1
NANO LEAVES ELECTRICITY AND ITS ACTIVE
ROLE IN MEDICINE
[1]
AKSHAYA.R, [2]
ANGEL.A
Department of Computer Science Engine...
When we insert the
VOLATIC CELLS, PHOTOVOLATIC CELLS,
PIEZO-ELECTRIC CELLS into the tree leaves.
That leaves is act as art...
depletion region potential of the P
When a load is connected across the cell; the
depletion region potential causes the ph...
TYPICAL NANO GENERATOR
(FIG 11 GENERATOR
PERFECT TREES FOR NANOLEAVE
TECHNOLOGY
Right now, two main kinds of trees are use...
DISADVANTAGES
It is very difficult to interface the nano cells into
the trees leaves. Cost of this technology is very
high...
of 5

NANOLEAF1

Published on: Mar 3, 2016
Source: www.slideshare.net


Transcripts - NANOLEAF1

  • 1. 1 NANO LEAVES ELECTRICITY AND ITS ACTIVE ROLE IN MEDICINE [1] AKSHAYA.R, [2] ANGEL.A Department of Computer Science Engineering, Panimalar Engineering College, Chennai. ABSTRACT Nano technology is the word making a huge resolution in our science Industry. It is a fascinating science for creating nano leaves using the solar Botanic technology. By using this nano leaves creation, scientists try to solve our biggest problem in this year. Yes! We will witness a world where there will be scarcity for energy resources, but we are blessed that we are provided with the solar and air which will last for millions of years. And recently with the emerging nanotechnology scientists are working on the new content called the nano leaves that will help to producing electricity with the help of solar power which can serve the future demands. Nanoleaves in trees, flowers, shrubs, and plants can last for 30 yr, enduring the toughest outdoor conditions—including hail and lightning. As the near future it is expected to face a huge energy crisis. In this paper we intend to light on how exactly the nano leaves can be achieve by witnessing through an article on renewable energy and in particular the innovative technology of artificial trees and leaves known as Bio mimicry. We begin with an overview of nano leaves and Bio mimicry concept. (FIG 1 BIOMIMICRY) BIOMIMICRY TECHNOLOGY Bio mimicry, a relatively modern technology, uses nano leaves attached to artificial trees and plants to capture solar energy. These exclusively designed nano leaves contain tiny photovoltaic and thermo voltaic modules that gather heat and light from solar energy, converting this to electrical energy. The design of the nano leaves is based on the principles of photosynthesis, a natural process where plants extract the light from solar energy, and along with CO2 from the atmosphere, convert it to starches and oxygen, the oxygen being emitted to the atmosphere However, nano leaves development has gone a step further, in that they are capable of harvesting the thermal and light energy from the sun’s energy and convert it to electricity. The stems of the nano leaves are designed to collect kinetic energy from the wind, which they also convert to electrical energy. INTRODUCTION TO NANO LEAVES TECHNOLOGY Nano leaves and stems are an emerging form of renewable energy through collecting energy from the sun and wind and converting it to electrical energy. The leaves are distributed throughout artificial trees and plants, and when operating at optimum efficiency can supply a whole household with electricity. Solar nano technology is used to collect THERMAL, LIGHT, and WIND energy, the leaves and stems incorporate minuscule cells, as explained below; TYPES OF TRANSDUCERS USED IN NANOLEAVES 1) THERMOVOLTAIC CELLS 2) PHOTOVOLTAIC CELLS 3) PIEZOVOLTAIC CELLS MECHANISAM OF NANO LEAF
  • 2. When we insert the VOLATIC CELLS, PHOTOVOLATIC CELLS, PIEZO-ELECTRIC CELLS into the tree leaves. That leaves is act as artificial leave in the tree. The THERMO VOLTAIC cell is used to convert the sunlight thermal energy into electrical energy in that artificial leaves. Nano PHOTOVOLTAIC also convert the invisible light, known asin frared light or radiation, we can't see it, but we can feel it - it's warm - that's why we call it radiation. Due to the unique combination of photovoltaic in our Nano leaves it conve thermal radiation into electricity. PIEZO-ELECTRIC cells is thin like a natural leaf, when outside forces, like the wind pushes the Nano leaf back and forth, mechanical stresses appear in the petiole, twig and branches. The more wind there is, the more Nano leaves are moved. Wind that is moving thousands of Nano leaves in a tree canopy are causing mechanical strain in the petiole, twigs and branches. Nano piezo-electric elements incorporated in the petiole twigs and branches are the tiny piezo-electric elements that will generate millions and millions of Pico watts electricity. (FIG 2 ARTIFICIAL WORKING OF THERMO VOLATIC IN NANO LEAVE