AU2021102730A4 - Conglomerate Renewable Energy Harvesting System - Google Patents

Abstract

Page 1 of 2 PLICANT(S): Chintakindi Sanjay Rameshwar of Industrial Engineering, College of Engineering, King Saud University Dr. Praveen Kumar Maduri of Galgotias College of Engineering & Technology ABSTRACT Conglomerate Renewable Energy Harvesting System (001) is a multiple energy harvesting tower which comprises of Solar energy and stress energy harvesting system (002), Wind energy harvesting system (003), Hydro energy harvesting system (004) and Harvested energy power source (005). The apparatus is meant to harvest solar energy by using monocrystalline solar cell array (008) spread across the circular disc of inverted umbrella shaped disc frame (006), stress energy from falling raindrops on piezoelectric transducer array (007) further rectifying the current to change it into DC, wind energy using two vertical reverse rotor wind generators to harness maximum energy even in the slowest speed of wind without requiring a jump starter and hydro energy using two horizontal hydro energy generators to harvest energy from falling water striking the turbine initiating the rotational motion being converted to electrical energy using dedicated circuit. The system also comprises a harvested energy power source to allow the user to use the stored electricity as the charging station (029) which comprises both AC power source plug (035) as well as DC USB output (037). Page2of6 PLICANT(S): Chintakindi Sanjay Rameshwar of Industrial Engineering, College of Engineering, King Saud University Dr. Praveen Kumar Maduri of Galgotias College of Engineering & Technology 008 007 00 Figure 2: Solar and stress energy harvesting system

Description

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PLICANT(S): Chintakindi Sanjay Rameshwar of Industrial Engineering, College of Engineering, King Saud University Dr. Praveen Kumar Maduri of Galgotias College of Engineering &Technology

008

007 00

Figure2: Solar and stress energy harvesting system

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PLICANT(S): Chintakindi Sanjay Rameshwar of Industrial Engineering, College of Engineering, King Saud University Dr. Praveen Kumar Maduri of Galgotias College of Engineering &Technology

TITLE: Conglomerate Renewable Energy Harvesting System

FIELD OF INVENTION

[001] The present invention relates to a renewable energy harvesting system more

particularly to the method of harvesting energy using, solar, wind, water and

5 piezoelectric material. The invention further relates to a charging station using

renewable energy generated by the invention.

BACKGROUNDART

[002] Renewable energy is being used in countries to switch to a better source of

energy which would last longer and is more reliable without causing damage to

10 environment. Renewable energy like solar energy is obtained by using solar panels

and wind energy could be extracted using wind mill, both the methods are

depending on one kind of source thus causing the method to be less efficient. If both

of these methods are used together the system becomes more efficient and produce

energy even if one source of energy is not available.

15 [003] Patent Application [W02011116249] a sustainable structure is provided that

is powered by a rechargeable battery that is charged by alternating wind and solar

energy generators. In this system solar and wind energy is used to charge the battery

in an alternate manner. The system is not cable of charging battery using more than

one energy while in our invention more than one renewable energy is used to charge

20 the battery which can be further used to charge mobile phones or any other device

at the charging station.

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PLICANT(S): Chintakindi Sanjay Rameshwar of Industrial Engineering, College of Engineering, King Saud University Dr. Praveen Kumar Maduri of Galgotias College of Engineering &Technology

[004] Patent Application [US20110176256] describes about a mobile electricity

generator comprising a telescopic boom, a first retractable support leg, and a base.

The telescopic boom comprises a first end and a second end. A wind turbine is

attached to the second end of the telescopic boom and the wind turbine is capable

5 of transforming wind into electricity. The first end of the telescopic boom and the

first retractable support leg is attached to the base. The mobile electricity generator

can further comprise a first solar panel that is capable of transforming light into

electricity, the base can further comprise an external surface, and the first solar

panel can be attached to the external surface of the base. The mobile electricity

10 generator can further comprise a battery in electric communication with the wind

turbine and first solar panel and the battery can be capable of at least temporarily

storing the electricity. The system can convert both wind and solar energy into

electricity but has no provision of converting rainwater energy into electricity which

our invention possess. The invention comprises of piezoelectric material to convert

15 rainfall energy to electricity.

