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN202172291U (en) * 2011-08-03 2012-03-21 上海理工大学 Miniature solar wind energy complementary power generation system
KR101734221B1 (en) * 2016-07-14 2017-05-11 (주)세진엔지니어링 energy management system based on IoT

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN202172291U (en) * 2011-08-03 2012-03-21 上海理工大学 Miniature solar wind energy complementary power generation system
KR101734221B1 (en) * 2016-07-14 2017-05-11 (주)세진엔지니어링 energy management system based on IoT

Similar Documents

Publication Publication Date Title
US8638061B2 (en) Hybrid energy storage system, renewable energy system including the storage system, and method of using same
Wang et al. Harmonizing AC and DC: A hybrid AC/DC future grid solution
Best et al. Synchronous islanded operation of a diesel generator
CN105846463B (en) A kind of black-start method and system of multi-source coordination
Harb et al. Power quality and stability impacts of Vehicle to grid (V2G) connection
Sabarimuthu et al. Fast and integrated chargers for lithium ion batteries
Leahy et al. Wind energy storage technologies
CN115714399A (en) Flywheel energy storage-based wind turbine generator set primary allocation control method
Iba Massive energy storage system for effective usage of renewable energy
WO2020032876A1 (en) Renewable power generation system
Popel’ et al. Hybrid electric energy storages: Their specific features and application
García Torres Advanced control of renewable energy microgrids with hybrid energy storage system
Frack et al. Control-strategy design for frequency control in autonomous smart microgrids
CN106684904B (en) The method and micro-capacitance sensor of the electrical networking of distributed busbar protection, medium-sized energy network
Tudorache et al. The numerical modeling of transient regimes of diesel generator sets
Hariharan et al. Blackout restoration process by PHEV charging station integrated system using virtual instrumentation
RU2680642C1 (en) Wind and sun plant of autonomous power supply
Kansara et al. Dispatch, control strategies and emissions for isolated wind-diesel hybrid power system
Yan et al. Capacity configuration of energy storage systems for echelon utilization based on accelerated life test in microgrids
Almarzooqi et al. Utility scale battery energy storage modes of operation implemented in dubai
Beltramin State-of-the-art of the flywheel/li-ion battery hybrid storage system for stationary applications
Price Renewable Power and Energy, Volume II: Wind and Thermal Systems
Baba Stabilizing small island power system with renewables by use of power conditioning systems-Japanese island system case
Leavey Mitigating power fluctuations from renewable energy sources
Zenned et al. Design of a hybrid system for battery sizing to supply a domestic load

Legal Events

Date Code Title Description
121 Ep: the epo has been informed by wipo that ep was designated in this application

Ref document number: 18929705

Country of ref document: EP

Kind code of ref document: A1

NENP Non-entry into the national phase

Ref country code: DE

32PN Ep: public notification in the ep bulletin as address of the adressee cannot be established

Free format text: NOTING OF LOSS OF RIGHTS PURSUANT TO RULE 112(1) EPC (EPO FORM 1205A DATED 20/05/2021)

122 Ep: pct application non-entry in european phase

Ref document number: 18929705

Country of ref document: EP

Kind code of ref document: A1