TECHNOLOGY Out of two junctions T1 and T2, T2 is kept at constant temperature. Hence it is referred as cold junction. The temperature changes to be measured are subjected to the junction T1, which is referred as hot junction. When T1>T2, an EMF is generated due to the generator gradient. When we insert the THERMO VOLATIC CELLS, PHOTOVOLATIC CELLS, ELECTRIC CELLS into the tree leaves. That leaves is act as artificial leave in the tree. cell is used to convert the sunlight thermal energy into electrical energy in PHOTOVOLTAIC cells also convert the invisible light, known asin can't see it, but we that's why we call it radiation. Due to the unique combination of photovoltaic in our Nano leaves it converts this thermal radiation into electricity. The Nano cells is thin like a natural leaf, when outside forces, like the wind pushes the Nano leaf back and forth, mechanical stresses appear in the petiole, twig and branches. The ere is, the more Nano leaves are moved. Wind that is moving thousands of Nano leaves in a tree canopy are causing mechanical strain in the petiole, twigs and branches. Nano electric elements incorporated in the petiole twigs and branches are the tiny Nano electric elements that will generate millions and millions of Pico watts electricity. LEAF ) WORKING OF THERMO VOLATIC IN NANO LEAVE TECHNOLOGY Out of two junctions T1 and T2, T2 is temperature. Hence it is referred as cold junction. The temperature changes to be measured are subjected to the junction T1, which is referred as hot junction. When T1>T2, an EMF is generated due to the generator gradient. The magnitude of emf depends on t used for wires and temperature difference between T1 and T2. That emf is produced electrical energy and that energy is stored in the inverter. (FIG 3 NANOSOLAR WORKING OF PHOTO VOLATIC IN NANO LEAVE TECHNOLOGY (FIG 4 PHOTOVOLATIC CELL When the sunlight strikes the photo voltaic cells the thin p-doped upper layer absorbed the electrons in the n-layer which causes formation of conduction electrons and holes. These conduction electrons and holes are separated by 2 The magnitude of emf depends on the materials used for wires and temperature difference between T1 and T2. That emf is produced electrical energy and that energy is stored in the NANOSOLAR CELLS) VOLATIC CELLS TECHNOLOGY: (FIG 4 PHOTOVOLATIC CELL) When the sunlight strikes the photo voltaic cells doped upper layer absorbed the layer which causes formation of conduction electrons and holes. These conduction electrons and holes are separated by
  • 3. depletion region potential of the P When a load is connected across the cell; the depletion region potential causes the photo current to the inverter in the tree trunk. WORKING OF PIEZO-ELECTRIC CELLS IN NANO LEAVE TECHNOLOGY (FIG 5 NANOLEAF) Piezoelectric cells are worked based on the piezoelectric effect in this nano leave technology. PIEZO ELECTRIC EFFECT (FIG 6 PIEZOELECTRIC CRYSTAL When two opposite faces of a thin, slice of certain crystals are subjected to a mechanical force, then opposite chargers are developed on the two faces of the slice. In this technology a crystal is placed in between two metal electrodes When the wind force gives the stress to the up and down side of this nano leave, the CRYSTAL in this piezo electric cell got the vibration. This vibration actually a kinetic energy. This energy is converted form of electrical energy. This electrical energy stored in the inverter in tree trunk. (FIG 10 NANOLEAVES) of the P-N junction. When a load is connected across the cell; the depletion region potential causes the photo current to the inverter in the tree trunk. ELECTRIC CELLS IN NANO LEAVE TECHNOLOGY cells are worked based on the piezoelectric effect in this nano leave PIEZOELECTRIC CRYSTAL) When two opposite faces of a thin, slice of certain crystals are subjected to a mechanical site chargers are developed on In this technology a crystal is placed in between two metal electrodes When the wind force gives the stress to the up and down side of this nano leave, the CRYSTAL in this piezo electric got the vibration. This vibration actually a kinetic energy. This energy is converted form of electrical energy. This electrical energy stored in AIR REACTION IN NANO LEAVE (FIG 7 REATION IN NANO INTERNAL STRUCTURE OF PE CELL IN THE NANO LEAVE (FIG 8 PE CELL INVERTER USE IN NANO LEAVE TECHNOLOGY (FIG 9 ARTIFICIAL TREE) The inverter is a DC to AC converter circuit used in this nano leave technology. It is fixed in the trunk part of the tree. The all TV, PV, PE cells source output are connected internally to the inverter The total output AC voltage is taken out of this inverter. get 8 kw power access from inverter to the electrical applications. 3 IN NANO LEAVE REATION IN NANOLEAF) INTERNAL STRUCTURE OF PE CELL IN THE NANO LEAVE (FIG 8 PE CELL ) INVERTER USE IN NANO LEAVE converter circuit used in this nano leave technology. It is fixed in the trunk part of the tree. The all TV, PV, PE cells source output are connected internally to the inverter The total output AC voltage is taken out of this inverter. We can er access from inverter to the