[0051 Patent Application [GB2501692] describes about a portable renewable

energy and rainwater harvesting system, e.g., for use on construction sites,

comprises a rigid transportable frame system with adjustable legs designed to fit

securely on top of mobile accommodation units and shipping containers. Within the

20 top of the frame are a solar photovoltaic array, wind turbines and a rainwater

collection system. Positioned below the solar array a storage area houses water

storage tanks to store the rainwater, e.g., collected from the solar panels, a battery

bank and a plurality of energy control and distribution equipment enabling the DC

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PLICANT(S): Chintakindi Sanjay Rameshwar of Industrial Engineering, College of Engineering, King Saud University Dr. Praveen Kumar Maduri of Galgotias College of Engineering &Technology

energy generated by the wind turbine and the solar photovoltaic array to be stored

in the batteries, converted and distributed as AC power to the host unit. This system

uses solar & wind energy to produce electricity and harvest rain water while the

invention discussed in this paper is capable of converting energy from water falling

5 from height. When rain water falls in the hallow pillar present in the invention water

turbine is used to converts the energy of water into electricity.

[006] The invention present in this paper is thus capable of converting not only solar

and wind energy to electricity using solar panel and wind turbine respectively, but

also can convert rainfall energy to electricity using piezoelectric material and falling

10 water energy to electricity using water turbines.

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PLICANT(S): Chintakindi Sanjay Rameshwar of Industrial Engineering, College of Engineering, King Saud University Dr. Praveen Kumar Maduri of Galgotias College of Engineering &Technology

OBJECTIVE(S)

[007] The objective of the invention is to harvest renewable energy from multiple

sources to be obtained on a single power station to charge electronic devices of

daily use.

5 [008] Yet another objective of the invention is harvest maximum solar energy from

all the directions using monocrystalline solar cell array and to harvest stress energy

from the water drops falling on piezoelectric transducer array mounted on inverted

umbrella shaped disc frame for holding solar energy and stress energy harvesting

system.

10 [0091 Yet another objective of the invention is to harvest wind energy using two

tulip shaped vertical wind turbines + generators and store energy by using three

phase rectifier circuit along with charging circuit to charge the battery.

[010] Yet another objective of the invention is to harvest hydro energy form the

water falling through the principal rod of the invention to the two horizontal hydro

15 energy turbines + generators and store the energy using rectifier circuit along with

charging circuit to charge the battery.

[011] Yet another objective of the invention is to offer the harvested energy in the

form AC power source and USB output as DC power source from the charging

station.

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PLICANT(S): Chintakindi Sanjay Rameshwar of Industrial Engineering, College of Engineering, King Saud University Dr. Praveen Kumar Maduri of Galgotias College of Engineering &Technology

DESCRIPTION

[012] Conglomerate Renewable Energy Harvesting System (001) is a device

mounted on a principal pillar has four main parts - a solar energy & stress energy

harvesting system (002) mounted on an inverted umbrella shaped disc frame to hold

5 the system, a wind energy harvesting system (003) comprising two tulip rotor

shaped vertical wind turbine generators meant to harvest electricity from even the

slowest speed of wind without requiring a jump started electric charge, a hydro

energy harvesting system (004) using two horizontal hydro energy turbine

generators to harvest energy from water falling through hollow principal rod (019)

10 from a height wherein the rainwater entering through the rainwater opening (009).

[013] The raw and fluctuating electric energy harvested from different sources is

passes through various charge controlling and rectification circuit to achieve a

stable charge flow to pass it through the charging circuit which has boost converter

circuit to step up the DC voltage, charge protection circuit to storage-discharge,

15 back current -emf protection circuit and overload protection circuit. The final output

from the charging circuit which has stable voltage and current is sent to

rechargeable battery.

[0141 The charge stored in the battery placed in the charging station (029) to offer

both AC power source plug (035) and USB output (037) as DC power source.

20 Charging station further comprises cabinets (034) (036) to hold the electronic

device being charged, power storage box (040), charging and control box (039).