  • 4. TYPICAL NANO GENERATOR (FIG 11 GENERATOR PERFECT TREES FOR NANOLEAVE TECHNOLOGY Right now, two main kinds of trees are used in this technology. 1. THE BROAD LEAF TREES 2. THE SOLAR BOTANIC TR THE BOARD LEAF TREES The BROAD LEAF TREES can provide between 33500 KWH AND 7000KWH per year, in addition to providing shade, breeze, and beauty THE SOLAR BOTANIC TREES SOLAR BOTANIC’S EVER GREEN TREES provide between 2500kWh and 7000kWh per year. These trees are good for mountainous regions and hill sides, as they provide good sound absorbers. Solar Botanics has also planned a variety of smaller artificial shrubs for your smaller electrical needs, like appliances. Solar Botanic has Nano leaf roof and wall carpets that can be easily installed with various leaf designs. TYPICAL NANO GENERATOR (FIG 11 GENERATOR) PERFECT TREES FOR NANOLEAVE Right now, two main kinds of trees are used in THE BROAD LEAF TREES THE SOLAR BOTANIC TREES can provide between per year, in addition to providing shade, breeze, and beauty. GREEN TREES provide between 2500kWh and 7000kWh per year. These trees are good for mountainous regions and hill sides, as they provide good sound absorbers. Solar Botanics has also planned a variety of smaller artificial shrubs for your smaller electrical needs, like household appliances. Solar Botanic has Nano leaf roof and wall carpets that can be easily installed with (FIG 12 SOLAR BOTANIC TREES PERFECT PLACE FOR THIS TECHNOLOGY GREEN DESERT ENERGY The desert has a unique beauty and of renewable energy, we believe that we can preserve the beauty and exploit its resources without doing damage to the desert Ecosystem. The desert regions are some of the most magnificent ecosystems of this world: unique natural habitats boasting incredible diverse fauna and which have been home to some of the world’s oldest civilizations. To capture and exploit this fragile beautiful landscape from renewable resources we have to think twice, because it deserves our protection. Every desert highway mile can generate as much as 1.2MW of clean electricity per year, or power over 200 homes. Protects the environment from otherwise releasing 800 tons of CO2. (FIG 13 DESERT ENERGY 4 (FIG 12 SOLAR BOTANIC TREES ) PERFECT PLACE FOR THIS The desert has a unique beauty and a abundance of renewable energy, we believe that we can preserve the beauty and exploit its resources without doing damage to the desert Ecosystem. The desert regions are some of the most magnificent ecosystems of this world: unique ng incredible diverse fauna and which have been home to some of the oldest civilizations. To capture and exploit this fragile beautiful landscape from renewable resources we have to think twice, because it deserves our protection. Every desert way mile can generate as much as 1.2MW of clean electricity per year, or power over 200 homes. Protects the environment from otherwise (FIG 13 DESERT ENERGY)
  • 5. DISADVANTAGES It is very difficult to interface the nano cells into the trees leaves. Cost of this technology is very high. Very difficult to interface the inverter to the tree trunk. . CONCLUSION By Concluding this nano leaves try solve our future upcoming problems due to the Scarcity, which is the fundamental problem and this nano leaves will also produce electrical energy, and thus we protect environment without any pollutions. (FIG 14 NANO MAGIC TREE It is very difficult to interface the nano cells into the trees leaves. Cost of this technology is very high. Very difficult to interface the inverter to this nano leaves ,we definitely try solve our future upcoming problems due to which is the fundamental economic and this nano leaves will also produce thus we protect our environment without any pollutions. REFERENCES:  Dr S.Jayakumar, “materialscience”, RK publisher  Z.W.Pan, Z.R.Dai,Z.L.Wang, Science 2007  Daily tech-Conference And Machine Merging, How Tech Will Make Human Brain Obsolete  Kurzweil,ray, The Singularity is Near  Wagner V,Dullaart A,Bock AK,weck A(2006),”The emerging Nanomedicine Landscape”. (FIG 14 NANO MAGIC TREE) 5 Dr S.Jayakumar, “materialscience”, RK Z.W.Pan, Z.R.Dai,Z.L.Wang, Science Conference Examines Man And Machine Merging, How Tech Will Make Human Brain Obsolete Kurzweil,ray, The Singularity is Near Wagner V,Dullaart A,Bock AK,weck A(2006),”The emerging Nanomedicine

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