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PLICANT(S): Chintakindi Sanjay Rameshwar of Industrial Engineering, College of Engineering, King Saud University Dr. Praveen Kumar Maduri of Galgotias College of Engineering &Technology

DESCRIPTION OF DRAWINGS

Figure 1: Full view

001: Conglomerate Renewable Energy Harvesting System

002: Solar energy and stress energy harvesting system

5 003: Wind energy harvesting system

004: Hydro energy harvesting system

005: Harvested energy power source

Figure 2: Solar and stress energy harvesting system

10 006: Inverted umbrella shaped disc frame

007: Piezoelectric transducer array

008: Monocrystalline solar cell array

009: Rainwater opening

15 Figure 3: Wind energy harvesting system

010: Wind energy turbine rotor blades

011: Wind energy turbine rotor bearing

012: Upper holding hub

013: Principal rod holding wind energy system

20 014: Wind energy turbine rotor gear

015: Wind energy generator gear

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PLICANT(S): Chintakindi Sanjay Rameshwar of Industrial Engineering, College of Engineering, King Saud University Dr. Praveen Kumar Maduri of Galgotias College of Engineering &Technology

016: Wind energy generator shaft

Figure 4: Hydro energy harvesting system

017: Opening for hydro energy turbine blade

5 018: Wall protection from waterfall

019: Principal rod holding hydro energy system

020: Hydro energy turbine 1 holding shaft

021: Hydro energy turbine 2 holding shaft

022: Hydro energy turbine rotor

10 023: Hydro energy turbine rotor gear

024: Fixed stator shaft

025: Hydro energy generator gear

026: Water outlet

027: Hydro energy generator

15 028: Upper holding hub

Figure 5: Harvested energypower source

029: Charging station

030: Power and control box

20 031: Handle for the opening

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PLICANT(S): Chintakindi Sanjay Rameshwar of Industrial Engineering, College of Engineering, King Saud University Dr. Praveen Kumar Maduri of Galgotias College of Engineering &Technology

032:Lock

033: LED indicator

034: Holding cabinet

035: AC power source plug

5 036: Holding cabinet

037: USB output

Figure 6: Chargingstation

038: Shelter roof

10 039: Charing and control box

040: Power storage box

15

20 APPLICANT'S SIGNATURE

Claims (5)

Page 1 of 2 PLICANT(S): Chintakindi Sanjay Rameshwar of Industrial Engineering, College of Engineering, King Saud University Dr. Praveen Kumar Maduri of Galgotias College of Engineering &Technology CLAIMS We claim,

1. Conglomerate Renewable Energy Harvesting System (001) is an apparatus

for harvesting renewable energy from multiple sources wherein the said

apparatus comprises:

a solar energy and stress energy harvesting system (002);

a wind energy harvesting system (003);

a hydro energy harvesting system (004); and

a harvested energy power source (005).

2. The apparatus of Claim 1 wherein, the solar energy and stress energy

harvesting system comprises:

an inverted umbrella shaped disc frame (006) to hold the solar cell and

piezoelectric array;

a piezoelectric transducer array (007) along with a rectifier plus charge

storing circuit to harvest stress energy via raindrops falling on it; and

a monocrystalline solar cell array (008) with a solar charge controller to

harvest maximum solar energy from all directions.

3. The apparatus of Claim 1 wherein, the wind energy harvesting system

comprises:

a plurality of minimum two vertical wind turbines;

a plurality of minimum two vertical wind energy generators; and

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PLICANT(S): Chintakindi Sanjay Rameshwar of Industrial Engineering, College of Engineering, King Saud University Dr. Praveen Kumar Maduri of Galgotias College of Engineering &Technology

a three-phase bridge rectifier circuit providing output to the universal

charging circuit.

4. The apparatus of Claim 1 wherein, the hydro energy harvesting system

comprises:

a plurality of minimum two horizontal hydro turbines;

a plurality of minimum two horizontal hydro energy generators; and

a bridge rectifier circuit providing output to the universal charging circuit.

5. The apparatus of Claim 1 wherein, the harvested energy power source

comprises:

a charging station (029);

a charging and control box (039);

a power storage box (040);

AC power source plug (035) with cabinets; and

USB output (037) with cabinets.

APPLICANT'S SIGNATURE

EDITORIAL NOTE 21 May 2021

2021102730

There are 7 pages of drawings only.

Page 1 of 6 21 May 2021

.

DRAWINGS

TITLE: Conglomerate Renewable Energy Harvesting System 2021102730

Figure 1: Full view

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Figure 2: Solar and stress energy harvesting system

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Figure 3: Wind energy harvesting system

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Figure 4: Hydro energy harvesting system

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Figure 5: Harvested energy power source

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Figure 6: Charging station

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Figure of Abstract

APPLICANT’S SIGNATURE